#+TITLE: Lecturas del Grupo de Lógica Computacional
#+OPTIONS: ^:nil
Este repositorio es una recopilación de lecturas compartidas en la lista
de correo del [[http://www.glc.us.es][grupo de lógica computacional]]. La recopilación está
ordenada por la fecha de su publicación en la lista. Al final de cada
artículo se encuentra etiquetas relativas a los sistemas que usa o a su
contenido.
* Contenido :TOC:
- [[#lecturas-del-año-2019][Lecturas del año 2019]]
- [[#enero-2019][Enero 2019]]
- [[#febrero-2019][Febrero 2019]]
- [[#marzo-2019][Marzo 2019]]
- [[#abril-2019][Abril 2019]]
- [[#mayo-2019][Mayo 2019]]
- [[#junio-2019][Junio 2019]]
- [[#julio-2019][Julio 2019]]
- [[#agosto-2019][Agosto 2019]]
- [[#lecturas-del-año-2018][Lecturas del año 2018]]
- [[#enero-2018][Enero 2018]]
- [[#febrero-2018][Febrero 2018]]
- [[#marzo-2018][Marzo 2018]]
- [[#abril-2018][Abril 2018]]
- [[#mayo-2018][Mayo 2018]]
- [[#junio-2018][Junio 2018]]
- [[#julio-2018][Julio 2018]]
- [[#agosto-2018][Agosto 2018]]
- [[#septiembre-2018][Septiembre 2018]]
- [[#octubre-2018][Octubre 2018]]
- [[#noviembre-2018][Noviembre 2018]]
- [[#diciembre-2018][Diciembre 2018]]
- [[#lecturas-del-año-2017][Lecturas del año 2017]]
- [[#enero-2017][Enero 2017]]
- [[#febrero-2017][Febrero 2017]]
- [[#marzo-2017][Marzo 2017]]
- [[#abril-2017][Abril 2017]]
- [[#mayo-2017][Mayo 2017]]
- [[#julio-2017][Julio 2017]]
- [[#agosto-2017][Agosto 2017]]
- [[#septiembre-2017][Septiembre 2017]]
- [[#octubre-2017][Octubre 2017]]
- [[#noviembre-2017][Noviembre 2017]]
- [[#lecturas-del-año-2016][Lecturas del año 2016]]
- [[#enero-2016][Enero 2016]]
- [[#febrero-2016][Febrero 2016]]
- [[#marzo-2016][Marzo 2016]]
- [[#abril-2016][Abril 2016]]
- [[#mayo-2016][Mayo 2016]]
- [[#junio-2016][Junio 2016]]
- [[#julio-2016][Julio 2016]]
- [[#agosto-2016][Agosto 2016]]
- [[#septiembre-2016][Septiembre 2016]]
- [[#octubre-2016][Octubre 2016]]
- [[#noviembre-2016][Noviembre 2016]]
- [[#diciembre-2016][Diciembre 2016]]
- [[#lecturas-anteriores-al-2016][Lecturas anteriores al 2016]]
- [[#lecturas-del-año-2015][Lecturas del año 2015]]
- [[#lecturas-del-año-2014][Lecturas del año 2014]]
- [[#lecturas-del-año-2013][Lecturas del año 2013.]]
- [[#lecturas-del-año-2012][Lecturas del año 2012.]]
- [[#lecturas-del-año-2011][Lecturas del año 2011.]]
- [[#lecturas-del-año-2010][Lecturas del año 2010.]]
* Lecturas del año 2019
** Enero 2019
+ [[http://fse.studenttheses.ub.rug.nl/8724/1/verslag.pdf][Evaluation of Isabelle with a proof of the perfect number theorem]]. ~
Mark IJbema. #ITP #IsabelleHOL #Math
+ [[http://publications.lib.chalmers.se/records/fulltext/256404/256404.pdf][Univalent categories (A formalization of category theory in Cubical
Agda)]]. ~ F.H. Iversen #Msc_Thesis #ITP #Agda
+ [[https://www.cs.uoregon.edu/research/summerschool/summer13/lectures/Kinds_and_GADTs.pdf][Fun with kinds and GADTS]]. ~ Simon Peyton Jones. #Haskell
#FunctionalProgramming
+ [[http://www.cse.unt.edu/~tarau/research/2019/tprover.pdf][A combinatorial testing framework for intuitionistic propositional
theorem provers]]. ~ P. Tarau. #ATP #Logic #Prolog
+ [[https://github.com/alexwl/haskell-code-explorer/blob/master/README.md][Haskell Code Explorer: Web application for exploring and understanding
Haskell libraries]]. ~ Alexey Kiryushin. #Haskell
+ [[https://blog.poisson.chat/posts/2018-08-06-one-type-family.html][Haskell with only one type family]]. ~ Xia Li-yao. #Haskell
+ [[https://github.com/MWRuszczycky/rubiks][3D-Rubik's cube simulator written in Haskell using Gloss]]. ~ Mark
W. Ruszczycky. #Haskell
+ [[http://blog.klipse.tech/prolog/2019/01/01/blog-prolog.html][A new way of blogging about Prolog]]. ~ Yehonathan Sharvit. #Prolog
#Klipse #Clojure
+ [[https://www.isa-afp.org/entries/Concurrent_Revisions.html][Formalization of concurrent revisions in Isabelle/HOL]]. ~
R. Overbeek. #ITP #IsabelleHOL
+ [[https://blog.clement.delafargue.name/posts/2018-12-27-a-tale-of-servant-clients.html][A tale of servant clients]]. ~ C. Delafargue. #Haskell
+ [[http://fixpt.de/blog/2018-12-30-strictness-analysis-part-2.html][All about strictness analysis (part 2)]]. ~ Sebastian Graf.
#Haskell
+ [[https://jappieklooster.nl/lens-into-wrapped-newtypes.html][Lens into wrapped newtypes]]. ~ Jappie Klooster. #Haskell
+ [[https://www.wjwh.eu/posts/2019-01-01-parsing-infinite-streams.html][Parsing infinite streams with attoparsec]]. ~ Wander Hillen. #Haskell
+ [[https://lin-techdet.blogspot.com/2018/12/type-annotations-vs-partial-type.html][Type annotations vs partial type signatures vs visible type
applications]]. ~ Alexey Radkov. #Haskell
+ [[https://cs.vu.nl/~jhl890/pub/hoelzl2011measuretheory.pdf][Three chapters of measure theory in Isabelle/HOL]]. ~ J. Hölzl,
A. Heller. #ITP #IsabelleHOL #Math
+ [[https://medium.com/@hgiasac/typeable-a-long-journey-to-type-safe-dynamic-type-representation-9070eac2cf8b][Typeable: A long journey to type-safe dynamic type representation]]. ~
Toan Nguyen. #Haskell
+ [[http://matryoshka.gforge.inria.fr/pubs/schlichtkrull_phd_thesis.pdf][Formalization of logic in the Isabelle proof assistant]]. ~
A. Schlichtkrull. #PhD_Thesis #ITP #IsabelleHOL #Logic
+ [[https://lean-forward.github.io/logical-verification/2018/index.html][Course: Logical verification (2018-2019)]]. ~ J. Blanchette et als. #ITP
#LeanProver
+ [[https://liquid.kosmikus.org][Liquid Haskell tutorial]]. ~ Andres Löh. #Haskell #LiquidHaskell
+ [[http://dld.bz/hmaAS][The QED Manifesto revisited]]. ~ Freek Wiedijk. #ITP
+ [[http://ftp.science.ru.nl/CSI/CompMath.Found/Barendregt-Wiedijk.pdf][The challenge of computer mathematics]]. ~ H. Barendregt, F. Wiedijk. #ITP
+ [[https://github.com/fsestini/zsyntax][Zsyntax: Automated theorem prover for a linear logic-based calculus
for molecular biology]]. ~ Filippo Sestini. #ATP #Logic #Haskell
+ [[https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0009511][Zsyntax: A formal language for molecular biology with projected
applications in text mining and biological prediction]]. ~ G. Boniolo,
M. D'Agostino, P.P. di Fiore. #ATP #Logic #Haskell
+ [[https://www.isa-afp.org/entries/Core_DOM.html][A formal model of the Document Object Model (DOM) in Isabelle/HOL]]. ~
A.D. Brucker, M, Herzberg. #ITP #IsabelleHOL
+ [[http://yudkowsky.net/assets/44/LobsTheorem.pdf][(The Cartoon Guide to) Lob's Theorem]]. ~ Eliezer Yudkowsky. #Logic
+ [[https://identicalsnowflake.github.io/Cantor.html][Cantor pairing]]. #Haskell #FunctionalProgramming #Math
+ [[https://mmhaskell.com/blog/2019/1/7/why-haskell-i-simple-data-types][Why Haskell I: Simple data types!]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://github.com/epogrebnyak/haskell-intro][Short overview of Haskell concepts]]. ~ E. Pogrebnyak et als. #Haskell
#FunctionalProgramming
+ [[https://www.nature.com/articles/d41586-019-00083-3][Machine learning leads mathematicians to unsolvable problem]]. ~
D. Castelvecchi. #AI #Math #MachineLearnig
+ [[https://www.nature.com/articles/d41586-019-00012-4][Unprovability comes to machine learning]]. ~ L. Reyzin #AI #Math
#MachineLearnig
+ [[http://cs.engr.uky.edu/~mirek/stuff/kr-2018-gm.pdf][Answer Set Programming (A story of default negation, definitions and
informal semantics) ]]. ~ M. Truszczynski #ASP #Logic #Programming #KR
+ [[https://taeer.bar-yam.me/blog/posts/hakyll-tikz/][Hakyll + TikZ]]. ~ Taeer Bar-Yam. #Haskell
+ [[https://haskell-at-work.com/episodes/2019-01-10-purely-functional-gtk-part-1-hello-world.html][Purely functional GTK+, Part 1: Hello World]]. ~ Oskar Wickström. #Haskell
+ [[https://k-bx.github.io/articles/Validating-Form-Data-via-Applicative-Functors.html][Validating form data via applicative functors]]. ~ Kostiantyn Rybnikov. #Haskell
+ [[https://www.isa-afp.org/entries/Store_Buffer_Reduction.html][A reduction theorem for store buffers]]. ~ E. Cohen, N. Schirmer. #ITP
#IsabelleHOL
+ [[https://project-archive.inf.ed.ac.uk/msc/20182958/msc_proj.pdf][HaskellQuest: a game for teaching functional programming in Haskell]]. ~
R. Fu. #Teaching #Haskell
+ [[http://www.joachim-breitner.de/blog/750-Teaching_to_read_Haskell][Teaching to read Haskell]]. ~ Joachim Breitner. #Haskell
+ [[http://haskell-for-readers.nomeata.de/][Haskell for readers]]. ~ Joachim Breitner. #Haskell
+ [[https://www.logicmatters.net/resources/pdfs/ProofSystems.pdf][Types of proof system]]. ~ Peter Smith. #Logic #ITP
+ [[https://www.aurelienalvarez.org/my-app/dist/assets/pdf/ALVAREZ_nombres-premiers-Euclide-Coq_Quadrature_2019.pdf][Nombres premiers, Euclide et Coq]]. ~ A. Alvarez. #ITP #Coq #Math
+ [[https://xenaproject.wordpress.com/2019/01/12/column-addition][Column addition]]. ~ Kevin Buzzard. #ITP #LeanProver #Math
+ [[https://medium.com/javascript-scene/the-forgotten-history-of-oop-88d71b9b2d9f][The forgotten history of OOP]]. ~ Eric Elliott. #Programming
#History
+ [[https://blog.po.et/building-the-verifiable-web-cb1b93a40b11][Building the verifiable Web]]. ~ Kevin Buzzard. #Blockchain
+ [[https://t.co/ENeTmK25iN][The compactness theorem and applications]]. ~ B. Call #Logic
+ [[http://cgi.csc.liv.ac.uk/~frank/MLHandbook/][Handbook of modal logic]]. ~ P. Blackburn, J. van Benthem, F. Wolter. #Logic
+ [[http://www.iiisci.org/Journal/CV$/sci/pdfs/MA079VM12.pdf][A comparison of functional and imperative programming techniques for
mathematical software development]]. ~ S. Frame, J.W. Coffey. #Haskell
#Cpp #Math
+ [[https://www.youtube.com/watch?v=ofUAlkYHFsI][HaskellRank 11: Treating lists as monads]]. ~ @tsoding. #Haskell #HaskellRank
+ [[https://mmhaskell.com/blog/2019/1/14/why-haskell-ii-sum-types][Why Haskell II: Sum types]]. ~ James Bowen. #Haskell #Java
#Python
+ [[https://jespercockx.github.io/popl19-tutorial/][Correct by construction programming in Agda]]. ~ Jesper Cockx.
#ITP #Agda
+ [[https://www.isa-afp.org/entries/Higher_Order_Terms.html][An algebra for higher-order terms in Isabelle/HOL]]. ~ Lars Hupel. #ITP
#IsabelleHOL
+ [[http://www.tpflug.me/2019/01/14/haskell-nix-vim][Haskell, Nix and Vim: Getting started]]. ~ Tobias Pflug. #Haskell #Nix #Vim
+ [[http://www.people.cs.uchicago.edu/~soare/History/handbook.pdf][The history and concept of computability]]. ~ Robert I. Soare. #CompSci
+ [[https://www.cis.upenn.edu/~llamp/pdf/urns.pdf][Ode on a random urn (Functional pearl)]]. ~ L. Lampropoulos, A. Spector-Zabusky,
K. Foner, #Haskell
+ [[https://denibertovic.com/posts/haskell-showroom-how-to-switch-between-kubernetes-clusters][Haskell Showroom: How to switch between multiple kubernetes clusters
and namespaces]]. ~ Deni Bertovic #Haskell
+ [[http://www.philipzucker.com/a-touch-of-topological-quantum-computation-in-haskell-pt-ii-automating-drudgery/][A touch of topological quantum computation in Haskell Pt. II:
Automating drudgery]]. ~ Philip Zucker. #Haskell
+ [[https://www.isa-afp.org/entries/IMP2.html][IMP2: Simple program verification in Isabelle/HOL]]. ~ Peter Lammich and
Simon Wimmer. #ITP #IsabelleHOL
+ [[https://hal.inria.fr/hal-01977585/document][Verifiable certificates for predicate subtyping]]. ~ F. Gilbert. #ITP #PVS
+ [[https://arxiv.org/abs/1901.03313][Mechanization of separation in generic extensions]]. ~ E- Gunther,
M. Pagano, P.S Terraf. #ITP #IsabelleHOL
+ [[https://www.pédrot.fr/articles/coqpl2019.pdf][Ltac2: Tactical warfare]]. ~ P.M. Pédrot. #ITP #Coq
+ [[https://www.xn--pdrot-bsa.fr/articles/thesis.pdf][A materialist dialectica]]. ~ P.M. Pédrot. #PhD_Thesis #Logic #CompSci
+ [[http://bit.ly/2RNTMGw][Löb and möb: strange loops in Haskell]]. ~ David Luposchainsky. #Haskell
+ [[http://neilmitchell.blogspot.com/2019/01/ignoring-hlint.html][Ignoring HLint (HLint now has more ways to ignore hints you don't
like)]]. ~ Neil Mitchell. #Haskell
+ [[https://doisinkidney.com/posts/2019-01-15-binomial-urn.html][A binomial urn]]. ~ Donnacha Oisín Kidney. #Haskell
+ [[https://jaspervdj.be/posts/2019-01-11-dynamic-graphs.html][Dynamic graphs: A Haskell library for the dynamic connectivity
problem]]. ~ Jasper Van der Jeugt. #Haskell
+ [[https://phaazon.net/blog/aoc-18-hindsight][Hindsight on Advent of Code 2018]]. ~ Dimitri Sabadie. #Haskell
+ [[https://lean-forward.github.io/][Lean Forward: Usable computer-checked proofs and computations for
number theorists]]. #ITP #LeanProver #Math
+ [[https://github.com/leanprover/mathlib][mathlib: Lean mathematical components library]]. #ITP #LeanProver #Math
+ [[https://lean-forward.github.io/lean-together/2019/slides/buzzard.pdf][Using Lean with undergraduate mathematicians]]. ~ Kevin Buzzard. #ITP
#LeanProver #Math
+ [[https://dl.acm.org/citation.cfm?id=3294093][Smooth manifolds and types to sets for linear algebra in Isabelle/HOL]].
~ F. Immler, B. Zhan. #ITP #IsabelleHOL #Math
+ [[https://elpais.com/elpais/2019/01/15/eps/1547557079_800501.html][Las mentes matemáticas mueven el mundo]]. ~ G. Abril. #Matemáticas
+ [[http://robertylewis.com/files/icms/WMFarmer-new-proof-style-icms-2018.pdf][A new style of mathematical proof]]. ~ William Farmer. #Logic #Math #ITP
+ [[https://avigad.github.io/formal_methods_in_education/][Resources for teaching with formal methods]]. ~ Jeremy Avigad. #Logic
#Math #CompSci #ITP
+ [[https://dl.acm.org/citation.cfm?id=3294104][Dynamic class initialization semantics: a Jinja extension]]. ~
S. Mansky, E.L. Gunter. #ITP #IsabelleHOL
+ [[http://www.cs.pomona.edu/~michael/courses/csci054s18/book/][Discrete Math in Coq]]. ~ B.C. Pierce et als. #ITP #Coq Math
+ [[http://www.cs.pomona.edu/~michael/papers/coqpl2019.pdf][Teaching discrete mathematics to early undergraduates with "Software
Foundations"]]. ~ M. Greenberg, J.C. Osborn. #ITP #Coq #Math
+ [[http://www.cs.pomona.edu/~michael/courses/csci054s18][Course: Discrete mathematics and functional programming]]. ~
M. Greenberg. #ITP #Coq #Math
+ [[https://dl.acm.org/citation.cfm?id=3294102][Formally verified big step semantics out of x86-64 binaries]]. ~
I. Roessle, F. Verbeek, B. Ravindran. #ITP #IsabelleHOL
+ [[http://tinselcity.net/pensando-en-programar][Pensando en programar]]. ~ Gonzalo García Braschi. #Programación
+ [[https://github.com/sjoerdvisscher/data-category][Data-category: a collection of categories, and some categorical constructions
on them]]. ~ Sjoerd Visscher. #Haskell
+ [[https://mmhaskell.com/blog/2019/1/21/why-haskell-iii-parametric-types][Why Haskell III: Parametric types]]. ~ James Bowen. #Haskell #Java
#Cpp #Python
+ [[https://www.isa-afp.org/entries/Farkas.html][Farkas' lemma and Motzkin's transposition theorem in Isabelle/HOL]]. ~
R. Bottesch, M.W. Haslbeck, R. Thiemann. #ITP #IsabelleHOL #Math
+ [[https://vanemden.wordpress.com/2018/07/21/dijkstra-and-logic/][A bridge too far: E.W. Dijkstra and logic]]. ~ Maarten van Emden. #Logic
+ [[https://www.isa-afp.org/entries/Auto2_Imperative_HOL.html][Verifying imperative programs using auto2]]. ~ B. Zhan. #ITP #IsabelleHOL
+ [[https://gupea.ub.gu.se/bitstream/2077/53339/1/gupea_2077_53339_1.pdf][Proof editor for natural deduction in first-order logic (The evaluation of an
educational aiding tool for students learning logic)]]. ~ E. Björnsson et
als. #Logic #Teaching #RA2018
+ [[https://arxiv.org/pdf/1901.06567.pdf][Tarski's relevance logic]]. R. D. Maddux. #Logic
+ [[https://www.tweag.io/posts/2019-01-23-jupyterlab-ihaskell.html][Towards interactive Data Science in Haskell: Haskell in JupyterLab]]. ~ Matthias
Meschede, Juan Simões. #Haskell
+ [[https://www.well-typed.com/blog/2019/01/qsm-in-depth][An in-depth look at quickcheck-state-machine]]. ~ Edsko de Vries. #Haskell
+ [[http://www.cs.ox.ac.uk/people/bernard.sufrin/personal/jape.org/OXFORDIFP/Jape/JapeForIFP.pdf][Using Jape for "Introduction to formal proof"]]. ~ Bernard Sufrin. #ITP #Jape
#Logic
+ [[https://www.sciencedirect.com/science/article/pii/S0890540104001804][Proving pointer programs in higher-order logic]]. ~ F. Mehta, T. Nipkow. #ITP
#IsabelleHOL
+ [[https://interstices.info/la-revolution-de-lapprentissage-profond/][La révolution de l’apprentissage profond]]. ~ Y. Bengio. #AI
+ [[https://vitez.me/haskell-error-reduction][A beginner’s guide to the ways Haskell helps us avoid errors]]. ~ Mitchell
Vitez. #Haskell
+ [[https://oisdk.github.io/agda-ring-solver/README.html][Solving rings in Aga]]. ~ Donnacha Oisín Kidney. #ITP #Agda #Math
+ [[https://arxiv.org/abs/1401.7694][Experience implementing a performant category-theory library in Coq]]. ~
J. Gross, A. Chlipala, D.I. Spivak. #ITP #Coq #CategoryTheory
+ [[https://owickstrom.github.io/domain-modelling-with-haskell-workshop/][Domain modelling with Haskell]]. ~ Oskar Wickström. #Haskell
+ [[https://www.datasciencecentral.com/profiles/blogs/r-python-julia-and-polyglot][R, Python, Julia ... and Polyglot]]. ~ Steve Miller. #Programming #Rstats
#Python #Julia #Jupyter
+ [[http://dropbox.com/s/joaq7m9v75blrw5/pl-notation-lambdaconf-2018.pdf?dl=1][Crash course on notation in programming language theory]]. ~ Jeremy
G. Siek. #CompSci
+ [[http://bit.ly/haskell-tt-fby][Haskell and type theory: better together]]. ~ V. Bragilevsky. #Haskell
#TypeTheory #LambdaCalculus
+ [[https://research-repository.st-andrews.ac.uk/bitstream/handle/10023/15729/Barwell_2017_FGCS_ParallelFunctionalPearls_AAM.pdf][Finding parallel functional pearls: Automatic parallel recursion scheme
detection in Haskell functions via anti-unification]]. ~ A.D. Barwell, C. Brown,
K. Hammond. #Haskell
+ [[http://www2.sf.ecei.tohoku.ac.jp/~kztk/papers/kztk_jfp_am_2018.pdf][Applicative bidirectional programming (Mixing lenses and semantic
bidirectionalization)]]. ~ K. Matsuda, M. Wang. #Haskell
+ [[http://www.philipzucker.com/bidirectional-applicative-programming-and-automatic-differentation][Applicative bidirectional programming and automatic differentiation]]. ~ Philip
Zucker. #Haskell
+ [[https://github.com/google/haskell-trainings][Haskell trainings at Google]]. #Haskell
+ [[http://bit.ly/2HCapB6][Haskell trainings at Google: 101]]. #Haskell
+ [[http://bit.ly/2HyDJIv][Haskell trainings at Google: 102]]. #Haskell
+ [[https://culturacientifica.com/2016/01/27/el-origen-de-los-signos-matematico][El origen de los signos matemáticos]]. ~ Raúl Ibáñez. #Matemáticas
+ [[https://mmhaskell.com/blog/2019/1/28/why-haskell-iv-typeclasses-vs-inheritanc][Why Haskell IV: Typeclasses vs. inheritance]]. ~ James Bowen.
#Haskell
+ [[https://www.sciencedirect.com/science/article/pii/016764239190036W/pdf?md5=b7dedd960214d9191929e6f41f5fd5be&pid=1-s2.0-016764239190036W-main.pdf][On the expressive power of programming languages]]. ~ M. Felleisen.
#FunctionalProgramming
+ [[https://web.stanford.edu/~kdevlin/Papers/DanesiChapter.pdf][How technology has changed what it means to think mathematically]]. ~
K. Devlin. #Math
+ [[http://bit.ly/2SiIPNe][A correct compiler from Mini-ML to a big-step machine verified using natural
semantics in Coq]]. ~ A. Zúniga, G. Bel-Enguix. #ITP #Coq
+ [[https://www.fpcomplete.com/blog/https/www.fpcomplete.com/blog/defining-exceptions-in-haskell][Defining exceptions in Haskell]]. ~ Chris Done. #Haskell
#FunctionalProgramming
+ [[https://www.um.edu.mt/library/oar/handle/123456789/38118][Combinatory logic: from philosophy and mathematics to computer science]]. ~
A. Farrugia. #Logic #Math #CompSci #FunctionalProgramming
+ [[https://rjlipton.wordpress.com/2019/01/29/primes-and-polynomials][Primes and polynomials]]. ~ R.J. Lipton, K.W. Regan. #Math
+ [[http://www.cl.cam.ac.uk/~na482/meta/lecture-notes.pdf][Metaprogramming lecture notes]]. ~ Nada Amin. #Programming #Scala #Lisp #Prolog
+ [[https://dkwise.wordpress.com/2019/01/18/fractals-and-monads][Fractals and monads in Haskell (Part 1)]]. ~ Derek Wise. #Haskell
+ [[https://dkwise.wordpress.com/2019/01/30/fractals-and-monads-part-2/][Fractals and monads in Haskell (Part 2)]]. ~ Derek Wise. #Haskell
** Febrero 2019
+ [[http://code.intef.es/inteligencia-artificial-en-el-aula-con-scratch-3-0][Inteligencia artificial en el aula con Scratch 3.0]]. #Enseñanza
#InteligenciaArtificial #Scratch
+ [[https://github.com/cohomolo-gy/haskell-resources][A list of foundational Haskell papers]]. ~ Emily Pillmore. #Haskell
#FunctionalProgramming
+ [[https://www.arcadianvisions.com/blog/2018/org-nix-direnv.html][Robust notes with embedded code]]. #Emacs #OrgMode
+ [[http://vmls-book.stanford.edu/vmls.pdf][Introduction to applied linear algebra]]. ~ S. Boyd, L. Vandenberghe. #Math
+ [[http://vmls-book.stanford.edu/vmls-julia-companion.pdf][Introduction to applied linear algebra (Julia language companion)]]. ~ S. Boyd,
L. Vandenberghe. #Math #Programming #JuliaLang
+ [[http://xion.io/post/programming/rust-into-haskell.html][Rust as a gateway drug to Haskell]]. ~ Karol Kuczmarski. #Programming
#Rust #Haskell
+ [[https://twitter.com/kena42][Rust for functional programmers]]. ~ Raphael ‘kena’ Poss. #Rust
#Haskell #OCaml #FunctionalProgramming
+ [[https://blog.jle.im/entry/tries-with-recursion-schemes.html][Visualizing prequel meme prefix tries with recursion schemes]]. ~ Justin
Le. #Haskell #FunctionalProgramming
+ [[https://coot.me/posts/categories-with-monadic-effects.html][Categories with monadic effects and state machines]]. ~ Marcin
Szamotulski. #Haskell #FunctionalProgramming
+ [[https://kbsg.rwth-aachen.de/~hofmann/papers/clips-exec-pddl.pdf][CLIPS-based execution for PDDL planners]]. ~ T. Niemueller, T. Hofmann,
G. Lakemeyer. #CLIPS
+ [[https://books.google.es/books?id=-UOCDwAAQBAJ&printsec=frontcover][Data Science with Julia]]. ~ P.D. McNicholas, P. Tait. #eBook #DataScience
#JuliaLang
+ [[https://tonyarcieri.com/rust-in-2019-security-maturity-stability][Rust in 2019: security, maturity, stability]]. ~ Tony Arcieri. #RustLang
+ [[https://www.maxwell.vrac.puc-rio.br/35851/35851.PDF][Formalização de algoritmos de criptografia em um assistente de provas
interativo]]. ~ Guilherme Gomes Felix da Silva. #ITP #LeanProver
+ [[https://arxiv.org/abs/1807.01456][A purely functional computer algebra system embedded in Haskell]]. ~ H. Ishii
#Haskell #FunctionalProgramming #CAS #Math
+ [[https://konn.github.io/computational-algebra][Computational algebra system in Haskell]]. ~ H. Ishii #Haskell
#FunctionalProgramming #CAS #Math
+ [[http://beautiful.ai/deck/-LVp7S8CDQAZdaT8hNhW/Intro-to-Julia][Introduction to Julia (the language of the future for AI and ML)]]. ~ Zhuo Jia
Dai. #JuliaLang
+ [[https://blog.acolyer.org/2019/01/25/programming-paradigms-for-dummies-what-every-programmer-should-know/][Programming paradigms for dummies: what every programmer should know]]. ~ Adrian
Colyer. #Programming
+ [[https://xuanji.appspot.com/isicp][Structure and interpretation of computer programs]]. (Interactive version). ~
Hal Abelson, Gerald Jay Sussman. ~ #CompSci
+ [[https://www.cs.uaf.edu/users/chappell/public_html/class/2018_spr/cs331/docs/types_primer.html][A primer on type systems]]. ~ Glenn G. Chappell. #Programming #Haskell #Cpp
#Python #Lua
+ [[https://arxiv.org/abs/1901.10220][On the impact of programming languages on code quality (A reproduction
study)]]. ~ E.D. Berger et als. #Programming
+ [[https://mountainscholar.org/bitstream/handle/10217/193082/Kessler_colostate_0053N_14914.pdf][Functional programming applied to computational algebra]]. ~
I.H. Kessler. #Msc_Thesis #Math #CategoryTheory #FunctionalProgramming #Scala
+ [[https://www.cs.utexas.edu/~vl/teaching/378/ASP.pdf][Answer Set Programming (Draft)]]. ~ V. Lifschitz. #DeclarativeProgramming #ASP
+ [[https://www21.in.tum.de/~eberlm/real_asymp.pdf][Verified real asymptotics in Isabelle/HOL]]. ~ M. Eberl. #ITP #IsabelleHOL
+ [[http://reduction.io/essays/rosetta-haskell.html][A Rosetta stone for Haskell abstractions]]. ~ Chas Leichner. #Haskell
#FunctionalProgramming
+ [[https://andre.tips/wmh/][Wise man's Haskell]]. ~ Andre Popovitch. #Haskell
#FunctionalProgramming
+ [[https://sras.me/haskell/miscellaneous-enlightenments.html][Learning Haskell (Miscellaneous enlightenments)]]. ~ Sandeep C.R. #Haskell
#FunctionalProgramming
+ [[https://books.google.es/books?id=dMJiDwAAQBAJ&printsec=frontcover][2062: The World that AI made]]. ~ Toby Walsh. #eBook #AI
+ [[https://blog.goodaudience.com/10-reasons-why-you-should-learn-julia-d786ac29c6ca][10 reasons why you should learn Julia]]. ~ Gabriel Gauci Maistre. #Programming
#JuliaLang
+ [[http://bogumilkaminski.pl/files/julia_express.pdf][The Julia express]]. ~ Bogumił Kamiński. #Programming #JuliaLang
+ [[https://goo.gl/scholar/CHqqCY][esverify: Verifying dynamically-typed higher-order functional programs by SMT
solving]]. ~ C. Schuster, S. Banerjea, C. Flanagan. #SMT #ITP #LeanProver
+ [[https://goo.gl/scholar/qymEhF][Formal analysis of language-based Android security using theorem proving
approach]]. ~ W. Khan et als. #ITP #Coq
+ [[https://mmhaskell.com/blog/2019/2/4/why-haskell-v-type-families][Why Haskell V: Type families]]. ~ James Bowen. #Haskell
+ [[http://www.pl-enthusiast.net/2019/02/04/what-is-pl-research-the-talk]["What is programming languages research?" The talk]]. ~ Michael Hicks. #PL
+ [[http://richardzach.org/2018/04/10/the-significance-of-philosophy-to-mathematics][The significance of Philosophy to Mathematics]]. ~ Richard Zach. #Philosophy
#Mathematics
+ [[https://books.google.es/books?id=wPhwJdjI-dIC&printsec=frontcover][Proof and other dilemmas: Mathematics and Philosophy]]. ~ B. Gold,
R.A. Simons. #Mathematics #Philosophy
+ [[https://yurichev.com/writings/SAT_SMT_by_example.pdf][SAT/SMT by example]]. ~ Dennis Yurichev. #SAT #SMT
+ [[https://arxiv.org/abs/1208.1368][Getting started with Isabelle/jEdit in 2018]]. ~ C. Sternagel. #ITP #IsabelleHOL
+ [[https://justinbarclay.me/posts/literate_programming_against_rest_apis][Literate programming against REST APIs]]. ~ Justin Barclay. #Emacs #OrgMode
+ [[https://www.williamjbowman.com/resources/wjb-dissertation.pdf][Compiling with dependent types]]. ~ W.J. Bowman. #PhD_Thesis
+ [[https://www.isa-afp.org/entries/UTP.html][Isabelle/UTP: Mechanised theory engineering for unifying theories of
programming]]. ~ S. Foster et als. #ITP #IsabelleHOL
+ [[https://kowainik.github.io/posts/2019-02-06-style-guide][Haskell style guide]]. ~ Kowainik. #Haskell
+ [[https://keyholesoftware.com/2019/01/30/running-your-life-with-emacs/][Running your life with Emacs]]. ~ Garrett Hopper #Emacs
+ [[https://hgiasac.github.io/posts/2019-01-04-Typeable---A-long-journey-to-Type-Safe-Dynamic-Type-Representations.html][Typeable: A long journey to type-safe dynamic type representation]]. ~ Toan
Nguyen. #Haskell
+ [[https://cvlad.info/curry-howard/][Curry-Howard correspondence example]]. ~ Vladimir Ciobanu. #Haskell
#Logic #Math #CategoryTheory
+ [[https://irreal.org/blog/?p=7824][Calc tutorial]]. #Emacs
+ [[https://nullprogram.com/blog/2009/06/23/][The Emacs calculator]]. ~ Chris Wellons. #Emacs
+ [[https://www.gnu.org/software/emacs/manual/calc.html][Calc: an advanced calculator and mathematical tool]]. #Emacs #Math
+ [[https://github.com/ahyatt/emacs-calc-tutorials][A series of tutorials about emacs-calc]]. ~ Andrew Hyatt #Emacs #Math
+ [[https://arxiv.org/abs/1902.00297][Signatures and induction principles for higher inductive-inductive types]]. ~
A. Kaposi, A. Kovács. #ITP #Agda #Haskell
+ [[https://jcheminf.biomedcentral.com/track/pdf/10.1186/s13321-019-0332-0][Chemoinformatics and structural bioinformatics in OCaml]]. ~ F- Berenger,
K.Y.J. Zhang, Y. Yamanishi. #OCaml #FunctionalProgramming
+ [[https://www.iro.umontreal.ca/~monnier/hopl-4-emacs-lisp.pdf][Evolution of Emacs Lisp]]. ~ S. Monnier, M. Sperber. #Emacs #Lisp
+ [[https://andreaspk.github.io/posts/2019-02-01-nub-benchmarks.html][Comparing nub implementations]]. ~ A. Klebinger. #Haskell
+ [[https://www.lavanguardia.com/tecnologia/20190209/46283380483/inteligencia-artificial-ia-kairos-darpa-pentagono.html][EE.UU crea un algoritmo que predice golpes de estado y crisis financieras]]. ~
A. Barbieri #AI
+ [[http://andrewcropper.com/pubs/jelia19-typed.pdf][Typed meta-interpretive learning of logic programs]]. ~ R: Morel, A. Cropper,
L. Ong. #Prolog #ML
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell_Vol4/releases/download/v1.0/Examenes_de_PF_con_Haskell_Vol4.pdf][Exámenes de programación funcional con Haskell. Vol. 4 (Curso 2012-13)]].
#Haskell #ProgramaciónFuncional
+ [[https://xenaproject.wordpress.com/2019/02/11/lean-in-latex][Lean in LaTeX]]. ~ Kevin Buzzard. #ITP #LeanProver
+ [[https://medium.com/@reinman/monads-for-dummies-3c3c0bbf95b6][AI automation of software (Demystifying functional programming and monads)]]. ~
@datacountry_ai. #FunctionalProgramming #CategoryTheory
+ [[https://arxiv.org/abs/1902.03218][Model checking applied to quantum physics]]. ~ J. Guan, Y. Feng, A. Turrini,
M. Ying. #ModelChecking
+ [[https://www.juliabloggers.com/bisecting-floating-point-numbers-3/][Bisecting floating point numbers in Julia]]. #JuliaLang #Math
+ [[https://medium.com/permutive/having-your-cake-and-eating-it-9f462bf3f908][Having your cake and eating it]]. ~ Tim Spence. #Haskell
+ [[http://gallium.inria.fr/blog/incremental-cycle-detection][Formal proof and analysis of an incremental cycle detection algorithm]]. ~
Armaël Guéneau. #ITP #Coq
+ [[https://vaibhavsagar.com/blog/2019/02/12/refactoring-haskell/][Refactoring Haskell: A case study]]. ~ Vaibhav Sagar. #Haskell
+ [[https://www.isa-afp.org/entries/Universal_Turing_Machine.html][Universal Turing Machine in Isabelle/HOL]]. ~ Jian Xu et als. #ITP #IsabelleHOL
+ [[https://codurance.com/2019/02/11/bank-kata-in-haskell-state/][Bank kata in Haskell - dealing with state]]. ~ Liam Griffin. #Haskell
#FunctionalProgramming
+ [[http://reasonablypolymorphic.com/blog/freer-monads/][Freer monads, more better programs]]. #Haskell #FunctionalProgramming
+ [[https://www.tweag.io/posts/2019-02-13-types-got-you.html][The types got you]]. ~ Mark Karpov. #Haskell #FunctionalProgramming
+ [[https://functional.works-hub.com/learn/afsm-arrowized-functional-state-machines-f0640][AFSM: Arrowized Functional State Machines]]. ~ Hanzhong Xu. #Haskell
#FunctionalProgramming
+ [[http://www.marktarver.com/bipolar.html][The bipolar Lisp programmer]]. ~ Mark Tarver. #Lisp #Programming
+ [[https://catonmat.net/proof-that-sed-is-turing-complete][A proof that Unix utility sed is Turing complete]]. ~ Peter
Krumins. #Programming
+ [[https://www.msoos.org/2019/02/sat-solvers-as-smart-search-engines/][SAT solvers as smart search engines]]. ~ Mate Soos. #SAT #Logic
+ [[http://www.msoos.org/wordpress/wp-content/uploads/2018/09/EMF-camp-SAT-and-SMT-solvers-final.pdf][Hacking using SAT and SMT solvers]]. ~ Mate Soos. #SAT #SMT #Logic
+ [[http://www.msoos.org/wordpress/wp-content/uploads/2010/11/soos_microsoft_pres.pdf][Using SAT solvers for cryptographic problems]]. ~ Mate Soos. #SAT
#SMT #Logic
+ [[https://www.comp.nus.edu.sg/~meel/Papers/aaai19-sm.pdf ][BIRD: Engineering an efficient CNF-XOR SAT Solver and its applications to
approximate model counting]]. ~ Mate Soos, Kuldeep S. Meel. #SAT
+ [[https://byorgey.wordpress.com/2019/02/13/finding-roots-of-polynomials-in-haskell/][Finding roots of polynomials in Haskell?]] ~ Brent Yorgey. #Haskell
+ [[https://www.isa-afp.org/entries/Probabilistic_Prime_Tests.html][Probabilistic primality testing in Isabelle/HOL]]. ~ D. Stüwe, M. Eberl. #ITP #IsabelleHOL #Math
+ [[https://lexi-lambda.github.io/blog/2018/02/10/an-opinionated-guide-to-haskell-in-2018/][An opinionated guide to Haskell in 2018]]. ~ Alexis King. #Haskell
+ [[http://mpickering.github.io/posts/2019-02-14-stage-3.html][A three-stage program you definitely want to write]]. ~ Matthew Pickering. #Haskell
+ [[https://www.vandenoever.info/blog/2015/07/12/translating-haskell-to-c++.html][Translating Haskell to C++ metaprogramming]]. ~ Jos van den Oever. #Haskell
#Cpp
+ [[https://dspace.library.uu.nl/bitstream/handle/1874/364837/3705269.pdf][Compiling an Haskell EDSL to C]]. ~ F. Dedden. #Haskell #Clang
+ [[https://alex-hhh.github.io/2019/02/racket-data-structures.html][An overview of common Racket data structures]]. ~ Alex Harsányi. #Racket
+ [[http://www.ii.uni.wroc.pl/~nivelle/publications/jlc2014.pdf][Theorem proving for classical logic with partial functions by reduction to
Kleene logic]]. ~ H. de Nivelle. #Logic
+ [[https://arxiv.org/abs/1407.4399][A constructive version of Tarski's geometry]]. ~ M. Beeson. #Logic #Math
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell_Vol5/raw/master/Libro/Examenes_de_PF_con_Haskell_Vol5.pdf ][Exámenes de programación funcional con Haskell. Vol. 5 (Curso 2013-14)]].
#Haskell #ProgramaciónFuncional
+ [[https://byorgey.wordpress.com/2019/02/16/worstsort/][Worstsort]]. ~ Brent Yorgey. #Haskell
+ [[https://www.theguardian.com/commentisfree/2019/feb/17/machines-not-our-masters-but-sinister-side-ai-demands-smart-response][Machines are not our masters – but the sinister side of AI demands a smart
response]]. ~ Will Hutton. #AI
+ [[https://hackage.haskell.org/package/heyting-algebras-0.0.2.0][Heyting and boolean algebras in Haskell]]. ~ Marcin Szamotulski. #Haskell #Math
+ [[http://winterland.me/2019/02/17/stdio-A-simple-and-high-performance-IO%20toolkit-for-Haskell/][stdio: A simple and high-performance IO toolkit for Haskell]]. #Haskell
+ [[http://dld.bz/hrGRD][Implementing the Davis–Putnam method]]. ~ H. Zhang, M.E. Stickel. #Logic #ATP
+ [[http://newartisans.com/2017/05/monads-are-monoids/][Monads are monoid objects]]. #Haskell #CategoryTheory
+ [[https://plato.stanford.edu/entries/set-theory-constructive/][Set theory: constructive and intuitionistic ZF]]. ~ Laura Crosilla. #Logic #Math
+ [[https://www.isa-afp.org/entries/Kruskal.html][Kruskal's algorithm for minimum spanning forest in Isabelle/HOL]]. ~
M.P.L. Haslbeck et als. #ITP #IsabelleHOL
+ [[https://www.repository.cam.ac.uk/bitstream/handle/1810/289389/thesis.pdf][Towards justifying computer algebra algorithms in Isabelle/HOL]]. ~ W. Li. #ITP
#IsabelleHOL #Math
+ [[https://reasonablypolymorphic.com/blog/too-fast-too-free/][Freer monads: too fast, too free]]. #Haskell
+ [[http://www.philipzucker.com/a-touch-of-topological-computation-3-categorical-interlude/][A touch of topological quantum computation 3: Categorical interlude]]. ~ Philip
Zucker. #Haskell #CategoryTheory
+ [[https://whatthefunctional.wordpress.com/2019/02/20/a-brief-introduction-to-the-%ce%bb-calculus-part-1][A brief introduction to the λ-calculus (part 1)]]. ~ Laurence
Emms. #LambdaCalculus
+ [[https://cacm.acm.org/news/234896-the-ai-that-can-write-fake-news-stories-from-handful-of-words/fulltext][The AI that can write fake news stories from handful of words]]. #AI
+ [[https://www.isa-afp.org/entries/List_Inversions.html][The inversions of a list in Isabelle/HOL]]. ~ M. Eberl. #ITP #IsabelleHOL
+ [[https://cvlad.info/quantifiers/][Quantifiers in Agda]]. ~ Vladimir Ciobanu. #ITP #Agda
+ [[https://whatthefunctional.wordpress.com/][A brief introduction to the λ-calculus (part 2)]]. ~ Laurence
Emms. #LambdaCalculus
+ [[https://www.isa-afp.org/entries/Prime_Distribution_Elementary.html][Elementary facts about the distribution of primes in Isabelle/HOL]]. ~
M. Eberl. #ITP #IsabelleHOL #Math
+ [[https://haskell-works.github.io/posts/2019-02-22-adding-bit-vectors-branchless-comparisons.html][Adding bit vectors - Branchless Comparisons]]. ~ John Ky. #Haskell
+ [[https://habr.com/en/post/441350/][Is Haskell really the language of geniuses and academia?]] #Haskell
+ [[https://coot.me/posts/monadic-io.html][Why monadic IO?]] ~ Marcin Szamotulski. #Haskell #FunctionalProgramming
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell_Vol6/raw/master/LibroE/xamenes_de_PF_con_Haskell_Vol6.pdf][Exámenes de programación funcional con Haskell]]. (Vol. 6: Curso 2014-15).
#Haskell #ProgramaciónFuncional
+ [[https://jfr.unibo.it/article/download/8751/8968][Commutativity theorems in groups with power-like maps]]. ~ R. Padmanabhan,
Y. Zhang. #ATP #Prover9 #Math
+ [[http://www.andrew.cmu.edu/user/avigad/Students/baek_ms_thesis.pdf][Reflected decision procedures in lean]]. ~ S. Baek. #PhD_Thesis #ITP #LeanProver
#Logic #Math
+ [[https://byorgey.wordpress.com/2019/02/24/whats-the-right-way-to-quickcheck-floating-point-routines/][What’s the right way to QuickCheck floating-point routines?]] ~ Brent
Yorgey. #Haskell
+ [[http://r6.ca/blog/20190223T161625Z.html][How can basic arithmetic make a self-referential sentence?]] ~ Russell
O’Connor. #Haskell #Logic #Math
+ [[https://victorcmiraldo.github.io/data/tyde2018_draft.pdf][Sums of products for mutually recursive datatypes (The appropriationist’s view
on generic programming)]]. ~ V.C. Miraldo, A. Serrano. #Haskell
#FunctionalProgramming
+ [[http://www.michael-noll.com/blog/2013/12/02/twitter-algebird-monoid-monad-for-large-scala-data-analytics/][Of Algebirds, monoids, monads, and other bestiary for large-scale data
analytics]]. ~ Michael G. Noll. #Scala #FunctionalProgramming
+ [[https://doisinkidney.com/posts/2019-02-25-agda-fingertrees.html][Finger trees in Agda]]. ~ Donnacha Oisín Kidney. #Agda
+ [[http://drops.dagstuhl.de/opus/volltexte/2019/10237/pdf/dagrep_v008_i008_p130_18341.pdf][Formalization of mathematics in type theory (Report from Dagstuhl Seminar
18341)]]. #ITP #Math
+ [[https://people.smp.uq.edu.au/YoniNazarathy/julia-stats/StatisticsWithJulia.pdf][Statistics with Julia: Fundamentals for Data Science, Machine Learning and
Artificial Intelligence]]. ~ H. Klok, Y. Nazarathy. #eBook #JuliaLang
#DataScience #MachineLearnig #AI
+ [[https://arxiv.org/abs/1902.08048][A complete axiomatisation of reversible Kleene lattices]]. ~ P. Brunet. #ITP
#Coq #Logic #Math
+ [[https://giordano.github.io/blog/2017-11-03-rock-paper-scissors][Rock–paper–scissors game in less than 10 lines of code]]. ~ Mosè
Giordano. #Programming #JuliaLang
+ [[https://towardsdatascience.com/all-your-matplotlib-questions-answered-420dd95cb4ff][Matplotlib guide for people in a hurry]]. ~ Julia Kho. #Python
+ [[https://www.fpcomplete.com/blog/quickcheck-hedgehog-validity][QuickCheck, Hedgehog, Validity]]. ~ Syd Kerckhove. #Haskell
+ [[http://entropiesschool.sciencesconf.org/data/How_to_Write_Mathematics.pdf][How to write mathematics]]. ~ Paul R. Halmos. #Math
+ [[http://www3.risc.jku.at/publications/download/risc_5895/main.pdf][Theorem and algorithm checking for courses on logic and formal methods]]. ~
W. Schreiner. #ITP #Logic #Teaching
+ [[https://www.tweag.io/posts/2019-02-28-jupyter-with.html][JupyterWith: Declarative, reproducible notebook environments]]. ~ J. Simões,
M. Meschede. #Programming #Jupyter
** Marzo 2019
+ [[https://coot.me/posts/monoidal-functors.html][Monoidal and applicative functors]]. ~ Marcin Szamotulski. #Haskell
#FunctionalProgramming
+ [[https://wickstrom.tech/programming/2019/03/02/property-based-testing-in-a-screencast-editor-introduction.html][Property-based testing in a screencast editor: Introduction]]. ~ Oskar
Wickström. #Haskell
+ [[https://jaspervdj.be/posts/2019-02-27-beeraffe.html][Beeraffe: A silly game in PureScript]]. ~ Jasper Van der Jeugt. #PureScript
+ [[https://blog.sumtypeofway.com/recursion-schemes-part-6-comonads-composition-and-generality/][Recursion schemes, part VI: Comonads, composition, and generality]]. ~ Patrick
Thomson. #Haskell
+ [[https://beautifulracket.com][Beautiful Racket (an introduction to language oriented programming using
Racket)]]. ~ Matthew Butterick. #Racket #Programming
+ [[http://www.cs.cornell.edu/courses/cs3110/2019sp/textbook/][Functional programming in OCaml]]. ~ Michael R. Clarkson. #eBook #OCaml
#FunctionalProgramming
+ [[https://ro-che.info/articles/2019-03-02-lazy-validation-applicative][Lazy validation]]. ~ Roman Cheplyaka. #Haskell
+ [[https://defungames.com/2019/02/the-basics-of-game-programming-in-common-lisp/][The basics of game programming in Common Lisp]]. ~ Mauricio
Fernandez. #CommonLisp
+ [[https://cleytonfar.github.io/posts/using-julia-for-data-science-part-02/][Using Julia for Data Science (Part 02)]]. ~ Cleyton Farias. #JuliaLang
#DataScience
+ [[https://interstices.info/pourquoi-creer-des-nouveaux-langages-de-programmation/ ][Pourquoi créer des nouveaux langages de programmation?]] ~ Ludovic
Henrio. #Programmation
+ [[https://towardsdatascience.com/all-your-matplotlib-questions-answered-420dd95cb4ff][Matplotlib guide for people in a hurry]]. ~ Julia Kho. #Python #Matplotlib
+ [[https://github.com/snowleopard/selective][Selective applicative functors: declare your effects statically, select which
to execute dynamically]]. ~ A. Mokhov. #Haskell
+ [[https://juliendehos.gitlab.io/lillefp-2019-isomorphic][Isomorphic web apps in Haskell]]. ~ Julien Dehos. #Haskell
+ [[http://julien.dehos.free.fr/build/html/PFW/index.html][Programmation fonctionnelle pour le web]]. ~ Julien Dehos. #Haskell
+ [[http://julien.dehos.free.fr/build/html/PF/nn42h.html][Neural network in 42 lines of Haskell]]. ~ Julien Dehos. #Haskell
+ [[https://mmhaskell.com/blog/2019/3/4/shareable-haskell-with-jupyter][Shareable Haskell with Jupyter!]] ~ James Bowen. #Haskell #Jupyter
+ [[https://arxiv.org/abs/1902.10971][Infinite types, infinite data, infinite interaction]]. ~ P. Hyvernat. #ITP #Agda
+ [[https://arxiv.org/abs/1902.10809][Means compatible with semigroup laws]]. ~ R. Padmanabhan, A. Shukla. #ATP
#Prover9 #Math
+ [[https://introtcs.org/public/index.html][Introduction to theoretical computer science]]. ~ Boaz Barak. #eBook #CompSci
+ [[https://arxiv.org/abs/1903.00686][DimDraw: A novel tool for drawing concept lattices]]. ~ D. Dürrschnabel,
T. Hanika, G. Stumme. #AFC
+ [[http://www.eelis.net/research/math-classes/mscs.pdf][Type classes for mathematics in type theory]]. ~ B. Spitters, E. van der
Weegen. #ITP #Coq #Math
+ [[https://github.com/uds-psl/coq-library-undecidability][A library of formalised undecidable problems in Coq]]. ~ Dominique
Larchey-Wendling et als. #ITP #Coq
+ [[https://arxiv.org/abs/1903.02539][GRUNGE: A grand unified ATP challenge]]. ~ C.E. Brown, T. Gauthier, C. Kaliszyk,
G. Sutcliffe, J. Urban. #ATP
+ [[https://youtu.be/p-t73EGlCMs][The state of Haskell in Ethereum]]. ~ Martin Allen. #Haskell
+ [[https://medium.com/@josh_40272/why-i-use-julia-8eb47216880e][Why I use Julia. (Come for the speed. Stay for the productivity)]]. ~ Josh Day
#LuliaLang
+ [[https://softwareengineering.stackexchange.com/questions/279316/what-exactly-makes-the-haskell-type-system-so-revered-vs-say-java/279362#279362?newreg=cc0182f2943f417aa828e40270d43fe7][What exactly makes the Haskell type system so revered (vs say, Java)?]] #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1801.07528][Computer-assisted proving of combinatorial conjectures over finite domains: A
case study of a chess conjecture]]. ~ P. Janičić, F. Marić, M. Maliković. #ITP
#IsabelleHOL #ATP #SAT #SMT
+ [[https://arxiv.org/abs/1903.01237][Dijkstra monads for all]]. ~ K. Maillard et als. #ITP #Coq
+ [[https://guide.aelve.com/haskell/stack-cookbook-ai0adh03][Stack cookbook]]. #Haskell #Stack
+ [[http://jpmoresmau.blogspot.com/2019/03/rust-for-linear-algebra-and-neural.html][Rust for linear algebra and neural networks]]. ~ J.P. Moresmau. #RustLang #AI
#MachineLearnig #Math
+ [[https://ilyasergey.wordpress.com/2015/12/27/on-lamports-critique-of-compositional-reasoning/][On Lamport’s critique of compositional reasoning]]. ~ Ilya Sergey. #Programming
+ [[https://blog.sicara.com/jupyter-notebook-analysis-production-b2d585204520][Why Jupyter is not my ideal notebook]]. ~ Clément Walter. #Jupyter
+ [[https://coot.me/posts/free-monads.html][From free algebras to free monads]]. ~ Marcin Szamotulski. #Haskell
#CategoryTheory
+ [[http://www.tac.mta.ca/tac/reprints/articles/22/tr22.pdf][Category theory for computing science]]. ~ M. Barr, C. Wells. #eBook
#CategoryTheory
+ [[http://forum.ulisp.com/t/what-are-the-advantages-disadvantages-of-ulisp-vs-c-c/313][What are the advantages/disadvantages of uLisp vs C/C++?]] #Programming #Lisp
#Cpp
+ [[https://blog.ploeh.dk/2019/03/11/an-example-of-state-based-testing-in-haskell][An example of state-based testing in Haskell]]. ~ Mark Seemann. #Haskell
+ [[https://aperiodical.com/2019/03/33-can-be-written-as-the-sum-of-three-cubes][33 can be written as the sum of three cubes]]. ~ Peter Rowlett. #Math #CompSci
+ [[http://www.logicmatters.net/igt/godel-without-tears/][Gödel without (too many) tears]]. ~ Peter Smith. #Logic
+ [[https://cacm.acm.org/news/235358-ai-efforts-at-large-companies-may-be-hindered-by-poor-quality-data/fulltext][AI efforts at large companies may be hindered by poor quality data]]. #AI
+ [[https://arxiv.org/abs/1802.03685][Learning a SAT solver from single-bit supervision]]. ~ D. Selsam et als. #SAT
#Logic #MachineLearnig
+ [[https://arxiv.org/abs/1903.05175][On constructive-deductive method for plane euclidean geometry]]. ~
E.V. Ivashkevich. #ITP #Coq #Math
+ [[https://chrisdone.com/posts/data-typeable][Typeable and Data in Haskell]]. ~ Chris Done. #Haskell #FunctionalProgramming
+ [[https://briansteffens.github.io/2017/02/20/from-math-to-machine.html][From math to machine: translating a function to machine code]]. ~ Brian
Steffens #Haskell #Math
+ [[https://bor0.wordpress.com/2019/03/15/writing-a-simple-evaluator-and-type-checker-in-haskell][Writing a simple evaluator and type-checker in Haskell]]. ~ Boro
Sitnikovski. #Haskell
+ [[https://medium.com/@vindarel/these-years-in-common-lisp-2018-1d6b9084920d][These years in Common Lisp: 2018]]. ~ Vince Zd #CommonLisp
+ [[https://ryanglscott.github.io/2019/03/15/visible-dependent-quantification-in-haskell/][Visible dependent quantification in Haskell]]. ~ Ryan Scott. #Haskell
+ [[https://unsafeperform.io/talks/2019-03-sit-applicative-cooking/Applicative_Cooking.pdf][Cooking a Haskell curry with applicative functors]]. ~ G. Érdi. #Haskell
+ [[http://www.lsv.fr/~dowek/Publi/logipedia.pdf][Logipedia: a multi-system encyclopedia of formal proofs]]. ~ G. Dowek,
F. Thiré. #ITP #Logic #Math #Dedukti #Coq #Matita #HOL_Light #PVS #LeanProver
+ [[https://pastel.archives-ouvertes.fr/tel-01235303v4/document][A framework for defining computational higher-order logics]]. ~
A. Assaf. #PhD_Thesis #ITP #Logic #Math #Dedukti
+ [[https://www21.in.tum.de/~eberlm/ant.pdf][Nine chapters of analytic number theory in Isabelle/HOL]]. ~ M. Eberl. #ITP
#IsabelleHOL #Math
+ [[http://www.cs.nott.ac.uk/~psxmah/liquidate.pdf][Liquidate your assets (Reasoning about resource usage in Liquid Haskell)]]. ~
M. Handley, N. Vazou, G. Hutton. #Haskell
+ [[https://arxiv.org/abs/1901.04773][Machine learning and the Continuum Hypothesis]]. ~ K.P. Hart. #MachineLearnig
#SetTheory
+ [[https://mmhaskell.com/blog/2019/3/4/extending-haskells-syntax][Extending Haskell's syntax!]] ~ James Bowen. #Haskell #FunctionalProgramming
+ [[https://blaxill.org/posts/compdata-trees-and-catamorphisms][Compdata trees and catamorphisms]]. ~ Ben Blaxill. #Haskell
#FunctionalProgramming
+ [[https://plus.maths.org/content/pure-maths-crisis][Pure maths in crisis?]] ~ M. Freiberger. #Math #ITP #IsabelleHOL #LeanProver
+ [[https://bor0.wordpress.com/2019/03/19/writing-a-lambda-calculus-evaluator-in-haskell][Writing a lambda calculus evaluator in Haskell]]. ~ B. Sitnikovski. #Haskell
#FunctionalProgramming #LambdaCalculus
+ [[http://oatao.univ-toulouse.fr/22971/1/Vasseur_22971.pdf][Map/Reduce operations for scientific computing in Julia]]. ~
X. Vasseur. #JuliaLang
+ [[https://www.cs.bham.ac.uk/~mhe/HoTT-UF-in-Agda-Lecture-Notes/index.html][Introduction to Univalent Foundations of Mathematics with Agda]]. ~ Martín
Hötzel Escardó. #ITP #Agda #math #HoTT
+ [[http://www.mi.fu-berlin.de/inf/groups/ag-ki/publications/proof/what-is-a-proof.pdf][What is a proof? What should it be?]] ~ C. Benzmüller. #Logic #Math #ITP #ATP
+ [[https://arxiv.org/abs/1808.07771][FMS: Functional programming as a modelling language]]. ~ I. Dasseville,
G. Janssens. #FunctionalProgramming #ASP
+ [[https://tech.io/playgrounds/12240/functional-modelling-system][FMS (Functional Modelling System) tutorial]]. ~ I. Dasseville.
#FunctionalProgramming #ASP
+ [[https://doisinkidney.com/posts/2019-03-21-binary-logic-search.html][Lazy binary numbers]]. ~ Donnacha Oisín Kidney. #Haskell #Agda
+ [[https://dkwise.wordpress.com/2019/02/19/fractals-and-monads-part-3/][Fractals and monads (Part 3)]]. ~ Derek Wise. #Haskell #Math
+ [[https://samtay.github.io/articles/deriving-via.html][A small use case for Deriving Via]]. ~ Sam Tay. #Haskell
+ [[https://blogs.scientificamerican.com/cross-check/okay-maybe-proofs-arent-dying-after-all/][Okay, maybe proofs aren't dying after all]]. ~ J. Horgan. #Math
+ [[https://medium.com/@stephenebly/an-introduction-to-existential-types-25c130ba61a4][An introduction to existential types]]. ~ S. Bly. #FunctionalProgramming
+ [[https://arxiv.org/abs/1903.07616][A constructive proof of dependent choice in classical arithmetic via
memoization]]. ~ É. Miquey. #ITP #Coq
+ [[https://arxiv.org/abs/1903.06758][Algorithms for verifying deep neural networks]]. ~ C. Liu, T. Arnon, C. Lazarus,
C. Barrett, M.J. Kochenderfer. #JuliaLang #NeuralNetworks
+ [[https://books.google.es/books?id=d6t-DwAAQBAJ&printsec=frontcover#v=onepage&q&f=false][Introduction to Python for science and engineering]]. ~ D.J. Pine. #eBook
#Programming #Python
+ [[https://mally.stanford.edu/Papers/cs-metaphysics.pdf][Computer science and metaphysics: a cross-fertilization]]. ~ D. Kirchner,
C. Benzmüller, E.N. Zalta. #ITP #IsabelleHOL
+ [[https://doisinkidney.com/posts/2019-03-24-permutations-by-sorting.html][Permutations by sorting]]. ~ Donnacha Oisín Kidney. #Haskell
#FunctionalProgramming
+ [[https://jproyo.github.io/posts/2019-03-17-tagless-final-haskell.html][Tagless final encoding in Haskell]]. ~ J.P. Royo. #Haskell
#FunctionalProgramming
+ [[https://www.isa-afp.org/entries/QHLProver.html][Quantum Hoare logic in Isabelle/HOL]]. ~ J. Liu et als. #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1903.09475][Using SMT solvers to validate models for AI problems]]. ~ A. Arusoaie,
I. Pistol. #ATP #SMT #AI
+ [[https://www.sciencedirect.com/science/article/pii/S235234091930174X][Universal (meta-) logical reasoning: The wise men puzzle (Isabelle/HOL dataset)]].
~ C. Benzmüller. #ITP #IsabelleHOL #Logic
+ [[https://cs.uwaterloo.ca/~cbright/reports/projplane.pdf][A verifiable search for projective planes of order ten]]. ~ C. Bright. #ATP #SAT
#Math
+ [[https://cs.uwaterloo.ca/~cbright/reports/sat.pdf][The SAT+CAS method for combinatorial search with applications to best matrices]].
~ C. Bright et als. #ATP #SAT #CAS #Math
+ [[https://chshersh.github.io/posts/2019-03-25-comonadic-builders][Comonadic builders]]. ~ Dmitrii Kovanikov. #Haskell
#FunctionalProgramming
+ [[https://medium.com/@stackdoesnotwork/the-minimalist-prelude-3e187bc834fc][The minimalist Prelude ... or why can’t Haskell be more like Purescript?]]
#Haskell #FunctionalProgramming
+ [[https://doisinkidney.com/posts/2019-02-25-agda-fingertrees.html][Finger trees in Agda]]. ~ Donnacha Oisín Kidney. #Agda
+ [[https://bartoszmilewski.com/2019/03/27/promonads-arrows-and-einstein-notation-for-profunctors/][Promonads, arrows, and Einstein notation for profunctors]]. ~ Bartosz
Milewski. #Haskel #CategoryTheory
+ [[https://www.isa-afp.org/entries/Transcendence_Series_Hancl_Rucki.html][The transcendence of certain infinite series in Isabelle/HOL]]. ~ A,
Koutsoukou-Argyraki, W. Li. #ITP #IsabelleHOL #Math
+ [[https://www.irif.fr/~kerjean/TYPES19.pdf][A formal, classical proof of the Hahn-Banach theorem]]. ~ M. Kerjean,
A. Mahboubi. #ITP #Coq #Math
+ [[https://cs.brynmawr.edu/~rae/papers/2019/partialdata/partialdata.pdf][Partial type constructors (extended version)]]. ~ M.P. Jones et als. #Haskell
#FunctionalProgramming
+ [[http://icla2019.cse.iitd.ac.in/slides/5th%20March-19/4-Abhishek_Kr_Singh.pdf][Towards a constructive formalization of Perfect Graph Theorems (Slides)]]]. ~
A.K. Singh. R. Natarajan. #ITP #Coq #Math
+ [[https://arxiv.org/abs/1812.11108][Towards a constructive formalization of Perfect Graph Theorems]]. ~
A.K. Singh. R. Natarajan. #ITP #Coq #Math
** Abril 2019
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?thedu18.1.pdf][Students’ Proof Assistant (SPA)]]. ~ Anders Schlichtkrull, Jørgen Villadsen,
Andreas Halkjær From. #Logic #IsabelleHOL
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?thedu18.3.pdf][Towards ranking geometric automated theorem provers]]. ~ N. Baeta,
P. Quaresma. #ATP #Math
+ [[https://arxiv.org/abs/1803.01466v1][Learning how to prove: From the Coq proof assistant to textbook style]]. ~
S. Böhne, C. Kreitz. #Teaching #Logic #ITP #Coq
+ [[https://mmhaskell.com/blog/2019/4/1/building-a-bigger-world][Building a bigger World]]. James Bowen. #Haskell #FunctionalProgramming
+ [[https://macsphere.mcmaster.ca/bitstream/11375/12315/1/fulltext.pdf][A history of the theory of types]]. ~ J. Collins. #Logic #History
+ [[https://sigma.software/about/media/pillars-functional-programming-part-1][The pillars of functional programming (part 1)]]. N. Mozgovoy.
#FunctionalProgramming
+ [[https://github.com/chrisdone/dynamic][Dynamic typing in Haskell]]. ~ Chris Done. #Haskell
#FunctionalProgramming
+ [[https://github.com/EugeneLoy/coq_jupyter][Jupyter kernel for Coq]]. ~ Eugene Loy. #ITP #Coq #Jupyter
+ [[https://www.logicmatters.net/2019/04/02/ifl2-chapters-on-propositional-natural-deduction-again/][IFL2: Chapters on propositional natural deduction, again]]. ~ Peter
Smith. #Logic
+ [[https://arxiv.org/abs/1904.00620][Theorem and algorithm checking for courses on logic and formal methods]]. ~
W. Schreiner. #Logic #RISCAL
+ [[https://www.karlin.mff.cuni.cz/~krajicek/prf2.pdf][Proof complexity]]. ~ Jan Krajicek. #Book #Logic
+ [[https://lars.hupel.info/pub/phd-thesis_hupel.pdf][Verified code generation from Isabelle/HOL]]. ~ L. Hupel. #PhD_Thesis #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1711.00113v4][Proving soundness of extensional normal-form bisimilarities]]. ~ P. Polesiuk, S
Lenglet, D. Biernacki. #ITP #Coq
+ [[https://arxiv.org/abs/1904.01677][Hammering Mizar by learning clause guidance]]. ~ J. Jakubův, J. Urban. #ITP
#Mizar #MachineLearnig
+ [[http://garden.irmacs.sfu.ca/][The Open Problem Garden: a collection of unsolved problems in mathematics]].
#Math
+ [[https://duplode.github.io/posts/idempotent-applicatives-parametricity-and-a-puzzle.html][Idempotent applicatives, parametricity, and a puzzle]]. ~ D. Mlot. #Haskell
#FunctionalProgramming
+ [[http://www.philipzucker.com/proving-addition-is-commutative-in-haskell-using-singletons/][Proving addition is commutative in Haskell using singletons]]. ~ Philip
Zucker. #Haskell #FunctionalProgramming
+ [[http://idontgetoutmuch.org/singleday.htm][Data Science in Haskell: An example using temperature data from Thailand and
Myanmar]]. ~ Dominic Steinitz. #Haskell
#FunctionalProgramming #DataScience
+ [[https://jozefg.bitbucket.io/posts/2015-03-24-pcf.html][A tiny compiler for a typed higher order language]]. ~ Danny Gratzer. #Haskell
#FunctionalProgramming
+ [[https://vaibhavsagar.com/blog/2017/05/29/imperative-haskell/][Imperative Haskell]]. ~ Vaibhav Sagar. #Haskell #FunctionalProgramming
+ [[https://leanpub.com/fpmortals-es/read][Programación funcional para mortales con Scalaz]]. ~ S. Halliday,
O. Vargas. #Scalaz #ProgramaciónFuncional
+ [[https://arxiv.org/abs/1904.01557][Analysing mathematical reasoning abilities of neural models]]. ~ D. Saxton,
E. Grefenstette, F. Hill, P. Kohli. #MachineLearnig
+ [[https://github.com/jaalonso/Exercitium2018/raw/master/texto/Exercitium2018.pdf][Libro de soluciones de problemas de programación funcional con Haskell
propuestos en Exercitum (versión del 6-abr-19)]]. #Haskell #Exercitium
+ [[https://dimjasevic.net/marko/2019/02/09/isomorphism-and-embedding/][Isomorphism and embedding]]. ~ Marko Dimjašević. #ITP #Agda #Math
+ [[https://www.dataschool.io/cloud-services-for-jupyter-notebook][Six easy ways to run your Jupyter Notebook in the cloud]]. #Jupyter
+ [[https://blog.statebox.org/fun-with-functors-95e4e8d60d87][Fun with functors]]. ~ Marco Perone. #FunctionalProgramming
#CategoryTheory
+ [[https://www.cl.cam.ac.uk/~lp15/papers/Notes/Founds-FP.pdf][Foundations of functional programming]]. ~ L.C Paulson. #FunctionalProgramming
#LambdaCalculus
+ [[https://www.cl.cam.ac.uk/teaching/1213/DiscMathII/DiscMathII.pdf][Set theory for Computer Science]]. ~ G. Winskel. #Logic #Math
+ [[https://www.cl.cam.ac.uk/teaching/1819/DataSci/notes0.pdf][Foundations of Data Science]]. ~ D. Wischik. #DataScience
+ [[https://www.cl.cam.ac.uk/teaching/1819/Types/handout.pdf][Type systems]]. ~ N. Krishnaswami. #TypeTheory
+ [[https://chrisdone.com/posts/web-engines][Web engines in Haskell]]. ~ Chris Done. #Haskell
#FunctionalProgramming
+ [[https://github.com/chrisdone/vado][Vado: A demo web browser engine written in Haskell]]. ~ Chris Done. #Haskell
#FunctionalProgramming
+ [[https://medium.com/cantors-paradise/the-nature-of-infinity-and-beyond-a05c146df02c][The nature of infinity and beyond (An introduction to Georg Cantor and his
transfinite paradise)]]. ~ Jørgen Veisdal. #Logic #Math
+ [[https://medium.com/cantors-paradise/the-riemann-hypothesis-explained-fa01c1f75d3f][The Riemann Hypothesis, explained]]. ~ Jørgen Veisdal. #Math
+ [[https://arxiv.org/abs/1802.08437][Abstract completion, formalized]]. ~ N. Hirokawa, A. Middeldorp, C. Sternagel,
S. Winkler. #ITP #IsabelleHOL
+ [[http://publications.lib.chalmers.se/records/fulltext/255039/255039.pdf][On initial categories with families (Formalization of unityped and simply
typed CwFs in Agda)]]. ~ K. Brilakis. #Msc_Thesis #ITP #Agda
+ [[https://jashug.github.io/papers/ConstructingII.pdf][Constructing inductive-inductive types in cubical type theory]]. ~
J. Hugunin. #ITP #Agda #Coq
+ [[https://medium.com/@samuel.fare/what-making-a-cup-of-tea-taught-me-about-functional-programming-a09909679924][What making a cup of tea taught me about functional programming]]. Sam
Fare. #FunctionalProgramming
+ [[https://www.jstage.jst.go.jp/article/kantogakueneconomics/45/0/45_40/_pdf][Programming prospect theory in Prolog]]. ~ I. Kenryo. #Prolog #LogicProgramming
+ [[https://mmhaskell.com/blog/2019/4/8/generating-more-difficult-mazes][Generating more difficult mazes!]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://www.techiediaries.com/julia-data-science-tutorial-dataframe-csv/][Julia Data Science Tutorial: Working with DataFrames and CSV]]. #JuliaLang
#DataScience
+ [[https://www.isa-afp.org/entries/Binding_Syntax_Theory.html][A general theory of syntax with bindings in Isabelle/HOL]]. ~ L. Gheri. #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1904.03241][HOList: An environment for machine learning of higher-order theorem proving
(extended version)]]. ~ K. Bansal et als. #ITP #HOL_Light #MachineLearnig
+ [[https://blog.monic.co/a-gentle-introduction-to-symbolic-execution/][A gentle introduction to symbolic execution]]. ~ B. Schroeder,
J. Burget. #Haskell #SMT
+ [[https://blog.stephenwolfram.com/2018/11/logic-explainability-and-the-future-of-understanding/][Logic, explainability and the future of understanding]]. ~ S. Wolfram. #Logic
+ [[https://blog.jle.im/entry/free-alternative-regexp.html][Applicative regular expressions using the free alternative]]. ~ Justin
Le. #Haskell #FunctionalProgramming
+ [[https://cosmius.bitbucket.io/tkhe][To kata haskellen evangelion (Learn Haskell the easy way)]]. ~ Cosmia Fu. #eBook
#Haskell #FunctionalProgramming
+ [[https://hal.archives-ouvertes.fr/hal-02086931/document][Short proof of Menger's Theorem in Coq (Proof Pearl)]]. ~ C. Doczkal. #ITP #Coq
#Math
+ [[https://arxiv.org/abs/1904.01677][Hammering Mizar by learning clause guidance]]. ~ J. Jakubův, J. Urban. #ATP
#Mizar #MachineLearnig
+ [[https://hal.inria.fr/hal-02088293/document][Quantitative continuity and computable analysis in Coq]]. ~ F. Steinberg,
L. Thery, H. Thies. #ITP #Coq #Math
+ [[https://jaredcorduan.github.io/posts/2019-04-10--rubik-group.html][The Rubik's cube group]]. ~ Jared Corduan. #Haskell #FunctionalProgramming
#Math
+ [[https://dimjasevic.net/marko/2019/04/08/become-a-better-haskeller-by-learning-about-inductive-types/][Become a better haskeller by learning about inductive types]]. ~ Marko
Dimjašević. #Haskell #FunctionalProgramming
+ [[https://hplgit.github.io/primer.html/doc/pub/half/book.pdf][A primer on scientific programming with Python]]. ~ Hans Petter
Langtangen. #eBook #Python #Programming
+ [[https://www.southampton.ac.uk/~fangohr/training/python/pdfs/Python-for-Computational-Science-and-Engineering.pdf][Introduction to Python for computational science and engineering (A beginner’s
guide)]]. ~ Hans Fangohr. #eBook #Python #Programming
+ [[https://www.reddit.com/r/lisp/comments/bc83zt/lisp_used_to_generate_rhythms_for_a_contemporary][Lisp used to generate rhythms for a contemporary string trio]]. #Lisp
#Programming #Music
+ [[https://www.ashwinnarayan.com/post/learning-haskell-google-code-jam/][Learning Haskell through Google Code Jam]]. ~ Ashwin Narayan. #Haskell
#FunctionalProgramming
+ [[https://medium.com/@cdsmithus/new-in-codeworld-share-a-folder-as-a-gallery-bd1b17d36f19][New in CodeWorld: Share a folder as a gallery]]. ~ Chris Smith. #CodeWorld
#Haskell
+ [[https://williamyaoh.com/posts/2019-04-11-cheatsheet-to-regexes-in-haskell.html][A cheatsheet to regexes in Haskell]]. ~ William Yao. #Haskell
+ [[https://arxiv.org/abs/1807.08058][Learning heuristics for automated reasoning through deep reinforcement
learning]]. ~ G. Lederman et als. #ATP #DeepLearning
+ [[http://ltvanbinsbergen.nl/thesis/thesis.pdf][Executable formal specification of programming languages with reusable
components]]. ~ L.T. van Binsbergen. #PhD_Thesis #Haskell #FunctionalProgramming
+ [[https://arxiv.org/abs/1802.06221][A new foundational crisis in mathematics, is it really happening?]] ~
M. Džamonja. #Logic #Math #HoTT
+ [[https://mmhaskell.com/blog/2019/4/15/declaring-victory-and-starting-again][Declaring victory! (and starting again!)]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://medium.com/@avik.das/a-graphical-introduction-to-dynamic-programming-2e981fa7ca2?sk=37cd14642cf1a83eb0bb33d231442837][A graphical introduction to dynamic programming]]. ~ Avik Das. #Algorithms
#Programming #Python
+ [[https://codingnest.com/modern-sat-solvers-fast-neat-and-underused-part-3-of-n][Modern SAT solvers: fast, neat and underused (part 3 of N)]]. ~
M. Hořeňovský. #Logic #SAT
+ [[https://github.com/wilfredinni/python-cheatsheet][Basic Cheat Sheet for Python (PDF, Markdown and Jupyter Notebook)]]. ~ Carlos
Montecinos Geisse. #Python #Programming
+ [[https://www.technolush.com/blog/evolution-of-programming-languages][Evolution of programming languages]]. #Programming
+ [[https://doisinkidney.com/posts/2019-04-17-cubical-probability.html][Cubical Agda and probability monads]]. ~ Donnacha Oisín Kidney. #Agda
+ [[https://medium.com/javascript-scene/can-you-avoid-functional-programming-as-a-policy-7bd0570bcfb2][Can you avoid functional programming as a policy?]] ~ Eric
Elliott. #FunctionalProgramming
+ [[https://shmish111.github.io/2019/04/13/recursion-schemes-patterns][Every day recursion schemes]]. ~ David Smith. #Haskell #FunctionalProgramming
+ [[https://128.84.21.199/abs/1904.08468][Towards evolutionary theorem proving for Isabelle/HOL]]. ~ Yutaka
Nagashima. #ITP #IsabelleHOL #MachineLearning
+ [[https://ts.data61.csiro.au/publications/nicta_full_text/8465.pdf][Eisbach: A proof method language for Isabelle]]. ~ D. Matichuk, T. Murray,
M. Wenzel. #ITP #IsabelleHOL
+ [[https://ts.data61.csiro.au/publications/papers/Matichuk:phd.pdf][Automation for proof engineering (Machine-checked proofs at scale)]]. ~
D. Matichuk. #PhD_Thesis #ITP #IsabelleHOL
+ [[http://www.cogsys.wiai.uni-bamberg.de/teaching/ss07/hs_rc/slides/RoGII_lecture_scheele.pdf][Other classical reasoning methods in Isabelle: From tactics and tacticals to
automated reasoning in Isabelle]]. ~ Stephan Scheele. #ITP #IsabelleHOL
+ [[https://www.theregister.co.uk/2019/04/18/microsoft_bosque_programming_language/][Microsoft debuts Bosque – a new programming language with no loops, inspired
by TypeScript]]. ~ T. Clarbun. #FunctionalProgramming
+ [[https://www.microsoft.com/en-us/research/uploads/prod/2019/04/beyond_structured_report_v2.pdf][Regularized programming with the BOSQUE language (Moving beyond structured
programming)]]. ~ Mark Marron. #FunctionalProgramming
+ [[https://arxiv.org/abs/1812.04088][Towards machine learning induction]]. ~ Yutaka Nagashima. #ITP
#IsabelleHOL #MachineLearning
+ [[http://cl-informatik.uibk.ac.at/teaching/ss19/itp/content.php][Course: Interactive theorem proving using Isabelle/HOL]]. ~ Christian
Sternagel. #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1805.11799][Automated proof synthesis for propositional logic with deep neural networks]]. ~
Taro Sekiyama, Kohei Suenaga. #ATP #MachineLearning
+ [[https://github.com/data61/PSL][PSL: proof strategy language for Isabelle/HOL]]. ~ Yutaka Nagashima. #ITP
#IsabelleHOL
+ [[https://hal.laas.fr/hal-02088529/document][A certificate-based approach to formally verified approximations]]. ~
F. Bréhard, A. Mahboubi, D. Pous. #ITP #Coq #Math
+ [[https://medium.com/@reinman/monoids-to-groupoids-492c35105113][Did Functional Programming get it wrong? (Why do monads feel so clumsy?)]]. ~
reinman. #FunctionalProgramming
+ [[https://arxiv.org/abs/1904.06750.pdf][From theory to systems: a grounded approach to programming language
education]]. ~ W. Crichton. #Teaching #Programming
+ [[https://cacm.acm.org/blogs/blog-cacm/236068-soundness-and-completeness-with-precision/fulltext][Soundness and completeness: with precision]]. ~ Bertrand Meyer. #CompSci
+ [[http://www.comlab.ox.ac.uk/jeremy.gibbons/publications/mr.pdf][Just do it: Simple monadic equational reasoning]]. ~ Jeremy Gibbons and Ralf
Hinze. #Haskell #FunctionalProgramming
+ [[https://fossbytes.com/microsofts-new-programming-language-bosque-keeps-your-code-simple][Microsoft’s new programming language ‘Bosque’ keeps your code simple]]. ~
Manisha Priyadarshini #Programming #Bosque
+ [[https://jeremykun.com/2019/04/20/a-working-mathematicians-guide-to-parsing][A working mathematician’s guide to parsing]]. ~ Jeremy Kun | Math
∩ Programming #Programming #LaTeX
+ [[https://mmhaskell.com/blog/2019/4/15/gxv26jzw4n6989hbajhs2gos9b8utv][Serializing mazes!]] ~ James Bowen. #Haskell #FunctionalProgramming
+ [[https://rjlipton.wordpress.com/2019/04/21/pnp-proofs][P=NP proofs]]. ~ R.J. Lipton. #CompSci #Math
+ [[https://maex.me/2019/04/rewriting-functions-with-fold-and-reduce/][Rewriting functions with fold and reduce]]. ~ Max Strübing. #Programming
#Haskell #JavaScript
+ [[https://arxiv.org/abs/1904.10414][The theorem prover museum (Conserving the system heritage of automated
reasoning)]]. ~ M. Kohlhase. #ATP #ITP
+ [[https://byorgey.wordpress.com/2019/04/24/competitive-programming-in-haskell-basic-setup/][Competitive programming in Haskell: Basic setup]]. ~ Brent Yorgey. #Haskell
+ [[https://thecodeboss.dev/2018/06/declarative-programming-with-prolog-part-1-getting-started/][Declarative programming with Prolog]]. ~ Aaron Kraus. #Prolog #LogicProgramming
+ [[https://rjlipton.wordpress.com/2019/04/24/why-check-a-proof][Why check a proof?]] ~ R.J. Lipton. #CompSci
+ [[https://people.mpi-inf.mpg.de/~mfleury/paper/thesis_draft.pdf][Formalization of logical calculi in Isabelle/HOL]]. ~ M. Fleury. #PhD_Thesis
#ITP #IsabelleHOL #Logic
+ [[https://people.mpi-inf.mpg.de/~mfleury/paper/optimizing_cdcl.pdf][A verified SAT solver framework including optimization and partial
valuations]]. ~ M. Fleury, C. Weidenbach, D. Zimmer. #ITP #IsabelleHOL #Logic
+ [[https://medium.com/@ben_80237/continuous-improvement-with-hlint-code-smells-e490886558a1][Continuous improvement with hlint code smells]]. ~ Ben Weitzman. #Haskell
+ [[https://github.com/aymannadeem/foldilocks][Demystifying folds with GHCi]]. ~ Ayman Nadeem. #Haskell
+ [[https://thoughtbot.com/blog/thinking-in-types][Thinking in types]]. ~ Pat Brisbin. #Haskell
+ [[https://typeclasses.com/learn-haskell/from-other-languages][Transitioning to Haskell from other languages]]. ~ @typeclasses #Haskell #Java
#JavaScript #Python
+ [[https://typeclasses.com/python/iterators][Python iterators]]. ~ @typeclasses #Python #Haskell
+ [[https://typeclasses.com/python/decorators @typeclasses][Python function decorators]]. #Python #Haskell
+ [[https://medium.com/@patxi/intro-to-higher-kinded-types-in-haskell-df6b719e7a69][Intro to Higher Kinded Types in Haskell]]. ~ Patxi Bocos. #Haskell
+ [[https://williamyaoh.com/posts/2019-04-25-lens-exercises.html][Exercises for understanding Lenses]]. ~ William Yao. #Haskell
+ [[https://mmhaskell.com/blog/2019/4/29/compile-driven-development-in-action-refactoring-to-arrays][Compile driven development in action: refactoring to arrays!]] ~ James
Bowen. #Haskell
+ [[https://arxiv.org/abs/1904.12763v1][Logic for exact real arithmetic]]. ~ H. Schwichtenberg, F. Wiesnet. #Logic #Mayh
#MinLog #Haskell
** Mayo 2019
+ [[https://arxiv.org/abs/1904.10759.pdf][Ordinal notations via simultaneous definitions]]. ~ F.N. Forsberg, C. Xu. #ITP
#Agda #Logic #Math
+ [[https://arxiv.org/abs/1904.10570.pdf][A formalization of forcing and the unprovability of the continuum
hypothesis]]. ~ J.M. Han, F. van Doorn. #ITP #LeanProver #Logic #Math
+ [[https://byorgey.wordpress.com/2019/04/30/code-style-and-moral-absolutes][Code style and moral absolutes]]. ~ Brent Yorgey. #Haskell
+ [[https://arxiv.org/abs/1905.00325][QKD (Quantum Key Distribution) algorithm in Isabelle: Bayesian calculation]].
~ Florian Kammüller. #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1905.00276][Warshall's algorithm (survey and applications)]]. ~ Zoltán Kása. #Algorithms
+ [[https://arxiv.org/abs/1711.10455][Backprop as Functor: A compositional perspective on supervised learning]]. ~
B. Fong, D.I. Spivak, R. Tuyéras. #MachineLearning #CategoryTheory
+ [[https://opensourc.es/blog/mip-tsp][MIP: Travelling Salesman]]. ~ Ole Kröger. #Algorithms #JuliaLang
+ [[https://opensourc.es/blog/minlp-tspn][MINLP: Travelling Salesman with Neighborhoods]]. ~ Ole Kröger. #Algorithms
#JuliaLang
+ [[http://marco-lopes.com/articles/Currying-and-Partial-Application/][Currying and partial application]]. ~ M. Lopes. #Haskell #Scala
+ [[http://www3.risc.jku.at/publications/download/risc_5919/Paper.pdf][Formalization of Dubé's degree bounds for Gröbner bases in Isabelle/HOL]]. ~
A. Maletzky. #ITP #IsabelleHOL #Math
+ [[http://oleg.fi/gists/posts/2019-04-28-tabular.html][Formatting tabular data]]. ~ Oleg Grenrus. #Haskell
+ [[https://aearnus.github.io/2019/04/26/good-symbolic-differentiation-requires-multidimensional-wobbliness][Good symbolic differentiation requires multidimensional wobbliness]]. #Haskell
#Math
+ [[https://blog.poisson.chat/posts/2019-04-03-system-f-in-coq.html][Formalization of Reynolds's parametricity theorem in Coq]]. ~ Li-yao Xia. #ITP
#Coq
+ [[http://www.cs.cmu.edu/~fp/talks/plmw19-talk.pdf][How to think about types: Insights from a personal journey]]. ~
F. Pfenning. #Logic #Programming #CompSci
+ [[https://aearnus.github.io/2019/04/26/good-symbolic-differentiation-requires-multidimensional-wobbliness][Good symbolic differentiation requires multidimensional wobbliness]]. ~
@Aearnus. #Haskell #Math
+ [[https://medium.com/barely-functional/do-we-need-effects-to-get-abstraction-7d5dc0edfbef][Do we need effects to get abstraction?]] ~ Eric Torreborre. #Haskell
+ [[https://www.well-typed.com/blog/2018/03/oop-in-haskell/][Object oriented programming in Haskell]]. ~ Edsko de Vries. #Haskell
+ [[https://medium.com/@olxc/catamorphisms-and-f-algebras-b4e91380d134][Catamorphisms and F-Algebras]]. ~ Alex Avramenko. #Haskell
+ [[https://chrispenner.ca/posts/hkd-options][Higher kinded option parsing]]. ~ Chris Penner. #Haskell
+ [[https://web.archive.org/web/20140222124650/http://chris-taylor.github.io/blog/2013/02/10/the-algebra-of-algebraic-data-types/][The algebra of algebraic data types, part 1]]. ~ Chris Taylor #Haskell
+ [[http://www.philipzucker.com/lens-as-a-divisibility-relation-goofin-off-with-the-algebra-of-types/][Lens as a divisibility relation: Goofin’ off with the algebra of types]]. ~
Philip Zucker. #Haskell
+ [[http://www.cs.us.es/~fsancho/?e=216][PageRank y el surfista aleatorio]]. ~ F. Sancho. #Algoritmos
#IA
+ [[https://mmhaskell.com/blog/2019/5/6/making-arrays-mutable][Making arrays mutable!]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1905.01735][Interaction with formal mathematical documents in Isabelle/PIDE]]. ~
M. Wenzel. #ITP #IsabelleHOL
+ [[https://xenaproject.wordpress.com/2019/05/06/m1f-imperial-undergraduates-and-lean/][M1F, Imperial undergraduates, and Lean]]. ~ Kevin Buzzard. #ITP #LeanProver
#Math
+ [[https://medium.com/@elizarov/functional-programing-is-on-the-rise-ebd5c705eaef][Functional programming is on the rise]]. ~ Roman Elizarov.
#FunctionalProgramming
+ [[https://programminglanguages.info/influence-network][An interactive network graph showing the connections of programming languages
based on their influences relations]]. ~ Ramiro Gómez. #Programming
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell_Vol7/raw/master/Libro/Examenes_de_PF_con_Haskell_Vol7.pdf][Exámenes de programación funcional con Haskell. Vol. 7 (Curso 2015-16)]].
#Haskell #ProgramaciónFuncional
+ [[http://aitp-conference.org/2019/abstract/paper%2014.pdf][Can neural networks learn symbolic rewriting?]] ~ B. Piotrowski, C Brown,
J. Urban, C. Kaliszyk. #ATP #MachineLearning
+ [[http://aitp-conference.org/2019/abstract/AITP_2019_paper_34.pdf][Tactic learning for Coq]]. ~ L. Blaauwbroek. #ITP #Coq #MachineLearnig
+ [[http://aitp-conference.org/2019/abstract/paper%2026.pdf][Making set theory great again: The Naproche-SAD project]]. ~ S. Frerix,
P. Koepke. #ITP #Math
+ [[http://aitp-conference.org/2019/abstract/invited%20paper%201.pdf][Experiments with connection method provers]]. ~ W. Bibel, J. Otten. #ATP
+ [[https://mathformachines.com/files/okcfp.pdf][An introduction to categories with Haskell and databases]]. ~
R. Holbrook. #CategoryTheory #Haskell #Databases
+ [[https://blogs.oracle.com/developers/the-power-of-functional-programming][The power of functional programming]]. ~ Arvind Kumar GS. #FunctionalProgramming
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell_Vol8/raw/master/Libro/Examenes_de_PF_con_Haskell_Vol8.pdf][Exámenes de programación funcional con Haskell. Vol. 8 (Curso 2016-17)]].
#Haskell #ProgramaciónFuncional
+ [[https://lance.fortnow.com/papers/files/thesis.pdf][Complexity-theoretic aspects of interactive proof systems]]. ~ Lance Jeremy
Fortnow. #PhD_Thesis #ITP #ComputationalComplexity
+ [[http://aitp-conference.org/2019/abstract/AITP_2019_paper_8.pdf][Neural guidance for SAT solving]]. ~ S. Jaszczur, M. Łuszczyk,
H. Michalewski. #ATP #SAT #MachineLearning
+ [[https://files.sketis.net/Isabelle_Workshop_2018/Isabelle_2018_paper_6.pdf][Using Isabelle/UTP for the verification of sorting algorithms (A case
study)]]. ~ J.A. Bockenek, P. Lammich, Y. Nemouchi, B. Wolff. #ITP #IsabelleHOL
+ [[http://www.jonmsterling.com/pdfs/algebraic-type-theory-tutorial.pdf][Algebraic type theory and the gluing construction]]. ~ J. Sterling. #CompSci
#TypeTheory
+ [[https://www.quantamagazine.org/the-subtle-art-of-the-mathematical-conjecture-20190507/][The subtle art of the mathematical conjecture]]. ~ R. Dijkgraaf. #Math
+ [[https://dev.to/gonzooo/api-constraints-a-la-carte-in-haskell-purescript-3aba][API constraints a'la carte in Haskell & PureScript]]. ~ R. Andersson. #Haskell
#PureScript
+ [[https://blog.ch3m4.org/2019/04/16/que-es-un-coconut/][¿Qué es un coconut?]] ~ Chema Cortés. #Coconut #FunctionalProgramming #Python
+ [[https://blog.ch3m4.org/2019/05/02/coconut-primeros-pasos/][Coconut - Primeros pasos]]. ~ Chema Cortés. #Coconut #FunctionalProgramming
#Python
+ [[https://blog.ch3m4.org/2019/05/07/monadas-con-coco/][Monadas con coco]]. ~ Chema Cortés. #Coconut #FunctionalProgramming #Python
+ [[https://qfpl.io/posts/fp-cheat-sheet][Functional Programming Cheat Sheet]]. ~ Tony Morris. #FunctionalProgramming
#Haskell
+ [[https://doisinkidney.com/posts/2019-05-08-list-manipulation-tricks.html][Some tricks for list manipulation]]. ~ Donnacha Oisín Kidney. #Haskell
#FunctionalProgramming
+ [[https://typeclasses.com/python/islice][Transition to Haskell from Python: Iterator slicing]]. ~ Chris Martin, Julie
Moronuki. #Python #Haskell
+ [[https://typeclasses.com/python/iteration-to-infinity][Transition to Haskell from Python: Iteration to infinity]]. ~ Chris Martin,
Julie Moronuki. #Python #Haskell
+ [[https://www.tweag.io/posts/2019-05-09-inline-js.html][Inline-JS: Seamless JavaScript/Haskell interop]]. ~ Shao Cheng. #Haskell
#JavaScript
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell_Vol9/raw/master/Libro/Examenes_de_PF_con_Haskell_Vol9.pdf][Exámenes de programación funcional con Haskell. Vol. 9 (Curso 2017-18)]].
#Haskell #ProgramaciónFuncional
+ [[https://medium.com/code-gin/logic-programming-a94fa0997eec][Understanding logic programming]]. #LogicProgramming #Python
+ [[https://arxiv.org/abs/1905.03334][SMT-based constraint answer set solver EZSMT+]]. ~ D. Shen, Y. Lierler. #ASP
#CASP
+ [[https://kunigami.blog/2019/05/09/constructing-trees-from-a-distance-matrix/][Constructing trees from a distance matrix]]. ~ Guilherme Kunigami. #Algorithms
+ [[https://medium.com/syncedreview/alan-turing-institute-releases-ml-framework-written-in-julia-ac649f7c1f04][Alan Turing Institute releases ML framework written in Julia]]. #MachineLearning
#JuliaLang
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell_Vol10/raw/master/Libro/Examenes_de_PF_con_Haskell_Vol10.pdf][Exámenes de programación funcional con Haskell. Vol. 10 (Curso 2018-19)]].
#Haskell #ProgramaciónFuncional
+ [[http://www.cs.us.es/~fsancho/?e=217][Teoría de la probabilidad: Lo mínimo]]. ~ F. Sancho. #Matemáticas
+ [[https://rjlipton.wordpress.com/2019/05/10/making-elections-safe/][Making elections safe (A new proof that MAJORITY is not in AC⁰)]]. ~
R.J. Lipton. #CompSci
+ [[https://blog.klipse.tech/clojure/2019/05/10/java-is-confusing-clojure-is-simple.html][Java is confusing, Clojure is simple]]. ~ Yehonathan Sharvit. #Programming #Java
#Clojure
+ [[https://medium.com/duomly-blockchain-online-courses/introduction-to-functional-programming-with-python-examples-83f33308856a][Introduction to functional programming with Python examples]]. ~ Radoslaw
Fabisiak. #FunctionalProgramming #Python
+ [[https://mathigon.org/timeline/][Timeline of mathematics]]. #Math
+ [[https://mroman42.github.io/ctlc/ctlc.pdf][Category theory and lambda calculus]]. ~ Mario Román García. #LambdaCalculus
#CategoryTheory #Haskell
+ [[https://github.com/mroman42/mikrokosmos][Mikrokosmos: a educational λ-calculus interpreter]]. ~ Mario Román
García. #LambdaCalculus #Haskell
+ [[http://save.seecs.nust.edu.pk/pubs/2019/ICCCS_2019_1.pdf][Formalization of asymptotic notations in HOL4]]. ~ N. Iqbal et als. #ITP #HOL4
+ [[https://arxiv.org/abs/1905.01473.pdf][A denotational engineering of programming languages]]. ~ Andrzej Jacek
Blikle. #eBook #Logic #CompSci
+ [[https://doisinkidney.com/posts/2019-05-11-concatenative-free.html][Concatenative programming; the free monoid of programming languages]]. ~
Donnacha Oisín Kidney. #Haskell #FunctionalProgramming
+ [[http://casperbp.net/posts/2019-04-nondeterminism-using-a-free-monad/index.html][Interpreters with non-determinism using a free monad]]. ~ Casper Bach
Poulsen. #Agda #Haskell
+ [[http://www.cs.utexas.edu/~moore/publications/milestones.pdf][Milestones from the pure lisp theorem prover to ACL2]]. ~ J Strother Moore. #ITP
#ACL2
+ [[https://www.researchgate.net/profile/Christoph_Benzmueller/publication/332786587_IO_Logic_in_HOL/links/5cc9c196299bf120978f2f1b/I-O-Logic-in-HOL.pdf][I/O logic in HOL]]. ~ C- Benzmüller, A. Farjami, P. Meder, X. Parent. #ITP
#IsabelleHOL #Logic
+ [[https://mmhaskell.com/blog/2019/5/13/quicksort-with-haskell][Quicksort with Haskell!]] ~ James Bowen. #Haskell #FunctionalProgramming
+ [[http://www.well-typed.com/blog/2019/05/integrated-shrinking/][Integrated versus manual shrinking]]. ~ Edsko de Vries. #Haskell
#FunctionalProgramming
+ [[https://cvlad.info/functor-of][Functor-Of]]. ~ Vladimir Ciobanu. #Haskell #FunctionalProgramming
+ [[https://arxiv.org/abs/1905.05500][Unifying semantic foundations for automated verification tools in
Isabelle/UTP]]. ~ S. Foster et als. #ITP #IsabelleHOL
+ [[https://www.isa-afp.org/entries/LambdaAuth.html][Formalization of generic authenticated data structures in Isabelle/HOL]]. ~
M. Brun, D. Traytel. #ITP #IsabelleHOL
+ [[https://byorgey.wordpress.com/2019/05/14/lightweight-efficiently-sampleable-enumerations-in-haskell/][Lightweight, efficiently sampleable enumerations in Haskell]]. ~ Brent
Yorgey. #Haskell #FunctionalProgramming
+ [[https://doisinkidney.com/posts/2019-05-14-corecursive-implicit-queues.html][Implicit corecursive queues]]. ~ Donnacha Oisín Kidney. #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1905.05970][holpy: Interactive theorem proving in Python]]. ~ Bohua Zhan. #ITP #Logic
#Python
+ [[http://qfpl.io/share/talks/ghc-language-extensions/][GHC language extensions]]. ~ Andrew McMiddlin. #Haskell #FunctionalProgramming
+ [[http://qfpl.io/share/talks/laws/slides.pdf][Laws!]] ~ George Wilson. #Haskell #FunctionalProgramming
+ [[http://qfpl.io/share/talks/appetite-for-dysfunction/][Appetite for dysfunction]]. ~ Andrew McMiddlin #Haskell #FunctionalProgramming
+ [[http://qfpl.io/share/talks/reflexive-art/composeconf.html][Reflexive art]]. ~ Sean Chalmers. #Haskell #FunctionalProgramming
+ [[http://qfpl.io/share/talks/comma-police/sv.pdf][Comma police: The design and implementation of a CSV library]]. ~ George
Wilson. #Haskell #FunctionalProgramming
+ [[http://qfpl.io/share/talks/state-machine-testing][State machine testing]]. ~ Andrew McMiddlin. #Haskell #FunctionalProgramming
+ [[http://qfpl.io/share/talks/contravariant-functors/contravariant.pdf][Contravariant functors: The other side of the coin]]. ~ George Wilson. #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1406.4823][Notions of computation as monoids]]. ~ E. Rivas, M. Jaskelioff. #Haskell
#CategoryTheory
+ [[https://hal.archives-ouvertes.fr/hal-02127698/document][Graph theory in Coq: Minors, treewidth, and isomorphisms]]. ~ C. Doczkal,
D. Pous. #ITP #Coq #Math
+ [[http://qfpl.io/share/talks/cargo-culting-lenses/talk.html][Cargo culting lenses for fun & profit]]. ~ Sean Chalmers. #Haskell
#FunctionalProgramming
+ [[http://qfpl.io/share/talks/your-first-haskell-app/][Your first Haskell app]]. ~ Andrew McMiddlin. #Haskell #FunctionalProgramming
+ [[http://qfpl.io/share/talks/typeclass-the-ultimate-ad-hoc/slides.pdf][Type class: The ultimate ad-hoc]]. ~ George Wilson. #Haskell
#FunctionalProgramming
+ [[https://discourse.haskell.org/t/a-note-on-the-connections-between-the-foldable-methods/685][A note on the connections between the Foldable methods]]. ~ Daniel
Mlot. #Haskell #FunctionalProgramming
+ [[https://github.com/kaygun/18-Fall-Math388E][Data science for fundamental sciences]]. Atabey Kaygun #DataScience
+ [[https://rjlipton.wordpress.com/2019/05/18/an-app-proof/][An app proof]]. R.J. Lipton. #Math
+ [[http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.121.1890&rep=rep1&type=pdf][Techniques for embedding postfix languages in Haskell]]. ~ Chris
Okasaki. #Haskell #FunctionalProgramming
+ [[https://arxiv.org/abs/1905.07244][Isabelle technology for the Archive of Formal Proofs]]. ~ Makarius Wenzel. #ITP
#IsabelleHOL
+ [[http://aperez4.blogspot.com/2019/05/la-geometria-se-hizo-arte-las-claves.html][La Geometría se hizo Arte: las claves secretas de Escher]]. ~ Antonio Pérez
Sanz. #Matemáticas #Escher
+ [[http://andreipopescu.uk/pdf/ITP2015.pdf][A consistent foundation for Isabelle/HOL]]. ~ O. Kunčar, A. Popescu. #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1905.06192][Mechanised assurance cases with integrated formal methods in Isabelle]]. ~
Y. Nemouchi et als. #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1905.07961][Guiding theorem proving by recurrent neural networks]]. ~ B. Piotrowski,
J. Urban. #ATP #NeuralNetworks
+ [[https://soupi.github.io/rfc/pfgames/][Purely functional games (How I built a game in Haskell - pure functional
style)]]. ~ Gil Mizrahi. #Haskell #FunctionalProgramming #Game
+ [[http://philsci-archive.pitt.edu/16024/][For cybersecurity, Computer Science must rely on strongly-typed actors]]. ~
C. Hewitt. #Logic #CompSci
+ [[https://mmhaskell.com/blog/2019/5/20/running-from-enemies][Running from enemies!]] ~ James Bowen. #Haskell #FunctionalProgramming
+ [[https://themattchan.com/blog/2019-05-19-cps-and-embeddings.html][A correspondence between deep/shallow embeddings and CPS/first order
evaluators]]. ~ Matthew Chan. #Haskell #FunctionalProgramming
+ [[https://themattchan.com/blog/2018-12-22-code-style.html][Thoughts on code style]]. ~ Matthew Chan. #Haskell #FunctionalProgramming
+ [[https://www.cs.ru.nl/bachelors-theses/2018/Timo_Maarse___4416295___Parsing_with_derivatives_in_Haskell.pdf][Parsing with derivatives in Haskell]]. ~ Timo Maarse. #Haskell
#FunctionalProgramming
+ [[https://www.azavea.com/blog/2019/05/20/functional-api-development-haskell][Lessons in functional API development from Haskell’s servant and Http4s]]. ~
James Santucci. #Haskell #FunctionalProgramming
+ [[https://ieeexplore.ieee.org/iel7/8465565/8488986/08489371.pdf][Formalization and certification of software for smart cities]]. ~ E.S. Grilo,
B. Lopes. #ITP #Coq
+ [[https://link.springer.com/chapter/10.1007/978-3-030-19823-7_39][EduBAI: An educational platform for logic-based reasoning]]. ~ D. Arampatzis et
als. #Teaching #Logic #ASP
+ [[http://www.di.uminho.pt/~jno/ps/pdbc_part.pdf][Program design by calculation]]. ~ J.N. Oliveira. #eBook #Haskell
#FunctionalProgramming
+ [[https://riptutorial.com/ebook/haskell][Learning Haskell language eBook]]. #eBook #Haskell #FunctionalProgramming
+ [[https://byorgey.wordpress.com/2019/05/22/competitive-programming-in-haskell-scanner/][Competitive programming in Haskell: Scanner]]. ~ Brent Yorgey. #Haskell
#FunctionalProgramming
+ [[https://blog.jez.io/profiling-in-haskell/][Profiling in Haskell for a 10x speedup]]. ~ Jake Zimmerman. #Haskell
#FunctionalProgramming
+ [[https://blog.ploeh.dk/2019/05/20/maybe-catamorphism][Maybe catamorphism]]. ~ Mark Seemann. #Haskell #FunctionalProgramming
+ [[https://github.com/flypitch/flypitch-itp-2019/releases/download/1.0/flypitch-itp-2019.pdf][A formalization of forcing and the consistency of the failure of the continuum
hypothesis]]. ~ Jesse Michael Han and Floris van Doorn. #ITP #LeanProver #Logic
+ [[https://github.com/flypitch/flypitch][Flypitch: A formal proof of the independence of the continuum hypothesis]]. ~
Jesse Michael Han and Floris van Doorn. #ITP #LeanProver #Logic
+ [[https://arxiv.org/abs/1905.09381][Learning to prove theorems via interacting with proof assistants]]. ~ K. Yang,
J. Deng. #ITP #Coq #MachineLearning
+ [[https://github.com/princeton-vl/CoqGym][CoqGym: A learning environment for theorem proving with the Coq proof
assistant]]. ~ K. Yang, J. Deng. #ITP #Coq #MachineLearning
+ [[https://arxiv.org/abs/1905.09565][ENIGMAWatch: ProofWatch meets ENIGMA]]. ~ Z. Goertzel, J. Jakubův,
J. Urban. #ATP #MachineLearnig
+ [[https://reasonablypolymorphic.com/blog/faking-fundeps/][Faking fundeps with typechecker plugins]]. #Haskell #FunctionalProgramming
+ [[https://www.johndcook.com/blog/applied-category-theory/][Applied category theory]]. ~ John D. Cook. #CategoryTheory
+ [[https://xenaproject.wordpress.com/2019/05/21/equality-part-1-definitional-equality/][Equality part 1: definitional equality]]. ~ Kevin Buzzard. #ITP #LeanProver
+ [[https://xenaproject.wordpress.com/2019/05/25/equality-part-2-syntactic-equality/][Equality part 2: syntactic equality]]. ~ Kevin Buzzard. #ITP #LeanProver
+ [[http://www.javiercasas.com/articles/codata-in-action][Codata in action, or how to connect Functional Programming and Object Oriented
Programming]]. ~ J. Casas. #Haskell #FunctionalProgramming #CategoryTheory
+ [[https://serokell.io/blog/dimensions-and-haskell-introduction][Dimensions and Haskell: Introduction]]. ~ D. Rogozin. #Haskell
#FunctionalProgramming #MachineLearnig #Math
+ [[https://arxiv.org/abs/1905.10006][Graph representations for Higher-Order Logic and theorem proving]]. ~ A. Paliwal
et als. #ITP #ATP #MachineLearning
+ [[https://github.com/david-christiansen/pie-hs][Pie-hs: an implementation of Pie, the language from "The little typer", in
Haskell]]. ~ D.T. Christiansen. #Haskell #FunctionalProgramming
+ [[https://mmhaskell.com/blog/2019/5/27/smarter-enemies-with-bfs][Smarter enemies with BFS!]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://people.inf.ethz.ch/trayteld/papers/cade19-incompleteness/incompleteness.pdfw][A formally verified abstract account of Gödel's incompleteness theorems]]. ~
A. Popescu, D. Traytel. #ITP #IsabelleHOL #Logic #Math
+ [[https://people.inf.ethz.ch/trayteld/papers/lambdaauth/lambdaauth.pdfw][Generic authenticated data structures, formally]]. ~ M. Brun, D. Traytel. #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1905.10501][Learning to reason in large theories without imitation]]. ~ K. Bansal et
als. #ATP #MachineLearning
+ [[http://pirlea.net/papers/toychain-thesis.pdfw][Toychain: Formally verified blockchain consensus]]. ~ G. Pîrlea. #ITP #Coq
#Blockchain
+ [[https://arxiv.org/abs/1905.10728][Programming with applicative-like expressions]]. ~ J. Malakhovski,
S. Soloviev. #Haskell #FunctionalProgramming
+ [[https://doisinkidney.com/posts/2019-05-28-linear-phases.html][Deriving a linear-time applicative traversal of a rose tree]]. ~ Donnacha Oisín
Kidney. #Haskell #FunctionalProgramming
+ [[https://github.com/noschinl/cypw][CYP: Checker for "morally correct" induction proofs about Haskell programs]].
#ITP #Haskell #FunctionalProgramming
+ [[http://www.cs.nott.ac.uk/~psztxa/publ/fomus19.pdfw][Naïve type theory]]. ~ T. Altenkirch. #Logic #Math #TypeTheory #HoTT
+ [[https://interstices.info/la-theorie-de-la-complexite-algorithmique][La théorie de la complexité algorithmique pour calculer efficacement]]. ~
G. Lagarde #Algorithmes
+ [[https://arxiv.org/abs/1905.12149][SATNet: Bridging deep learning and logical reasoning using a differentiable
satisfiability solver]]. ~ P.W. Wang et als. #ATP #SAT #MachineLearning
+ [[https://arxiv.org/abs/1905.13100][Towards finding longer proofs]]. ~ Z. Zombori et als. #ATP #MachineLearning
+ [[http://www.cs.nott.ac.uk/~psxmah/liquidate.pdf][Liquidate your assets (Reasoning about resource usage in Liquid Haskell)]]. ~
M.A.T. Handley, N. Vazou, G. Hutton. #Haskell #LiquidHaskell
+ [[https://williamyaoh.com/posts/2019-05-27-string-interpolation-and-overlapping-instances.html][String interpolation and overlapping instances]]. ~ William Yao. #Haskell
#FunctionalProgramming
+ [[http://bit.ly/2JOlNdc][Sobre cribas y matemáticas]]. ~ Juan Arias de Reyna. #Matemáticas
** Junio 2019
+ [[https://www.gaussianos.com/sheldon-tenia-razon-el-mejor-numero-es-el-73][Sheldon tenía razón: el mejor número es el 73]]. ~ M.A. Morales. #Matemáticas
+ [[http://group-mmm.org/~ayamada/DJTY2019.pdf][A verified implementation of the Berlekamp–Zassenhaus factorization
algorithm]]. ~ J. Divasón et als. #ITP #IsabelleHOL #Math
+ [[http://uilis.unsyiah.ac.id/oer/files/original/aa4c33bd9eeba8b979b3033a615b60c8.pdf][First semester in numerical analysis with Julia]]. ~ G. Ökten. #eBook #JuliaLang
#Math
+ [[https://www.reddit.com/r/haskell/comments/bwah9q/why_haskell_why_github_use_haskell_for_their/][Why Haskell - why GitHub use Haskell for their newly released Semantic
package]]. #Haskell #FunctionalProgramming
+ [[https://www.isa-afp.org/entries/KD_Tree.html][Multidimensional binary search trees in Isabelle/HOL]]. ~ Martin Rau. #ITP
#IsabelleHOL
+ [[https://www.cs.kent.ac.uk/people/staff/rnsr/docs/herbrand-jlc.pdf][Towards automated reasoning in Herbrand structures]]. ~ L. Cohen, R. Rowe,
Y. Zohar. #Logic #ATP
+ [[http://www.cse.chalmers.se/~mista/assets/pdf/ast19.pdf][Generating random structurally rich algebraic data type values]]. ~ A. Mista,
A. Russo. #Haskell #FunctionalProgramming
+ [[https://mmhaskell.com/blog/2019/6/3/fighting-back][Monday Morning Haskell: Fighting Back!]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://github.com/alhassy/OCamlCheatSheet][Reference of basic commands to get comfortable with OCaml]]. ~ Musa
Al-hassy. #OCaml
+ [[https://dl.acm.org/citation.cfm?id=3309508][Translation from problem to code in seven steps]]. ~ A.D. Hilton, G.M. Lipp,
S.H. Rodger. #Teaching #Programming
+ [[https://www21.in.tum.de/~haslbema/documents/Haslbeck_Lammich-Refinement_with_Time.pdf][Refinement with time (Refining the run-time of algorithms in Isabelle/HOL)]]. ~
M.P.L. Haslbeck, P. Lammich. #ITP #IsabelleHOL
+ [[https://hal.inria.fr/hal-01897468v2/document][Deriving proved equality tests in Coq-elpi: Stronger induction principles for
containers in Coq]]. ~ Enrico Tassi. #ITP #Coq
+ [[http://alioth.uwb.edu.pl/~pakkarol/articles/CBCKKP-ITP2019.pdf][Higher-order Tarski Grothendieck as a foundation for formal proof]]. ~ C. Brown,
C. Kaliszyk, K. Pąk. #ITP #IsabelleHOL #Logic
+ [[https://arxiv.org/abs/1904.11818][A certifying extraction with time bounds from Coq to call-by-value
λ-calculus]]. ~ Y. Forster, F. Kunze. #ITP #Coq
+ [[https://members.loria.fr/SMerz/papers/itp2019.pdf][Formal proof of Tarjan’s strongly connected components algorithm in Why3, Coq,
and Isabelle]]. ~ R. Chen et als. #ITP #Why3 #Coq #IsabelleHOL
+ [[https://arxiv.org/abs/1810.08380][Formalizing computability theory via partial recursive functions]]. ~
M. Carneiro. #ITP #LeanProver
+ [[https://wickstrom.tech/programming/2019/06/02/property-based-testing-in-a-screencast-editor-case-study-3.html][Property-based testing in a screencast editor, case study 3: Integration
testing]]. ~ Oskar Wickström. #Haskell #FunctionalProgramming
+ [[https://blog.ploeh.dk/2019/06/03/either-catamorphism/][Either catamorphism]]. Mark Seemann. #Haskell #FunctionalProgramming
+ [[https://github.com/tibbe/haskell-style-guide/blob/master/haskell-style.md][Haskell style guide]]. ~ Johan Tibell. #Haskell #FunctionalProgramming
+ [[https://doisinkidney.com/posts/2019-06-04-solving-puzzles-without-your-brain.html][Solving programming puzzles without using your brain]]. ~ Donnacha Oisín
Kidney. #Python #Math
+ [[https://lean-forward.github.io/e-g/e-g.pdf][Formalizing the solution to the cap set problem]]. ~ S. Dahmen, J. Hölzl,
R.Y. Lewis. #ITP #LeanProver
+ [[https://hal.inria.fr/hal-02088293/document][Quantitative continuity and computable analysis in Coq]]. ~ F. Steinberg,
L. Thery, H. Thies. #ITP #Coq #Math
+ [[https://easychair.org/publications/preprint_download/GhvC][Hilbert meets Isabelle. (Formalisation of the DPRM theorem in Isabelle/HOL)]]. ~
D. Aryal et als. #ITP #IsabelleHOL #Math
+ [[http://perso.ens-lyon.fr/florent.brehard/chebapprox/TOFILL][A certificate-based approach to formally verified approximations]]. ~
F. Bréhard, A. Mahboubi, D. Pous. #ITP #Coq #Math
+ [[https://www.xuanruiqi.com/assets/succinct.pdf][Proving tree algorithms for succinct data structures]]. ~ R. Affeldt,
J. Garrigue, X. Qi, K. Tanaka. #ITP #Coq
+ [[https://gupea.ub.gu.se/bitstream/2077/60174/1/gupea_2077_60174_1.pdf][Automatic refactoring for Agda]]. ~ K. Wibergh. #Msc_Thesis #ITP #Agda
+ [[https://dl.acm.org/citation.cfm?id=3309512][LP based integration of computing and science education in middle schools]]. ~
Y. Zhang et als. #Teaching #LogicProgramming
+ [[https://wiki.ifs.hsr.ch/SemProgAnTr/files/FS19_Waelter_FP-Web-Mobile.pdf][Functional programming for Web and mobile (A review of the current state of
the art)]]. ~ J. Wälter. #FunctionalProgramming
+ [[https://arxiv.org/abs/1905.13706][A role for dependent types in Haskell (Extended version)]]. ~ S. Weirich et
als. #Haskell #FunctionalProgramming
+ [[https://arxiv.org/abs/1906.03930][Formalization of the axiom of choice and its equivalent theorems]]. ~ T. Sun,
W. Yu. #ITP #Coq #Logic #Math
+ [[https://github.com/styzystyzy/Axiomatic_Set_Theory. ~ T. Sun.][Formalization of axiomatic set theory in Coq]]. #ITP #Coq #Logic #Math
+ [[https://github.com/styzystyzy/Axiom_of_Choice][Formalization of the axiom of choice and its equivalent theorems in Coq]]. ~
T. Sun. #ITP #Coq #Logic #Math
+ [[https://dl.acm.org/citation.cfm?id=3329959][TeIL: a type-safe imperative tensor intermediate language]]. ~ N.A. Rink,
J. Castrillon. #ITP #Coq
+ [[https://hal.archives-ouvertes.fr/hal-02150167/document][Rapid prototyping formal systems in MMT: 5 case studies]]. ~ D. Müller,
F. Rabe. #ITP #MMT #Logic
+ [[https://digitalcommons.library.umaine.edu/cgi/viewcontent.cgi%3Farticle%3D1536%26context%3Dhonors][Exploring semantic hierarchies to improve resolution theorem proving on
ontologies]]. ~ S. Small. #ATP #Prover9
+ [[https://www.cloudseal.io/blog/2019-06-07-pure-programs][Pure programs: Pure functions aren't enough]]. ~ Ryan Newton. #Haskell
#FunctionalProgramming
+ [[https://mmhaskell.com/blog/2019/6/10/spring-cleaning-parameters-and-savign][Spring cleaning: Parameters and saving!]]. #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1906.03523][Inductive logic programming via differentiable deep neural logic networks]]. ~
A. Payani, F. Fekri. #ILP #NeuralNetworks #MachineLearning
+ [[https://arxiv.org/abs/1904.08368][Relay: A high-level IR for Deep Learning]]. ~ J. Roesch et
als. #FunctionalProgramming #MachineLearning
+ [[https://xenaproject.wordpress.com/2019/06/11/the-inverse-of-a-bijection/][The inverse of a bijection]]. ~ Kevin Buzzard. #ITP #LeanProver #Math
+ [[https://captjakk.com/posts/2019-05-12-practical-intro-eff.html][A practical introduction to freer monads (Eff)]]. #Haskell
#FunctionalProgramming
+ [[http://www.cs.cornell.edu/courses/cs3110/2019sp/textbook][Functional programming in OCaml]]. ~ Michael R. Clarkson. #eBook
#FunctionalProgramming #OCaml
+ [[http://home.in.tum.de/~immler/documents/immler2018thesis.pdf][A verified ODE solver and Smale's 14th problem]]. ~ F. Immler. #PhD_Thesis #ITP
#IsabelleHOL #Math
+ [[http://home.in.tum.de/~mansour/cv-and-website/papers/Greens_journal.pdf][An Isabelle/HOL formalisation of Green’s theorem]]. ~ M. Abdulaziz,
L.C. Paulson. #ITP #IsabelleHOL #Math
+ [[http://home.in.tum.de/~mansour/cv-and-website/papers/diamBoundingFormalisationJAR.pdf][Formally verified algorithms for upper-bounding state space diameters]]. ~
M. Abdulaziz, M. Norrish, C. Gretton. #ITP #HOL4
+ [[http://home.in.tum.de/~mansour/cv-and-website/papers/verifiedValidator.pdf][A formally verified validator for classical planning problems and solutions]]. ~
M. Abdulaziz, P. Lammich. #ITP #IsabelleHOL
+ [[http://isabelle.in.tum.de/website-Isabelle2011/dist/Isabelle2011/doc/isar-overview.pdf][A tutorial introduction to structured Isar proofs]]. ~ T. Nipkow. #ITP #IsabelleHOL
+ [[https://github.com/stylewarning/cl-permutation][Permutations and permutation groups in Common Lisp]]. ~ Robert
Smith. #CommonLisp #Math
+ [[http://tomasp.net/academic/drafts/cultures/cultures.pdf][Cultures of programming (Understanding the history of programming through
controversies and technical artifacts)]]. ~ T. Petricek, #Programming
+ [[http://philomatica.org/wp-content/uploads/2019/06/rodin_kovalyov.pdf][Truth and justification in knowledge representation]]. ~ A. Rodin,
S. Kovalyov. #KR #HoTT
+ [[https://www.isa-afp.org/entries/IMP2_Binary_Heap.html][Binary heaps for IMP2 in Isabelle/HOL]]. ~ S. Griebel. #ITP #IsabelleHOL
+ [[https://jamesrwilcox.com/InductionExercises.html][Exercises on generalizing the induction hypothesis]]. ~ James Wilcox. #ITP #Coq
+ [[https://typeclasses.com/monoid][Monoid]]. ~ Chris Martin, Julie Moronuki. #Haskell #FunctionalProgramming
+ [[https://semantic.org/post/empty-and-unit-types][Empty and unit types]]. ~ Ashley Yakeley. #Haskell #FunctionalProgramming
#TypeTheory
+ [[https://blog.poisson.chat/posts/2019-06-09-free-monads-free-monads.html][Free monads of free monads]]. ~ Li-yao Xia. #Haskell #FunctionalProgramming
+ [[https://github.com/bawolk/hsp][hsp: Haskell command line text stream processor]]. #Haskell
#FunctionalProgramming
+ [[https://xenaproject.wordpress.com/2019/06/15/proofs-are-not-programs/][Proofs are not programs]]. ~ Kevin Buzzard. #ITP #LeanProver #Math
+ [[https://www.msoos.org/2019/06/crystalball-sat-solving-data-gathering-and-machine-learning/][CrystalBall: SAT solving, data gathering, and machine learning]]. ~ Mate
Soos. #SAT #MachineLearning
+ [[https://www.cs.mcgill.ca/~bpientka/papers/learn-ocaml-icfp19.pdf][Teaching the art of functional programming using automated grading (Experience
report)]]. ~ A. Hameer, B. Pientka. #Teaching #FunctionalProgramming #OCaml
+ [[https://github.com/teaching-the-art-of-fp/learn-ocaml/tree/teaching-fp][Learn-OCaml: A Web application for learning OCaml]]. #Teaching
#FunctionalProgramming #OCaml
+ [[https://www.staff.ncl.ac.uk/andrey.mokhov/selective-functors-slides.pdf][Selective applicative functors]]. ~ Andrey Mokhov. [Slides]
#Haskell #FunctionalProgramming
+ [[http://www.hrpub.org/download/20190530/SA3-19613106.pdf][Composing monads for a musical performance]]. ~ N. Rossiter, M. Heather. #Music
#CategoryTheory #Haskell
+ [[http://microsoft.com/en-us/research/uploads/prod/2019/03/ho-haskell-5c8bb4918a4de.pdf][Higher-order type-level programming in Haskell]]. ~ C. Kiss et als. #Haskell
#FunctionalProgramming
+ [[https://www.codefornerds.com/developing-an-intuition-for-reduce-in-javascript-through-haskell-monoids/][Developing an intuition for reduce in JavaScript through Haskell: Monoids]]. ~
@codefornerds #JavaScript #Haskell #FunctionalProgramming
+ [[https://serokell.io/blog/parsing-typed-edsl][Parsing typed eDSL]]. ~ George Agapov. #Haskell #FunctionalProgramming
+ [[http://bit.ly/2IimNnX][Haskell quick syntax reference]]. ~ S.L. Nita, M. Mihailescu. #eBook #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1906.06251][Effective problem solving using SAT solvers]]. ~ C. Bright et als. #ATP #SAT
+ [[http://talisker.inf.kcl.ac.uk/cgi-bin/repos.cgi/isabelle-cookbook/raw-file/tip/progtutorial.pdf][The Isabelle cookbook (A gentle tutorial for programming Isabelle/ML)]]. ~
C. Urban et als. #ITP #IsabelleHOL
+ [[http://www3.risc.jku.at/publications/download/risc_5929/Paper.pdf][Gröbner bases and Macaulay matrices in Isabelle/HOL]]. ~ A. Maletzky. #ITP
#IsabelleHOL #Math
+ [[http://www3.risc.jku.at/publications/download/risc_5919/Paper.pdf][Formalization of Dubé's degree bounds for Gröbner bases in Isabelle/HOL]]. ~
A. Maletzky. #ITP #IsabelleHOL #Math
+ [[https://www.isa-afp.org/entries/Groebner_Macaulay.html][Gröbner bases, Macaulay matrices and Dubé's degree bounds in Isabelle/HOL]]. ~
A. Maletzky. #ITP #IsabelleHOL #Math
+ [[https://www.isa-afp.org/entries/Nullstellensatz.html][Hilbert's Nullstellensatz in Isabelle/HOL]]. ~ A. Maletzky. #ITP #IsabelleHOL
+ [[https://digitalcommons.wpi.edu/mqp-all/7119][Formal verification of boolean unification algorithms with Coq]]. ~
D. Richardson et als. #ITP #Coq
+ [[https://github.com/EgbertRijke/HoTT-Intro][Introduction to homotopy type theory]]. ~ E. Rijke. #HoTT #Logic #math #ITP
#Agda
+ [[https://arxiv.org/abs/1611.05990][Monte Carlo tableau proof search]]. ~ M. Färber, C. Kaliszyk, J. Urban. #ATP
#Logic #MachineLearning
+ [[https://github.com/adjoint-io/auth-adt][Authenticated data structures, generically]]. #Haskell #FunctionalProgramming
+ [[https://mmhaskell.com/blog/2019/6/17/loading-games-and-changing-colors][Loading games and changing colors!]] ~ James Bowen #Haskell
#FunctionalProgramming
+ [[http://www.javiercasas.com/articles/functional-programming-patterns-functional-core-imperative-shell][Patterns of functional programming: functional core - imperative shell]]. ~
J. Casas. #Haskell #FunctionalProgramming
+ [[https://medium.com/@baseerhk/a-taste-of-functional-programming-in-kotlin-3b163b5c8101][A taste of functional programming in Kotlin]]. ~ Baseer
Al-Obaidy. #FunctionalProgramming #Kotlin
+ [[https://blog.jle.im/entry/functor-combinatorpedia.html][The Functor Combinatorpedia]]. ~ Justin Le. #Haskell #FunctionalProgramming
+ [[https://www.slideshare.net/ScottWlaschin/the-functional-programming-toolkit-ndc-oslo-2019-150648710][The functional programming toolkit]]. ~ Scott Wlaschin. #FunctionalProgramming
+ [[https://www.slideshare.net/ScottWlaschin/the-power-of-composition][The power of composition (for beginners in FP)]]. ~ Scott
Wlaschin. #FunctionalProgramming #Fsharp
+ [[https://www.slideshare.net/ScottWlaschin/functional-design-patterns-devternity2018][Functional design patterns]]. ~ Scott Wlaschin. #FunctionalProgramming #Fsharp
+ [[https://levelup.gitconnected.com/implementing-recursion-with-the-y-combinator-in-any-language-9e83fa369ca][Implementing recursion with the Y combinator in any language]]. ~ Michele
Riva. #LambdaCalculus #JavaScript #Haskell #Java #Racket #Python #C
+ [[https://github.com/CypherpunkArmory/UserLAnd][UserLAnd: The easiest way to run a Linux distribution or application on
Android]]. #Linux #Android
+ [[https://alhassy.github.io/InteractiveWayToC/][An interactive way to C]]. ~ Musa Al-hassy. #Programming #C #Emacs #Org_mode
+ [[http://www.howardism.org/Technical/Emacs/eshell-present.html][Presenting the Eshell]]. ~ Howard Abrams. #Emacs
+ [[https://williamyaoh.com/posts/2019-05-27-string-interpolation-and-overlapping-instances.html][String interpolation and overlapping instances]]. ~ William Yao. #Haskell
#FunctionalProgramming
+ [[https://vadosware.io/post/countmin-sketch-in-haskell/][Count-Min sketch in Haskell]]. ~ Victor Adossi. #Haskell #FunctionalProgramming
+ [[https://github.com/theindigamer/not-a-blog/blob/5ee43179fe4b148bd8c61680112b4e9e048481fc/opinionated-haskell-guide-2019.md][An opinionated beginner’s guide to Haskell in mid 2019]]. ~ Varun
Gandhi. #Haskell #FunctionalProgramming
+ [[http://neilmitchell.blogspot.com/2019/04/foldr-under-hood.html][foldr under the hood]]. ~ Neil Mitchell. #Haskell #FunctionalProgramming
+ [[https://typeclasses.com/python/itertools-zipping][Transition to Haskell from Python: Zipping]]. ~ Chris Martin,
Julie Moronuki. #Python #Haskell
+ [[http://www3.risc.jku.at/publications/download/risc_5930/Paper.pdf][Theorema-HOL: Classical Higher-Order Logic in Theorema]]. ~ A. Maletzky. #ITP
#TheoremaHOL
+ [[https://copilot-language.github.io/copilot_tutorial.pdf][An introduction to Copilot]]. ~ F. Dedden et als. #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1906.06805][Neural theorem provers do not learn rules without exploration]]. ~ M. de Jong,
F. Sha. #ATP #MachineLearning
+ [[https://www.isa-afp.org/entries/Linear_Inequalities.html][Linear inequalities in Isabelle/HOL]]. ~ R. Bottesch, A. Reynaud,
R. Thiemann. #ITP #IsabelleHOL #Math
+ [[https://medium.com/@daltonjlundy/verifying-fold-using-monoids-in-coq-766e9eaa3893][Verifying fold using Monoids in Coq]]. ~ Dalton Lundy. #ITP #Coq
#FunctionalProgramming
+ [[https://gvolpe.github.io/blog/lessons-learned-while-writing-a-haskell-app/][Lessons learned while writing a Haskell application]]. ~ G. Volpe. #Haskell
#FunctionalProgramming
+ [[https://github.com/adjoint-io/galois-field#readme][An efficient implementation of Galois fields]]. ~ Stephen Diehl. #Haskell
#FunctionalProgramming #Math
+ [[https://argumatronic.com/posts/2019-06-21-algebra-cheatsheet.html][A brief guide to a few algebraic structures]]. ~ Julie Moronuki. #Math #Haskell
#FunctionalProgramming
+ [[http://www.philipzucker.com/why-i-as-of-june-22-2019-think-haskell-is-the-best-general-purpose-language-as-of-june-22-2019/][Why I (as of June 22 2019) think Haskell is the best general purpose language
(as of June 22 2019)]]. ~ Philip Zucker. #Haskell
#FunctionalProgramming
+ [[http://hiphish.github.io/blog/2019/06/22/what-is-a-programmable-programming-language/][What is a programmable programming language? ~ A]]. Sanchez. #Programming #Lisp
+ [[https://mauriciotejada.com/introduccion-a-la-programacion-en-julia/][Introducción a la programación en Julia]]. ~ Mauricio M. Tejada. #JuliaLang
+ [[https://phys.org/news/2019-06-mathematical-proof-isnt-intellectual.html][A mathematical proof isn't just an intellectual exercise]]. ~ D. Holland. #Math
+ [[http://theconversation.com/en-busca-de-una-nueva-definicion-para-la-inteligencia-de-las-maquinas-118742][En busca de una nueva definición para la inteligencia de las máquinas]]. ~ Luis
Ignacio Hojas Hojas. #IA
+ [[https://www.isa-afp.org/entries/Differential_Game_Logic.html][Differential game logic in Isabelle/HOL]]. ~ André Platzer. #ITP #IsabelleHOL
+ [[https://mmhaskell.com/blog/2019/6/24/taking-a-shortcut][Taking a shortcut!]] ~ James Bowen. #Haskell #FunctionalProgramming
+ [[https://jonathanabennett.github.io/blog/2019/06/20/python-and-emacs-pt.-1/][Python and Emacs Pt]]. 1. ~ Jonathan Bennett. #Emacs #Python
+ [[https://arxiv.org/abs/1906.08084][LiFtEr: Language to encode induction heuristics for Isabelle/HOL]]. ~
Y. Nagashima. #ITP #IsabelleHOL
+ [[http://adam.chlipala.net/theses/cshao.pdf][A framework for specifying and formally verifying application security
policies]]. ~ C. Shao. #Msc_Thesis #ITP #Coq
+ [[http://mizar.org/fm/fm27-2/field_1.pdf][On roots of polynomials over F(X)/<p>]]. ~ C. Schwarzweller. #ITP #Mizar #Math
+ [[https://blog.sigplan.org/2019/06/24/ai-safety-as-a-pl-problem/][AI safety as a PL problem]]. ~ Swarat Chaudhuri. #AI #FormalVerification
#MachineLearning
+ [[https://typeclasses.com/python/data-classes][Transition to Haskell from Python: Data classes]]. ~ Chris Martin
, Julie Moronuki. #Python #Haskell
+ [[https://reasonablypolymorphic.com/blog/typeholes/index.html][Implement with types, not your brain!]] #Haskell #FunctionalProgramming
+ [[http://dc.sigedep.exactas.uba.ar/media/academic/grade/thesis/tesis-gonzalez-final.pdf][Evaluación de implementaciones alternativas de colas concurrentes en Haskell]].
~ T.A: González. #Haskell
+ [[http://www.cs.nott.ac.uk/~pszgmh/clairvoyant.pdf][Call-by-need is clairvoyant call-by-value]]. ~ J. Hackett,
G. Hutton. #FunctionalProgramming
+ [[https://alhassy.github.io/ElispCheatSheet][Elisp reference sheet (Quick reference to the core language of Emacs)]]. ~ Musa
Al-hassy. #Programminf #Lisp #Elisp #Emacs
+ [[https://proofcraft.org/blog/isabelle-style.html][Gerwin's style guide for Isabelle/HOL. Part 1: Good proofs]]. ~ Gerwin
Klein. #ITP #IsabelleHOL
+ [[https://proofcraft.org/blog/isabelle-style-part2.html][Gerwin's style guide for Isabelle/HOL. Part 2: Good style]]. ~ Gerwin
Klein. #ITP #IsabelleHOL
+ [[http://www.cse.unsw.edu.au/~cs4161/18s2/lect.html][Course: Advanced topics in software verification]]. ~ Gerwin Klein, June
Andronick, Christine Rizkallah, Miki Tanaka. #ITP #IsabelleHOL
+ [[https://www.tweag.io/posts/2019-06-27-cpp-considered-harmful.html][CPP considered harmful]]. ~ Mathieu Boespflug. #Haskell #FunctionalProgramming
+ [[https://medium.com/@erights/the-tragedy-of-the-common-lisp-why-large-languages-explode-4e83096239b9][The tragedy of the Common Lisp: Why large languages explode]]. ~ Mark
Miller. #Programming
+ [[http://news.mit.edu/2019/toward-artificial-intelligence-that-learns-to-write-code-0614][Toward artificial intelligence that learns to write code]]. ~
K. Martineau. #Programming #AI #DeepLearning
+ [[https://arxiv.org/abs/1902.06349.pdf][Learning to infer program sketches]]. ~ M. Nye et als. #Programming #AI
#DeepLearning
+ [[https://www.tfp2019.org/resources/tfp2019-how-to-specify-it.pdf][How to specify it! (A guide to writing properties of pure functions)]]. ~ John
Hughes. #Haskell #FunctionalProgramming
+ [[https://dl.acm.org/citation.cfm?id=3314221.3314642][Gen: A general-purpose probabilistic programming system with programmable
inference]]. ~ M.F. Cusumano-Towner et als. #AI #JuliaLang
+ [[https://www.isa-afp.org/entries/Priority_Search_Trees.html][Priority search trees im Isabelle/HOL]]. ~ P. Lammich, T. Nipkow. #ITP
#IsabelleHOL
+ [[https://www.isa-afp.org/entries/Prim_Dijkstra_Simple.html][Purely functional, simple, and efficient implementation of Prim and Dijkstra
in Isabelle/HOL]]. ~ P. Lammich, T. Nipkow. #ITP #IsabelleHOL
+ [[https://www.isa-afp.org/entries/Complete_Non_Orders.html][Complete non-orders and fixed points in Isabelle/HOL]]. ~ A. Yamada, and
J. Dubut. #ITP #IsabelleHOL
+ [[http://www.andrew.cmu.edu/user/avigad/Papers/method.pdf][Mathematical method and proof]]. ~ Jeremy Avigad. #ITP #IsabelleHOL #Logic #Math
+ [[https://typeclasses.com/art/juliaset][A Julia set generator]]. ~ Chris
Martin, Julie Moronuki. #Haskell #FunctionalProgramming
** Julio 2019
+ [[http://bit.ly/2ZZwFJp][Bar-Hillel theorem mechanization in Coq]]. ~ S. Bozhko, L. Khatbullina,
S.Grigorev. #ITP #Coq
+ [[https://mybinder.org/v2/gh/jamesdbrock/learn-you-a-haskell-notebook/master?urlpath=lab/tree/learn_you_a_haskell/00-preface.ipynb][Jupyter adaptation of "Learn you a Haskell for great good!"]] ~ James
Brock. #Haskell #FunctionalProgramming #Jupyter
+ [[http://www.cs.nott.ac.uk/~pszgmh/fowler.pdf][Property-based testing]]. ~ J. Fowler. #PhD_Thesis #Haskell
#FunctionalProgramming
+ [[https://hcommons.org/deposits/download/hc:24984/CONTENT/util.pdf][An introduction to computer science research: selected papers with
commentary]]. ~ Camille Akmut. #CompSci
+ [[http://www.chargueraud.org/research/2019/cycle_detect/cycle_detect.pdf][Formal proof and analysis of an incremental cycle detection algorithm]]. ~
A. Guéneau, J.H. Jourdan, A. Charguéraud, F. Pottier. #ITP #Coq
+ [[https://www.ssrg.ece.vt.edu/papers/safecomp19.pdf][Formal verification of memory preservation of x86-64 binaries]]. ~
J.A. Bockenek, F. Verbeek, P. Lammich, B. Ravindran. #ITP #IsabelleHOL
+ [[https://mmhaskell.com/blog/2019/7/1/gloss-review][Monday Morning Haskell: Gloss review!]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://blog.sigplan.org/2019/07/01/secure-compilation][Secure compilation]]. ~ C. Hritcu et als. #Programming
+ [[https://arxiv.org/abs/1907.00205][The Ramanujan machine: Automatically generated conjectures on fundamental
constants]]. ~ G. Raayoni et als. #MachineLearning #Math
+ [[https://arxiv.org/abs/1904.02809][Proving tree algorithms for succinct data structures]]. ~ R. Affeldt,
J. Garrigue, X. Qi, K. Tanaka. #ITP #Coq
+ [[https://arxiv.org/abs/1907.01449][Formalizing the solution to the cap set problem]]. ~ S.R. Dahmen, J. Hölzl,
R.Y. Lewis. #ITP #LeanProver
+ [[http://www.cs.bham.ac.uk/~mhe/agda-new/index.html][Various new theorems in constructive univalent mathematics written in Agda]]. ~
Martin Escardo. #ITP #Agda #Math
+ [[https://arxiv.org/abs/1906.11718v1][On solving word equations using SAT]]. ~ Joel D. Day et als. #ATP #SAT
+ [[https://chshersh.github.io/type-errors][A story told by type errors]]. ~ Dmitrii Kovanikov. #Haskell
#FunctionalProgramming
+ [[http://penkovsky.com/categories/10-days-of-grad][10 days of neural networks in Haskell]]. Bogdan Penkovsky. #Haskell
#FunctionalProgramming #NeuralNetworks
+ [[https://youtu.be/Nvw74z8uQVU][A taste of type theory]]. ~ Bartosz Milewski. #TypeTheory
#FunctionalProgramming
+ [[https://arxiv.org/abs/1907.01297][Neural network verification for the masses (of AI graduates)]]. ~
E. Komendantskaya et als. #AI #Verification #ITP #Coq #ATP #SMT #Z3
#NeuralNetworks
+ [[https://www.isa-afp.org/entries/MFOTL_Monitor.html][Formalization of a monitoring algorithm for metric first-order temporal
logic]]. ~ J. Schneider, D. Traytel. #ITP #IsabelleHOL #Logic
+ [[https://competition.isabelle.systems/competitions/contest/11/][Proving for Fun: July 2019]]. #ITP #IsabelleHOL #Coq
+ [[http://mat.unb.br/~ayala/RiceThFormalization.pdf][Formalization of Rice's theorem over a functional language model]]. ~
T.M.F. Ramos, A.A- Almeida, M. Ayala-Rincón. #ITP #PVS
+ [[http://www.cs.nott.ac.uk/~pszgmh/improving.pdf][Improving Haskell]]. ~ M.A.T. Handley, G. Hutton. #Haskell
#FunctionalProgramming
+ [[https://byorgey.wordpress.com/2019/07/05/lightweight-invertible-enumerations-in-haskell/][Lightweight invertible enumerations in Haskell]]. ~ Brent Yorgey. #Haskell
#FunctionalProgramming
+ [[http://www.cs.ox.ac.uk/publications/publication12590-abstract.html][Coding with asymmetric numeral systems]]. ~ J. Gibbons. #Haskell
#FunctionalProgramming
+ [[https://kseo.github.io/posts/2016-06-01-learn-haskell-to-be-a-better-programmer.html][Learn Haskell to be a better programmer]]. ~ Kwang Yul Seo. #Haskell
#FunctionalProgramming
+ [[https://engineering.linecorp.com/en/blog/cutting-through-the-smog-making-an-air-quality-bot-with-haskell/][Cutting through the smog: making an air quality bot with Haskell]]. ~
A. Moreno. #Haskell #FunctionalProgramming
+ [[https://cs-syd.eu/posts/2019-06-28-microsmos][Microsmos: Writing a simple tree-editor with brick]]. ~ Tom Sydney
Kerckhove. #Haskell #FunctionalProgramming
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?TFPIE2018.6][Examples and results from a BSc-level course on domain specific languages of
mathematics]]. ~ P. Jansson, S.H. Einarsdóttir, C. Ionescu. #Haskell
#FunctionalProgramming #Math
+ [[https://dspace.library.uu.nl/bitstream/handle/1874/380853/thesis.pdf][Generic diffing and merging of mutually recursive datatypes in Haskell]]. ~
A. van Putten. #Msc_Thesis #Haskell #FunctionalProgramming
+ [[https://blog.sigplan.org/2019/07/03/s-stands-for-shock-the-european-funders-proposal-for-open-access][S Stands for Shock: The European funders’ proposal for Open Access]]. ~ Jeremy
Gibbons.
+ [[https://www.cs.princeton.edu/~appel/papers/funspec_sub.pdf][Abstraction and subsumption in modular verification of C programs]]. ~
A.W. Appel, L. Beringer. #ITP #Coq
+ [[https://dataspace.princeton.edu/jspui/bitstream/88435/dsp010r9676504/1/Cao_princeton_0181D_12718.pdf][Separation-logic-based program verification in Coq]]. ~ Qinxiang
Cao. #PhD_Thesis #ITP #Coq
+ [[https://xenaproject.wordpress.com/2019/07/06/a-computer-generated-proof-that-nobody-understands/][A computer-generated proof that nobody understands]]. ~ Kevin Buzzard. #ATP
#Math
+ [[http://dev.stephendiehl.com/fun/][Write you a Haskell (Building a modern functional compiler from first
principles)]]. ~ Stephen Diehl. #Haskell #FunctionalProgramming
+ [[https://github.com/JKTKops/Write-You-a-Haskell-2][A continuation of Stephen Diehl's "Write you a Haskell"]]. #Haskell
#FunctionalProgramming
+ [[https://www.researchgate.net/publication/334190273_Lemma_Discovery_for_Induction_A_Survey][Lemma discovery for induction: A survey]]. ~ Moa Johansson. #Haskell
+ [[https://arxiv.org/abs/1907.02836][From LCF to Isabelle/HOL]]. ~ L.C. Paulson, T. Nipkow, M. Wenzel. #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1907.02594][Domain-specific language to encode induction heuristics]]. ~ Yutaka
Nagashima. #ITP #IsabelleHOL
+ [[https://mmhaskell.com/blog/2019/7/8/preparing-for-simulation-player-ai][Preparing for simulation: Player AI]]. ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://odone.io/posts/2019-07-08-scripting-in-haskell-and-purescript.html][Scripting in Haskell and PureScript]]. ~ Riccardo Odone. #Haskell #PureScript
+ [[https://essay.utwente.nl/78694/][A formal proof of the termination of Zielonka's algorithm for solving parity
games]]. ~ R. Abraham. #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1711.06542][Mechanizing Principia Logico-Metaphysica in functional type theory]]. ~
D. Kirchner, C. Benzmüller, E.N. Zalta. #ITP #IsabelleHOL
+ [[https://colinzwanziger.com/wp-content/uploads/2019/06/Mathematics_of_Language_2019.pdf][Dependently-typed Montague semantics in the proof assistant Agda-flat]]. ~
C. Zwanziger. #ITP #Agda
+ [[https://www.researchgate.net/publication/332786587_IO_Logic_in_HOL][I/O logic in HOL]]. ~ C. Benzmüller, A. Farjami, P. Meder, X. Parent. #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1907.04408][SAT solvers and computer algebra systems: A powerful combination for
mathematics]]. ~ C. Bright, I. Kotsireas, V. Ganesh. #SAT #CAS #Math
+ [[https://functor.tokyo/blog/2019-07-11-announcing-world-peace][Open Sum Types in Haskell with world-peace]]. ~ Dennis Gosnell (Dennis
Gosnell). #Haskell #FunctionalProgramming
+ [[https://dkalemis.wordpress.com/2014/03/22/trees-as-monads/][Trees as monads]]. ~ Dimitrios Kalemis. #Haskell #FunctionalProgramming
+ [[https://crypto.stanford.edu/~blynn/lambda/][Lambda calculus]]. ~ Ben Lynn. #LambdaCalculus #Haskell #FunctionalProgramming
+ [[https://www.jair.org/index.php/jair/article/view/11524][REBA: A refinement-based architecture for knowledge representation and
reasoning in robotics]]. ~ M. Sridharan, M. Gelfond, S. Zhang, J. Wyatt. #AI
#KRR #ASP
+ [[https://www.jair.org/index.php/jair/article/view/11529][Dependency learning for QBF]]. ~ T. Peitl, F. Slivovsky, S. Szeider. #AI
+ [[https://blog.sigplan.org/2019/07/09/my-first-fifteen-compilers/][My first fifteen compilers]]. ~ Lindsey Kuper. #Programming #Compilers #Nanopass
+ [[https://lars.hupel.info/pub/isabelle-cakeml.pdf][A verified compiler from Isabelle/HOL to CakeML]]. ~ L. Hupel, T. Nipkow. #ITP
#Isabelle/HOL
+ [[https://mpickering.github.io/papers/multi-stage-programs-in-context.pdf][Multi stage programming in context]]. ~ M. Pickering, N. Wu, C. Kiss. #Haskell
#FunctionalProgramming
+ [[https://mpickering.github.io/papers/working-with-source-plugins.pdf][Working with source plugins]]. ~ M. Pickering, N. Wu, B. Németh. #Haskell
#FunctionalProgramming
+ [[https://arxiv.org/abs/1907.04065][Trustworthy graph algorithms]]. ~ M. Abdulaziz, K. Mehlhorn, T. Nipkow. #ITP
#IsabelleHOL
+ [[http://minikanren.org/workshop/2019/minikanren19-final5.pdf][Certified semantics for miniKanren]]. ~ D. Rozplokhas, A. Vyatkin,
D. Boulytchev. #ITP #Coq
+ [[https://hal.inria.fr/hal-02176456/document][(Co) inductive proof systems for compositional proofs in reachability logic]]. ~ V. Rusu, D. Nowak. #ITP #IsabelleHOL #Coq
+ [[https://blog.sigplan.org/2019/07/12/gradual-typing-theory-practice/][Gradual typing from theory to practice]]. ~ Sam Tobin-Hochstadt. #Programming
+ [[http://essay.utwente.nl/78785/1/VriesDe_BA_EEMCS.pdf][Walker: Automated assessment of Haskell code using syntax tree analysis]]. ~
R.H. de Vries. #Haskell #FunctionalProgramming
+ [[https://peerj.com/articles/7223/][BioShake: a Haskell EDSL for bioinformatics workflows]]. ~ J. Bedő. #Haskell
#FunctionalProgramming
+ [[https://omelkonian.github.io/data/publications/music-grammars.pdf][Music as language (Putting probabilistic temporal graph grammars to good
use)]]. ~ O. Melkonian #Haskell #FunctionalProgramming #Music
+ [[https://arxiv.org/abs/1907.04134][A bridge anchored on both sides: Formal deduction in introductory CS, and code
proofs in discrete math]]. ~ D.G. Wonnacott, P.M. Osera. #Logic #Math #ITP #Coq
#Haskell
+ [[https://www.cister.isep.ipp.pt/docs/experimental_evaluation_of_formal_software_development_using_dependently_typed_languages/1534/view.pdf][Experimental evaluation of formal software development using dependently typed
languages]]. ~ F. Tamasi. #ITP #Coq #Agda
+ [[https://treszkai.github.io/2019/07/13/haskell-eval][Evaluation of function calls in Haskell]]. ~ Laszlo Treszkai. #Haskell
#FunctionalProgramming
+ [[https://doisinkidney.com/pdfs/bsc-thesis.pdf][Automatically and efficiently illustrating polynomial equalities in Agda]]. ~
Donnacha Oisín Kidney. #Bachelor_Thesis #ITP #Agda
+ [[https://medium.com/@cdsmithus/building-and-debugging-frp-with-codeworld-and-reflex-a912083e66c1][Building and debugging FRP with CodeWorld and Reflex]]. ~ Chris Smith. #Haskell
#CodeWorld
+ [[https://gist.github.com/javierdaza/4258b74e2eb7cfd4f55286061b592f37][El zen de Python: Explicado y con ejemplos]]. ~ Javier Daza.
#Programación #Python
+ [[https://medium.com/@Pythonidaer/a-brief-analysis-of-the-zen-of-python-2bfd3b76edbf][A brief analysis of “The zen of Python”]]. ~ Jonathan Hammond
#Programming #Python
+ [[https://dl.acm.org/citation.cfm?id=3322004][Genetic algorithms as shrinkers in property-based testing]]. ~ F.Y. Lo,
C.H. Chen, Y. Chen. #ITP #Coq
+ [[http://drops.dagstuhl.de/opus/volltexte/2019/10816/pdf/LIPIcs-ECOOP-2019-24.pdf][Julia's efficient algorithm for subtyping unions and covariant tuples]]. ~ B
Chung, F. Zappa Nardelli, J. Vitek. #ITP #Coq #JuliaLang
+ [[https://www.cs.princeton.edu/~appel/papers/safe-closure.pdf][Closure conversion is safe for space]]. ~ Z. Paraskevopoulou, A.W. Appel. #ITP
#Coq
+ [[https://mmhaskell.com/blog/2019/7/15/advanced-search-with-drilling][Advanced search with drilling!]] ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[https://write.as/dani/writing-a-phd-thesis-with-org-mode][Writing a PhD thesis with Org Mode]]. ~ Daniel Gomez. #Emacs #Org_mode
+ [[https://github.com/dangom/org-thesis][Writing a Ph.D. thesis with Org Mode (emplate repository)]]. ~ Daniel
Gomez. #Emacs #Org_mode
+ [[http://joostkremers.github.io/ebib][ebib: A BibTeX database manager for Emacs]]. #Emacs #LaTeX
+ [[https://rjlipton.wordpress.com/2019/07/16/summer-reading-in-theory/][Summer reading in theory]]. R.J. Lipton, K.W. Regan. #CompSci
+ [[https://www.tweag.io/posts/2019-07-17-codestatistics.html][Revelations from repetition: Source code headers in Haskell and Python]]. ~
S. Carstens, M. Meschede. #Haskell #Python
+ [[https://www.gaussianos.com/una-interesante-introduccion-a-la-logica-difusa][Una interesante introducción a la lógica difusa]]. ~ Carlos Bejines. #Lógica
#Matemáticas
+ [[https://www.isa-afp.org/entries/FOL_Seq_Calc1.html][A sequent calculus for first-order logic in Isabelle/HOL]]. ~ Andreas Halkjær
From. #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1907.07885][Formal verification of trading in financial markets]]. #ITP #Coq
+ [[https://ro-che.info/articles/2019-07-19-decompose-contt][Decompose ContT]]. ~ Roman Cheplyaka. #Haskell #FunctionalProgramming
+ [[https://serokell.io/blog/dimensions-haskell-singletons][Dimensions and Haskell: Singletons in action]]. ~ R. Stryungis,
D. Rogozin. #Haskell #FunctionalProgramming
+ [[https://towardsdatascience.com/elements-of-functional-programming-in-python-1b295ea5bbe0][Elements of functional programming in Python]]. ~ Parul Pandey. #Python
#FunctionalProgramming
+ [[http://eprints.whiterose.ac.uk/148557/1/UTP2019.pdf][Hybrid relations in Isabelle/UTP]]. ~ S.D. Foster. #ITP #IsabelleHOL
+ [[http://lcs.ios.ac.cn/~znj/papers/CAV2019b.pdf][Formal verification of quantum algorithms using quantum Hoare logic]]. ~ J. Liu
et als. #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1907.05523][Towards a verified model of the Algorand consensus protocol in Coq]]. ~
M.A. Alturki, J. Chen, V. Luchangco, B. Moore. #ITP #Coq
+ [[http://www.mat.unb.br/ayala/C_NominalUnif_PVS.pdf][A certified functional nominal C-unification]]. ~ M. Ayala-Rincón et als. #ITP
#PVS
+ [[http://www.staff.science.uu.nl/~swier004/publications/2019-icfp-tim.pdf][A predicate transformer semantics for effects (Functional pearl)]]. ~
W. Swierstra, T. Baanen. #ITP #Agda
+ [[https://richarde.dev/papers/2019/kind-inference/kind-inference.pdf][Kind inference for datatypes]]. ~ N. Xie, R.A. Eisenberg,
B.C.D.S. Oliveira. #Haskell #FunctionalProgramming
+ [[http://www.staff.science.uu.nl/~swier004/publications/2019-tyde-cas.pdf][Generic enumerators]]. ~ C. van der Rest, W. Swierstra, M. Chakravarty. #Haskell
#FunctionalProgramming
+ [[http://www.vex.net/~trebla/haskell/IO.xhtml][Haskell I/O tutorial]]. ~ Albert Y. C. Lai. #Haskell #FunctionalProgramming
+ [[https://stackabuse.com/mathematical-proof-of-algorithm-correctness-and-efficiency/][Mathematical proof of algorithm correctness and efficiency]]. ~ Vladimir
Batoćanin. #CompSci #Algorithms
+ [[https://ro-che.info/articles/2019-07-22-associativity-of-fmap][A curious associativity of the <$> operator]]. ~ Roman Cheplyaka. #Haskell
#FunctionalProgramming
+ [[https://mmhaskell.com/blog/2019/7/22/analyzing-our-parameters][Analyzing our parameters]]. ~ James Bowen #Haskell #FunctionalProgramming
+ [[https://kowainik.github.io/posts/membrain][Insane in the Membrain]]. ~ Veronika Romashkina. #Haskell #FunctionalProgramming
+ [[http://homepage.divms.uiowa.edu/~astump/cedille/lola19.pdf][Rediscovering constructive type theory with Cedille]]. ~ Aaron Stump. #Haskell
#Cedille
+ [[https://cacm.acm.org/careers/238281-making-it-easier-to-program-and-protect-the-web/fulltext][Making it easier to program and protect the Web]]. #CompSci
+ [[http://lisp-univ-etc.blogspot.com/2019/07/programming-algorithms-book.html]["Programming Algorithms" Book]]. ~ Vsevolod Dyomkin. #Programming #Lisp
#Algorithms
+ [[https://www.marsja.se/how-to-use-binder-python-for-reproducible-research/][How to use Binder and Python for reproducible research]]. ~ Erik Marsja. #Binder
#Docker #Jupyter #Python
+ [[https://arxiv.org/abs/1907.07794][Generating correctness proofs with neural networks]]. ~ A. Sanchez-Stern et
als. #ITP #NeuralNetworks
+ [[https://arxiv.org/abs/1907.10674][Towards a smart contract verification framework in Coq]]. ~ D. Annenkov,
B. Spitters. #ITP #Coq
+ [[https://dev.to/riccardoodone/building-a-blog-in-haskell-with-yesod-using-a-database-41ip][Building a blog in Haskell with Yesod–using a database]]. ~ R. Odone. #Haskell
#FunctionalProgramming
+ [[https://dev.to/erwald/euclidean-rhythms-and-haskell-5ecj][Euclidean rhythms and Haskell]]. ~ Erich Grunewald. #Haskell
#FunctionalProgramming
+ [[https://github.com/bollu/blaze/blob/75c4ab5c17bda3b751f0d328b19064a2ce1eccfe/notebooks/tutorial.ipynb][A weekend replication of STOKE, a stochastic superoptimiser]]. #Haskell
#FunctionalProgramming
+ [[https://github.com/hadolint/hadolint][Haskell Dockerfile linter: A smarter Dockerfile linter that helps you build
best practice Docker images]]. #Docker #Haskell #FunctionalProgramming
+ [[https://queuea9.wordpress.com/2019/07/25/in-praise-of-strong-fp/][In praise of strong FP]]. ~ Aaron Stump. #FunctionalProgramming
+ [[https://github.com/Bodigrim/poly][Fast polynomial arithmetic in Haskell]]. #Haskell #FunctionalProgramming
+ [[https://www.theatlantic.com/magazine/archive/2019/08/henry-kissinger-the-metamorphosis-ai/592771/][The AI metamorphosis]]. ~ Henry A. Kissinger, Eric Schmidt, Daniel
Huttenlocher. #AI
+ [[https://www.lemonde.fr/blog/binaire/2019/07/26/demonstrations-mathematiques-et-programmes-informatiques/][Langages des maths, langages de l’informatique]]. #Math #CompSi
+ [[https://www.quantamagazine.org/mathematician-solves-computer-science-conjecture-in-two-pages-20190725/][Decades-old computer science conjecture solved in two pages]]. ~ Erica
Klarreich. #Math #CompSci
+ [[https://www.irif.fr/~sozeau/research/publications/drafts/Coq_Coq_Codet.pdf][Coq Coq Codet! (Towards a Verified Toolchain for Coq in MetaCoq)]]. ~ M. Sozeau
et als. #ITP #Coq
+ [[https://www.degruyter.com/downloadpdf/j/forma.2019.27.issue-2/forma-2019-0020/forma-2019-0020.xml][Formalization of the MRDP theorem in the Mizar system]]. ~ K. Pąk. #ITP #Mizar
#Math
+ [[https://www.degruyter.com/view/j/forma.2019.27.issue-2/forma-2019-0017/forma-2019-0017.xml][Partial correctness of a factorial algorithm]]. ~ A. Jaszczak,
A. Korniłowicz. #ITP #Mizar
+ [[https://www.degruyter.com/downloadpdf/j/forma.2019.27.issue-2/forma-2019-0015/forma-2019-0015.xml][Natural addition of ordinals]]. ~ S. Koch. #ITP #Mizar #Math
+ [[https://cris.vub.be/files/46086326/paper.pdf][Modular effects in Haskell through effect polymorphism and explicit dictionary
applications]]. ~ D. Devriese. #Haskell #FunctionalProgramming
+ [[http://www.cs.ox.ac.uk/ACT2019/preproceedings/Genovese%2520Gryzlov%2520Herold%2520Knispel%2520Perone%2520Post%2520and%2520Videla.pdf][idris-ct: A library to do category theory in Idris]]. ~ F. Genovese et
als.. #Idris #CategoryTheory
+ [[https://www.isa-afp.org/entries/Szpilrajn.html][Szpilrajn extension theorem in Isabelle/HOL]]. ~ P. Zeller. #ITP #IsabelleHOL
#Math
+ [[https://observablehq.com/@bryangingechen/fibonacci-formalized-1-some-sums][Fibonacci formalized 1: some sums]]. ~ Bryan Gin-ge Chen. #ITP #LeanProver #Math
+ [[http://www.timphilipwilliams.com/posts/2019-07-25-minecraft.html][Generating castles for Minecraft using Haskell]]. ~ Tim Philip
Williams. #Haskell #FunctionalProgramming
+ [[https://cs-syd.eu/posts/2019-07-28-cursors-forest][Cursors, part 6: The forest cursor]]. ~ Tom Sydney Kerckhove. #Haskell
#FunctionalProgramming
+ [[https://summer.haskell.org/news/2019-07-26-testing-bipartiteness.html][Testing bipartiteness with monad transformers]]. ~ Vasily Alferov. #Haskell
#FunctionalProgramming
+ [[https://medium.com/@cdsmithus/solving-a-puzzle-in-haskell-8216a683555][Solving a puzzle in Haskell]]. ~ Chris Smith. #Haskell #FunctionalProgramming
#CodeWorld
+ [[https://kodimensional.dev/recordwildcards][The power of RecordWildCards]]. ~ Dmitrii Kovanikov. #Haskell
#FunctionalProgramming
+ [[http://lisp-univ-etc.blogspot.com/2019/07/crash-course-in-lisp.html][Programming algorithms: A crash course in Lisp]]. ~ Vsevolod
Dyomkin. #CommonLisp
+ [[https://dspace.library.uu.nl/bitstream/handle/1874/382131/thesis.pdf][Formalizing extended UTxO and BitML calculus in Agda]]. ~ O Melkonian. #ITP
#Agda
+ [[https://arxiv.org/abs/1907.11501][Extensional higher-order paramodulation in Leo-III]]. ~ A. Steen,
C. Benzmüller. #ITP #Leo_III
+ [[https://www.manning.com/books/functional-programming-in-scala][Functional programming in Scala]]. ~ P. Chiusano, R. Bjarnason. #eBook
#FunctionalProgramming #Scala
+ [[https://arxiv.org/abs/1803.06494][Attack trees in Isabelle]]. ~ F. Kammüller. #ITP #IsabelleHOL
+ [[https://typeclasses.com/news/2019-07-phrasebook][Introducing the Haskell Phrasebook]]. ~ Chris Martin. #Haskell
#FunctionalProgramming
+ [[https://typeclasses.com/phrasebook][The Haskell Phrasebook]]. ~ Chris Martin, Julie Moronuki. #Haskell
#FunctionalProgramming
+ [[https://bor0.wordpress.com/2019/07/30/arithmetic-on-algebraic-data-types/][Arithmetic on algebraic data types]]. ~ Boro Sitnikovski. #Haskell
#FunctionalProgramming #Math
+ [[https://www.nature.com/articles/d41586-019-02310-3][Julia: come for the syntax, stay for the speed]]. ~ J.M. Perkel. #Programming
#JuliaLang
+ [[http://revue.sesamath.net/spip.php?article1248][Les algorithmes du nouveau lycée technologique, en Python]]. ~ Alain
Busser. #Programming #Python
** Agosto 2019
+ [[https://www.isa-afp.org/entries/TESL_Language.html][A formal development of a polychronous polytimed coordination language]]. ~
H. Nguyen Van, F. Boulanger, B. Wolff. #ITP #IsabelleHOL
+ [[http://www.tyconmismatch.com/papers/itp2019_ll1.pdf][A verified LL(1) parser generator]]. ~ S. Lasser et als. #ITP #Coq
+ [[https://www-ps.informatik.uni-kiel.de/~sad/haskell2019-preprint.pdf][Verifying effectful Haskell programs in Coq]]. ~ J. Christiansen, S. Dylus,
N. Bunkenburg. #ITP #Coq #Haskell
+ [[https://chrisdone.com/posts/clientside-programming-haskell/][Client-side web programming in Haskell: A retrospective]] ~ Chris Done. #Haskell
#FunctionalProgramming
+ [[https://www.ahri.net/2019/07/practical-event-driven-and-sourced-programs-in-haskell/][Practical event driven & sourced programs in Haskell]]. ~ Adam Piper. #Haskell
#FunctionalProgramming
+ [[https://serokell.io/blog/haskell-love-story][Haskell: A functional love story]]. ~ Ilya Peresadin. #Haskell
#FunctionalProgramming
+ [[https://ocharles.org.uk/blog/posts/2018-12-25-fast-downward.html][Solving planning problems with Fast Downward and Haskell]]. ~ Ollie
Charles. #Haskell #AI
+ [[https://www.tweag.io/posts/2019-08-01-codestatistics-umap.html][Code line patterns: Creating maps of Stackage and PyPi]]. ~ Simeon Carstens,
Matthias Meschede. #Haskell #Python
+ [[https://elpais.com/elpais/2019/07/29/ciencia/1564394653_192603.html][Los intereses comerciales marcan el futuro de la inteligencia artificial]]. ~
Javier Salas. #IA
+ [[https://xenaproject.wordpress.com/2019/08/01/imo-2019-q1/][IMO 2019 Q1]]. ~ Kevin Buzzard. #ITP #LeanProver #Math
+ [[https://well-typed.com/blog/2019/08/exploring-cloud-builds-in-hadrian/][Exploring cloud builds in Hadrian]]. ~ David Eichmann. #Haskell
+ [[https://blog.sigplan.org/2019/07/31/program-synthesis-in-2019/][Program synthesis in 2019]]. ~ James Bornholt. #ProgramSynthesis
#FormalVerification #ATP
+ [[https://dorchard.blog/2019/08/02/considering-the-order-of-results-when-computing-cartesian-product-short/][Considering the order of results when computing Cartesian product]]. ~ Dominic
Orchard. #Haskell #FunctionalProgramming
+ [[https://www.researchgate.net/profile/Angeliki_Koutsoukou-Argyraki/publication/334549483_FORMALISING_MATHEMATICS_-IN_PRAXIS_A_MATHEMATICIAN%27S_VERY_FIRST_EXPERIENCES_WITH_ISABELLEHOL/links/5d30f782299bf1547cc25f63/FORMALISING-MATHEMATICS-IN-PRAXIS-A-MATHEMATICIANS-VERY-FIRST-EXPERIENCES-WITH-ISABELLE-HOL.pdf][Formalising Mathematics-in praxis; A mathematician's very first experiences
with Isabelle/HOL]]. ~ A. Koutsoukou-Argyraki. #ITP #IsabelleHOL #Math
+ [[https://www.ps.uni-saarland.de/Publications/documents/Schaefer_2019_Engineering.pdf][Engineering formal systems in constructive type theory]]. ~
S. Chafar. #PhD_Thesis #ITP #Coq
+ [[https://arxiv.org/abs/1907.11354][Lazy stream programming in Prolog]]. ~ P- Tarau, J. Wielemaker,
T. Schrijvers. #Prolog #LogicProgramming
+ [[https://medium.com/permutive/optimized-docker-builds-for-haskell-76a9808eb10b][Optimized Docker builds for Haskell Stack]]. ~ Tim Spence. #Haskell #Docker
+ [[https://kth.diva-portal.org/smash/get/diva2:1338661/FULLTEXT01.pdf][Comparing verification of list functions in LiquidHaskell and Idris]]. ~
A. Westerberg, G. Ung. #Haskell #LiquidHaskell #Idris #FunctionalProgramming
+ [[https://elpais.com/elpais/2019/08/01/ciencia/1564654546_001863.html][Dos debates sobre la inteligencia artificial]]. ~ Javier Sampedro. #IA
+ [[https://www.technologyreview.com/s/614057/china-squirrel-has-started-a-grand-experiment-in-ai-education-it-could-reshape-how-the/][China has started a grand experiment in AI education. It could reshape how the
world learns]]. ~ Noah Sheldon. #AI #Education
+ [[https://dl.acm.org/citation.cfm?id=3341690][Equations reloaded (high-level dependently-typed functional programming and
proving in Coq)]]. ~ M. Sozeau, C. Mangin. #ITP #Coq
+ [[https://dl.acm.org/citation.cfm?id=3341706][Higher-order type-level programming in Haskell]]. ~ C. Kiss, T. Field,
S. Eisenbach, S. Peyton Jones. #Haskell #FunctionalProgramming
+ [[https://vaibhavsagar.com/blog/2019/07/04/functional-devops/index.html][Functional DevOps in a Dysfunctional World]]. ~ Vaibhav Sagar. #Haskell #Nix
+ [[https://coq.discourse.group/t/survey-of-category-theory-in-coq/371][Survey of category theory in Coq]]. #ITP #Coq #Math
+ [[https://www.cs.mcgill.ca/~dto4/projects/gsoc-02-acc.html][Using the Accelerate library to implement Chebyshev functions]]. #Haskell
#FunctionalProgramming #Math
+ [[https://justtesting.org/post/186788963306/functional-blockchain-contracts][Functional Blockchain Contracts]]. ~ Manuel Chakravarty. #Haskell #Blockchain
+ [[https://blog.frankel.ch/exercises-programming-style/13/][Exercises in programming style: FP & I/O]]. ~ Nicolas Fränkel. #Programming
+ [[http://lisp-univ-etc.blogspot.com/2019/08/programming-algorithms-data-structures.html][Programming algorithms: Data structures]]. ~ Vsevolod Dyomkin. #Programming
#Lisp #Algorithms
+ [[https://www.birkey.co/2019-08-04-why-emacs.html][Why Emacs]]. ~ Kasim Tuman. #Emacs
+ [[http://bit.ly/31pCRLl][Selected problems from the International Mathematical Olympiad 2019 in
Isabelle/HOL]]. ~ Manuel Eberl. #ITP #IsabelleHOL #Math
+ [[http://bit.ly/31mOfaZ][Moving towards ML: Evaluation functions]]. ~ James Bowen. #Haskell
#FunctionalProgramming
+ [[http://bit.ly/2Kh2sk0][Building a better brain]]. ~ James Bowen. #Haskell #FunctionalProgramming
+ [[http://bit.ly/2M4YFIB][Communicating concurrent Kleene algebra for distributed systems
specification]]. ~ Maxime Buyse. #AFP #ITP #IsabelleHOL #Math
+ [[http://bit.ly/2Kz8kE8][Verifying finality for Blockchain systems]]. ~ Karl Palmskog et als. #ITP #Coq
#Blockchain
+ [[http://bit.ly/2KtZNCx][10 years seL4: Still the best, still getting better]]. ~ Gernot Heiser. #ITP
#IsabelleHOL
+ [[http://bit.ly/2M78khY][A Haskell implementation of Conway's Game of Life, viewable on the console, no
external libs]]. #Haskell #FunctionalProgramming
+ [[http://bit.ly/2KtVcQN][Formally justified and modular Bayesian inference for probabilistic
programs]]. ~ Adam Michał Ścibior. #PhD_Thesis #Haskell #FunctionalProgramming
+ [[http://bit.ly/2M4ZG3k][Una implementación en Haskell de un lenguaje funcional no determinista]]. ~
Manuel Velasco Suárez. #TFG #Haskell #FunctionalProgramming
+ [[http://bit.ly/2KzaxPW][A formally verified HOL algebra for dynamic reliability block diagrams]]. ~
Y. Elderhalli, O. Hasan, S. Tahar. #ITP #HOL4
+ [[http://bit.ly/33c9Ft4][What does it mean for a program analysis to be sound?]] ~ Ilya Sergey. | SIGPLAN
Blog #CompSci #Program_analysis
+ [[http://bit.ly/2ThrpyL][How Monoids are useful in programming?]] ~ @tsoding #Haskell
+ [[https://blog.jle.im/entry/simple-tcpip-services-servant.html][Dead-simple TCP/IP services using servant]]. ~ Justin Le. #Haskell #I1M2016
+ [[https://haskell-explained.gitlab.io/blog/posts/2019/07/31/polysemy-is-cool-part-2/index.html][Polysemy is fun! - Part 2]]. ~ Raghu Kaippully. #Haskell #FunctionalProgramming
+ [[http://bit.ly/2TdPPsS][The Ramanujan Machine: Automatically generated conjectures on fundamental
constants]]. ~ Gal Raayoni et als. #MachineLearning #Math
+ [[http://www.ramanujanmachine.com][The Ramanujan Machine: Using algorithms to discover new mathematics]].
#MachineLearning #Math
+ [[http://bit.ly/2Tekia7][Monte Carlo Tree Search in NetLogo]]. ~ F. Sancho. #NetLogo #IA
+ [[https://dl.acm.org/citation.cfm?id=3341704][Dependently typed Haskell in industry (experience report)]]. ~ David Thrane
Christiansen et als. #Haskell #FunctionalProgramming
+ [[https://thomashoneyman.com/articles/practical-profunctor-lenses-optics/][Practical profunctor lenses & optics in PureScript]]. ~ Thomas
Honeyman. #PureScript
+ [[http://krin.gs/publication/nogatz-linter-iclp19/nogatz-linter-iclp19.pdf][Prolog coding guidelines: Status and tool support]]. ~ F. Nogatz, P. Körner,
S. Krings. #Prolog #LogicProgramming
+ [[https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1007007][Ten simple rules for writing and sharing computational analyses in Jupyter
Notebooks]]. ~ A. Rule et als. #OpenScience #Jupyter
+ [[https://www.fpcomplete.com/blog/2017/12/building-haskell-apps-with-docker][Building Haskell Apps with Docker]]. ~ Deni Bertovic . #Haskell #Docker
+ [[https://freecontent.manning.com/basic-text-processing-in-functional-style/][Basic text processing in functional style]]. ~ Vitaly Bragilevsky. #Haskell
#FunctionalProgramming
+ [[http://bit.ly/2OPRNkR][Intro to Web Prolog for erlangers]]. ~ T. Lager #Prolog #LogicProgramming
+ [[https://odone.io/posts/2019-08-12-building-a-blog-in-haskell-with-yesod%E2%80%93returning-JSON.html][Building a blog in Haskell with Yesod–Returning JSON]]. ~ Riccardo Odone
#Haskell
+ [[https://thorstenball.com/blog/2019/04/09/learn-more-programming-languages/][Learn more programming languages, even if you won't use them]]. ~ Thorsten Ball
#Programming
+ [[http://lisp-univ-etc.blogspot.com/2019/08/programming-algorithms-arrays.html ~ Vsevolod Dyomkin.][Programming algorithms: Arrays]]. #Programming #CommonLisp
+ [[https://dash.harvard.edu/bitstream/handle/1/14226096/DICK-DISSERTATION-2015.pdf?sequence=6&isAllowed=y][After Math: (Re)configuring minds, proof, and computing in the postwar United
States]]. ~ Stephanie Aleen Dick. #PhD_Thesis #ATP #Logic #Math
+ [[https://cris.vub.be/files/46086440/pearl.pdf][Pearl: How to do proofs? (Practically proving properties about effectful
programs’ results)]]. ~ K. Jacobs, A. Nuyts, D. Devriese. #ITP #Agda
#FunctionalProgramming
+ [[http://philsci-archive.pitt.edu/16326/][Deep Learning: A philosophical introduction]]. ~ C. Buckner. #DeepLearning
+ [[https://github.com/cdepillabout/pretty-simple ][pretty-simple: pretty-printer for Haskell data types that have a Show
instance]]. ~ Dennis Gosnell. #Haskell #FunctionalProgramming
+ [[http://academic.udayton.edu/SaverioPerugini/papers/access/CSC2019/CSC2019Perugini.pdf][An introduction to declarative programming in CLIPS and Prolog]]. ~ J.L. Watkin,
A.C. Volk, S. Perugini. #DeclarativeProgramming #CLIPS #Prolog
+ [[https://vaibhavsagar.com/blog/2019/08/11/ihaskell-nix-docker/][Easy IHaskell Docker images with Nix]]. ~ Vaibhav Sagar. #Haskell #Docker #Nix
+ [[https://blog.shaynefletcher.org/2019/08/partitions-of-set.html][Partitions of a set]]. Shayne Fletcher. #Haskell #FunctionalProgramming
+ [[https://boxbase.org/entries/2019/aug/12/explaining-lambda-calculus-to-developer/][Explaining lambda calculus to a front-end web developer]]. ~ Henri Tuhola
#LambdaCalculus
+ [[https://www.isa-afp.org/entries/Laplace_Transform.html][Laplace transform in Isabelle/HOL]]. Fabian Immler. #ITP #IsabelleHOL #Math
+ [[https://download.atlantis-press.com/article/125914883.pdf][WordNet and Prolog: why not?]] ~ P. Julian-Iranzo, F. Saenz-Perez. #Prolog
#LogicProgramming
+ [[https://samgrayson.me/2019-08-06-monads-as-a-programming-pattern/][Monads as a programming pattern]]. ~ Samuel Grayson. #Programming
#Monads
+ [[http://mightybyte.github.io/monad-challenges][The monad challenges (A set of challenges for jump starting your understanding
of monads)]]. ~ Doug Beardsley. #Haskell #Monads
+ [[http://mightybyte.net/purity-types-monads/purity-types-monads.html][Coding and reasoning with purity, strong types, and monads]]. ~ Doug Beardsley
(mightybyte). #Haskell #Monads
+ [[https://kowainik.github.io/posts/2018-06-21-haskell-build-tools][Haskell: Build tools]]. ~ Kowainik. #Haskell #Cabal #Stack
+ [[https://www.snoyman.com/blog/2019/08/haskell-kata-with-try-file-lock][Haskell kata: withTryFileLock]]. ~ M. Snoyman. #Haskell #FunctionalProgramming
+ [[http://www.morgenthum.tech/articles/write-haskell-game][How to write a game in Haskell from scratch]]. ~ Mario Morgenthum. #Haskell
#Game
+ [[https://typeclasses.com/python][Transition to Haskell from Python]]. ~ Chris Martin, Julie Moronuki. #Python
#Haskell
+ [[https://github.com/rudymatela/express][Dynamically-typed Haskell expressions involving applications and variables]]. ~
Rudy Matela. #Haskell #FunctionalProgramming
+ [[https://github.com/Ebanflo42/Persistence][A topological data analysis library for Haskell]]. ~ Eben Kadile. #Haskell
#FunctionalProgramming #Math #Topology
+ [[https://github.com/cdepillabout/pretty-simple][Pretty-printer for Haskell data types that have a Show instance]]. ~ Dennis
Gosnell. #Haskell #FunctionalProgramming
+ [[https://www.isa-afp.org/entries/Adaptive_State_Counting.html][Formalisation of an adaptive state counting algorithm in Isabelle/HOL]]. ~
Robert Sachtleben. #ITP #IsabelleHOL
+ [[https://github.com/emina/rosette][Rosette: a solver-aided programming language that extends Racket with language
constructs for program synthesis, verification, and more]]. ~ Emina
Torlak. #Programming #Racket #Rosette #DSL #SAT #SMT
+ [[https://github.com/devonhollowood/search-algorithms][Haskell library containing common graph search algorithms]]. ~ Devon
Hollowood. #Haskell #FunctionalProgramming #Algorithms
+ [[https://infoscience.epfl.ch/record/268824][Verified functional programming]]. ~ N. Voirol. #PhD_Thesis
#FunctionalProgramming #Scala
+ [[https://content.sciendo.com/view/journals/forma/27/2/article-p133.xml][On monomorphisms and subfields]]. ~ C. Schwarzweller. #ITP #Mizar #Math
+ [[https://arxiv.org/abs/1908.05294][Undecidability of D_< and its decidable fragments]]. ~ J. Hu, O. Lhoták. #ITP
#Agda
+ [[https://hustmphrrr.github.io/blog/2019/compare-dots.html][Comparison between different definitions of Dependent Object Types (DOTs)]]. ~
J. Hu. #ITP #Agda
+ [[https://blog.toggl.com/programming-languages-explained-with-music-comic/][Programming languages explained with music]]. ~ Emma Murray. #Programming
+ [[https://github.com/farliz/emacs-academia][Una serie de videos que te mostrarán de forma práctica y simple, cómo utilizar
Emacs para la producción de documentos académicos]]. #Emacs
+ [[https://arxiv.org/abs/1802.08437][Abstract completion, formalized]]. ~ N. Hirokawa et als. #ITP #IsabelleHOL
+ [[http://pxtp.gforge.inria.fr/2019/papers/PxTP_2019_paper_5.pdf][Verifying bit-vector invertibility conditions in Coq]]. ~ B. Ekici et als. #ITP
#Coq
+ [[http://math.andrej.com/2019/08/21/derivations-as-computations/][Derivations as computations]]. ~ Andrej Bauer. #ITP #Andromeda
+ [[https://github.com/Andromedans/andromeda][Andromeda: A minimalist implementation of type theory, suitable for
experimentation]]. ~ Andrej Bauer #ITP #Andromeda
+ [[http://www.stochasticlifestyle.com/the-essential-tools-of-scientific-machine-learning-scientific-ml/][The essential tools of Scientific Machine Learning (Scientific ML)]]. ~
Christopher Rackauckas. #MachineLearning #JuliaLang
+ [[https://www.microsiervos.com/archivo/ordenadores/historia-desarrollo-software-logica-lenguajes-codigo.html][La historia del desarrollo de software en dos minutos: un siglo de lógica,
lenguajes y código]]. ~ @Alvy #Programación #Historia
+ [[https://blog.acolyer.org/2019/08/23/learning-to-prove-theorems-via-interacting-with-proof-assistants/][Learning to prove theorems via interacting with proof assistants]]. ~ Adrian
Colyer. #ITP #MachineLearning
+ [[https://alhassy.github.io/TypedLisp/][Typed Lisp, a primer]]. ~ Musa Al-hassy. #Lisp #Haskell #FunctionalProgramming
+ [[https://github.com/srid/rib][Rib: a Haskell library for writing your own static site generator]]. ~ Sridhar
Ratnakumar. #Haskell #FunctionalProgramming
+ [[https://blog.sigplan.org/2019/08/22/from-programs-to-deep-models-part-1/][From programs to deep models (Part 1)]]. ~ Eran Yahav. #Programming
#MachineLearning
+ [[https://serokell.io/blog/haskell-history][Haskell. History of a community-powered language]]. ~ Denis Oleynikov, Gints
Dreimanis. #Haskell #FunctionalProgramming #History
+ [[https://github.com/jagajaga/FP-Course-ITMO][Haskell ITMO course at CTD]]. ~ Dmitry Kovanikov, Arseniy Seroka. #Haskell
#FunctionalProgramming
+ [[https://github.com/haskell/rfcs][Haskel': Discussion about proposed changes to the Haskell programming
language]]. #Haskell #FunctionalProgramming
+ [[https://chrisdone.com/posts/static-smart-constructors/][Static smart constructors with double splices]]. ~ Chris Done
#Haskell #FunctionalProgramming
+ [[https://www.metalevel.at/trs/][Prolog implementation of the Knuth-Bendix completion procedure]]. ~ Markus
Triska. #Prolog #LogicProgramming
+ [[https://semantic-domain.blogspot.com/2019/08/new-draft-paper-survey-on-bidirectional.html][New draft paper: Survey on bidirectional typechecking]]. ~ Neel
Krishnaswami. #FunctionalProgramming
+ [[https://en.wikipedia.org/wiki/Comparison_of_functional_programming_languages][Comparison of functional programming languages]]. ~ Wikipedia.
#FunctionalProgramming
+ [[https://wiki.haskell.org/Let_vs._Where][Haskell: let vs]]. where. #Haskell #FunctionalProgramming
+ [[https://youtu.be/seVSlKazsNk][Point-free or die: Tacit programming in Haskell and beyond]]. ~ Amar Shah
#Haskell #FunctionalProgramming
+ [[https://www.parsonsmatt.org/2016/10/26/grokking_fix.html][Grokking fix]]. ~ Matt Parsons. #Haskell #FunctionalProgramming
+ [[https://www.researchgate.net/publication/335335097_Verifying_an_Incremental_Theory_Solver_for_Linear_Arithmetic_in_IsabelleHOL][Verifying an incremental theory solver for linear arithmetic in
Isabelle/HOL]]. ~ R. Bottesch, M.W. Haslbeck, R. Thiemann. #ITP #IsabelleHOL
+ [[http://andreipopescu.uk/pdf/Goedel_CADE_2019.pdf][A formally verified abstract account of Gödel’s incompleteness theorems]]. ~
A. Popescu, D. Traytel. #ITP #IsabelleHOL #Logic
+ [[https://ore.exeter.ac.uk/repository/handle/10871/38402][Isabelle/DOF. (User and implementation manual)]]. ~ A.D. Brucker, B. Wolff. #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1908.06479][Studying algebraic structures using Prover9 and Mace4]]. ~ R. Arthan,
P. Oliva. #ATP #Prover9 #Mace4 #Math
+ [[https://github.com/wimmers/munta][MUNTA: Fully verified model checker for timed automata]]. ~ Simon Wimmer. #ITP
#IsabelleHOL
+ [[https://arxiv.org/abs/1908.06478][Type-based resource analysis on Haskell]]. ~ F. Siglmüller. #Haskell
#FunctionalProgramming #Algorithms
+ [[https://stackoverflow.com/questions/5889696/difference-between-data-and-newtype-in-haskell][Difference between `data` and `newtype` in Haskell]]. #Haskell
#FunctionalProgramming
+ [[https://youtu.be/hIZxTQP1ifo][Type Classes vs. the World]]. ~ Edward Kmett. #Haskell #FunctionalProgramming
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?PxTP2019.4][Verifying bit-vector invertibility conditions in Coq]]. ~ Burak Ekici et
als. #ITP #Coq
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?PxTP2019.6][Reconstructing veriT proofs in Isabelle/HOL]]. ~ M. Fleury, H.J. Schurr. #ITP
#IsabelleHOL #SMT #veriT
+ [[https://www.infoq.com/presentations/ai-ml-functional-programming/?utm_source=twitter.com&utm_medium=social&utm_campaign=presentation-computer-mathematics--ai-a][Computer mathematics, AI and functional programming]]. ~ Moa Johansson. #ATP
#ITP #Math #Haskell #FunctionalProgramming
+ [[https://github.com/moajohansson/IsaHipster][IsaHipster: Theory exploration for Isabelle using HipSpec]]. ~ Moa
Johansson. #ITP #IsabelleHOL #Haskell
+ [[https://github.com/caotic123/Kei][Kei: A small and expressive dependently typed language]]. ~ Tiago
Campos. #Haskell #FunctionalProgramming
+ [[https://mpardalos.xyz/posts/customizable_datatypes.html][Customizable datatypes]]. #Haskell #FunctionalProgramming
+ [[http://r6.ca/blog/20110808T035622Z.html][A very general method of computing shortest paths]]. ~ Russell
O’Connor. #Haskell #FunctionalProgramming
+ [[https://twanvl.nl/blog/haskell/simple-reflection-of-expressions][Simple reflection of expressions]]. ~ Twan van Laarhoven. #Haskell
#FunctionalProgramming
+ [[http://hackage.haskell.org/package/simple-reflect-0.3.3][simple-reflect: Simple reflection of expressions containing variables]]. ~ Twan
van Laarhoven. #Haskell #FunctionalProgramming
+ [[https://apfelmus.nfshost.com/articles/monoid-fingertree.html][Monoids and finger trees]]. ~ Heinrich Apfelmus. #Haskell #FunctionalProgramming
+ [[http://comonad.com/reader/wp-content/uploads/2009/07/AllAboutMonoids.pdf][All about monoids]]. ~ Edward Kmett. #Haskell #FunctionalProgramming
+ [[https://pbrisbin.com/posts/applicative_functors/][Applicative functors]]. ~ Pat Brisbin. #Haskell #FunctionalProgramming
+ [[https://hackernoon.com/advantages-of-functional-programming-for-blockchain-protocols-1ca2d4ac1033][Advantages of functional programming for Blockchain
protocols]]. #FunctionalProgramming #Blockchain
+ [[https://www.researchgate.net/publication/241132399_La_incidencia_filosofica_de_la_programacion_logica][La incidencia filosófica de la programación lógica]]. ~ Luís Moniz
Pereira. #ProgramaciónLógica #Lógica #IA
+ [[https://arxiv.org/abs/1904.11281][Deductive proof of Ethereum smart contracts using Why3]]. ~ Z. Nehai,
F. Bobot. #FormalVerification #Why3
+ [[https://mmhaskell.com/blog/2019/8/19/q-learning-primer][Q-learning primer]]. ~ James Bowen. #Haskell #FunctionalProgramming
+ [[https://cs-syd.eu/posts/2016-07-24-overcoming-boolean-blindness-evidence][Overcoming boolean blindness with evidence]]. ~ Tom Sydney Kerckhove. #Haskell
#FunctionalProgramming
+ [[https://youtu.be/iuwUUlDfHcw][Teaching Haskell for understanding]]. ~ Julie Moronuki. #Haskell
#FunctionalProgramming
+ [[https://xtendo.org/monad][The monad fear]]. #Haskell #FunctionalProgramming
+ [[http://homepages.inf.ed.ac.uk/wadler/papers/marktoberdorf/baastad.pdf][Monads for functional programming]]. ~ Philip Wadler. #Haskell
#FunctionalProgramming
+ [[http://adit.io/posts/2013-06-10-three-useful-monads.html][Three useful monads]]. #Haskell #FunctionalProgramming
+ [[https://www.mjoldfield.com/atelier/2014/08/monads-reader.html][Monads in Haskell: Reader]]. ~ Martin Oldfield. #Haskell #FunctionalProgramming
+ [[http://brandon.si/code/the-state-monad-a-tutorial-for-the-confused/][The State monad: A tutorial for the confused?]] ~ Brandon Simmons. #Haskell
#FunctionalProgramming
+ [[http://www.haskellforall.com/2012/12/the-continuation-monad.html][The continuation monad]]. ~ G. Gonzalez. #Haskell
#FunctionalProgramming
+ [[http://blog.ielliott.io/continuations-from-the-ground-up/][Continuations from the ground up]]. ~ Isaac Elliott. #Haskell
#FunctionalProgramming
+ [[http://matryoshka.gforge.inria.fr/pubs/fernandez_burgos_bsc_thesis.pdf][Formalization of sorting algorithms in Isabelle/HOL]]. ~ Marco Pierre Fernandez
Burgos. #BSc_Thesis #ITP #IsabelleHOL
+ [[https://github.com/marco10507/formalization-of-sorting-algorithms][Formalization of sorting algorithms in Isabelle/HOL (Code)]]. ~ Marco Pierre Fernandez
Burgos. #ITP #IsabelleHOL
+ [[https://link.springer.com/content/pdf/10.1007%2F978-3-030-29436-6_30.pdf][Certified equational reasoning via ordered completion]]. ~ C. Sternagel,
S. Winkle. #ITP #IsabelleHOL
+ [[http://matryoshka.gforge.inria.fr/pubs/blans_bsc_thesis.pdf][Homotopy type theory: Synthetic homotopy theory and proof verification]]. ~
M. Blans. #BSc_Thesis #ITP #Agda #HoTT
+ [[https://arxiv.org/abs/1908.07776][Free theorems simply, via dinaturality]]. ~ J. Voigtländer. #Haskell
#FunctionalProgramming
+ [[https://gvolpe.github.io/blog/functional-dependencies-and-type-families/][Functional dependencies & type families]]. ~ Gabriel Volpe #Haskell
#FunctionalProgramming
+ [[https://www.newfrenzy.org/best-practices-for-using-functional-programming-in-python/][Best practices for using functional programming in Python]]. ~ Tara
Smith. #Python #FunctionalProgramming
+ [[https://github.com/graninas/automatic-whitebox-testing-showcase][Automatic white-box testing with free monads]]. ~ Alexander Granin
#Haskell #FunctionalProgramming
+ [[https://byorgey.wordpress.com/2009/01/12/abstraction-intuition-and-the-monad-tutorial-fallacy/][Abstraction, intuition, and the "monad tutorial fallacy"]]. ~ Brent
Yorgey. #Haskell #FunctionalProgramming
+ [[http://blog.sigfpe.com/2007/04/trivial-monad.html][The trivial monad]]. ~ Dan Piponi. #Haskell #FunctionalProgramming
+ [[https://two-wrongs.com/a-gentle-introduction-to-monad-transformers][A gentle introduction to monad transformers]]. #Haskell #FunctionalProgramming
+ [[https://github.com/sandrolovnicki/pLam][pLam: An interpreter for learning and exploring pure λ-calculus]]. ~ Sandro
Lovnički. #LambdaCalculus #Haskell #FunctionalProgramming
+ [[https://stackoverflow.com/questions/44965/what-is-a-monad][What is a monad?]] #Haskell #FunctionalProgramming
+ [[https://gist.github.com/jhrr/61727c9934c53f0f06b2][Programming with effects]]. ~ Graham Hutton. #Haskell #FunctionalProgramming
+ What is a monad? ~ Graham Hutton. https://youtu.be/t1e8gqXLbsU #Haskell #FunctionalProgramming
+ [[https://eduph.github.io/ANNandSC/][Artificial neural networks and simplicial complexes]]. ~ Eduardo
Paluzo. #NeuralNetworks #Math
+ [[http://www.ps.uni-saarland.de/Publications/documents/Kaiser_2019_Thesis.pdf][Formal verification of the equivalence of system F and the pure type system
L2]]. ~ Jonas Kaiser. #PhD_Thesis #ITP #Coq
+ [[https://dl.acm.org/citation.cfm?id=3342605][Deferring the details and deriving programs]]. ~ Liam O’Connor. #ITP #Agda
+ [[https://dl.acm.org/citation.cfm?id=3342606][Tic tac types: a gentle introduction to dependently typed programming
(functional pearl)]]. ~ S. Innes, N. Wu. #FunctionalProgramming #Idris #Haskell
+ [[https://nicksanford.io/posts/2018-08-06-haskell-pyramid.html][Haskell pyramid]]. ~ Nick Sanford. #Haskell #FunctionalProgramming
+ [[https://haskell-explained.gitlab.io/blog/posts/2019/08/27/pattern-synonyms][PatternSynonyms for expressive code]]. ~ Raghu Kaippully. #Haskell
#FunctionalProgramming
+ [[https://wiki.haskell.org/Humor/LearningCurve][The Haskell learning curve]]. #Haskell #FunctionalProgramming
+ [[https://free.cofree.io/2019/08/21/mu-nu/][Fixed points and non-fixed points of Haskell functors]]. ~ Ziyang Liu. #Haskell
#FunctionalProgramming
+ [[https://free.cofree.io/2017/12/27/free/][Free monoids and free monads, free of category theory]]. ~ Ziyang Liu. #Haskell
#FunctionalProgramming
+ [[https://free.cofree.io/2019/07/31/beautiful-bridges/][Solving the "Beautiful bridges" problem, algebraically]]. ~ Ziyang Liu. #Haskell
#FunctionalProgramming
+ [[https://medium.com/@djoepramono/that-simple-guide-that-could-help-you-get-started-with-haskell-8af1681c7ef7][That guide that could help you get started with Haskell]]. ~ Djoe Pramono
#Haskell #FunctionalProgramming
+ [[http://builds.openlogicproject.org/courses/set-theory/][Set theory: An open introduction]]. ~ Tim Button. #eBook #SetTheory #Logic #Math
+ [[https://mvanier.livejournal.com/3917.html][Yet another monad tutorial]]. ~ Mike Vanier. #Haskell #FunctionalProgramming
+ [[https://github.com/SKolodynski/IsarMathLib][IsarMathLib: a library of formalized mathematics for Isabelle/ZF]]. ~ Slawomir
Kolodynski. #ITP #IsabelleZF #Math
+ [[http://isarmathlib.org/][IsarMathLib: A library of formalized mathematics for Isabelle/ZF theorem
proving environment]]. ~ Slawomir Kolodynski. #ITP #IsabelleZF #Math
+ [[https://open.library.ubc.ca/media/download/pdf/24/1.0380600/3][Automated reasoning in first-order real vector spaces]]. ~ C. Kwan. #MSc_Thesis
#ITP #ACL2 #Math
+ [[http://www.staff.science.uu.nl/~swier004/publications/2019-jfp-submission.pdf][Functional pearl: Heterogeneous random-access lists]]. ~ W. Swierstra.
#FunctionalProgramming #Agda
+ [[https://docs.google.com/presentation/d/1bSANLVcGnfVIFjicj81Uo_MYQhsF0FZi_EF-NEKFecE/edit?usp=sharing][The Haskell pyramid]]. ~ Lucas Di Cioccio. #Haskell #FunctionalProgramming
+ [[http://lisp-univ-etc.blogspot.com/2019/08/programming-algorithms-key-values.html][Programming algorithms: Key-values]]. ~ Vsevolod Dyomkin. #Programming
#CommonLisp #Algorithms
+ [[https://github.com/bbatsov/emacs-lisp-style-guide][A community-driven Emacs Lisp style guide]]. ~ Bozhidar Batsov. #Programming
#Emacs #Lisp
+ [[https://github.com/soupi/minimal-haskell-emacs][A minimal Emacs configuration for Haskell programming]]. ~ Gil Mizrahi
#Emacs #Haskell #FunctionalProgramming
+ [[https://medium.com/@miguelsaddress/funtores-aplicativos-y-m%C3%B3nadas-en-im%C3%A1genes-21ab0e60fe23][Funtores, aplicativos y mónadas en imágenes]]. ~ Miguel Á. Moreno
#Haskell #ProgramaciónFuncional
+ [[https://sahandsaba.com/understanding-sat-by-implementing-a-simple-sat-solver-in-python.html][Understanding SAT by implementing a simple SAT solver in Python]]. ~ Sahand
Saba. #Python #Logic
+ [[https://github.com/cdepillabout/post-about-nix-and-haskell/blob/master/2019-08-03-q-and-as-about-nix-for-haskellers.md][Questions and answers about Nix for haskellers]]. #Hakell #Nix
* Lecturas del año 2018
** Enero 2018
+ [[http://books.goalkicker.com/HaskellBook][Haskell notes for professionals book]]. #eBook #Haskell
+ [[https://arxiv.org/abs/1712.09288][An extensible ad hoc interface between Lean and Mathematica]]. ~ R.Y. Lewis
#ITP #Lean #Mathematica
+ [[https://markkarpov.com/tutorial/th.html][Template Haskell tutorial]]. ~ M. Karpov #Haskell
+ [[http://www.cs.us.es/~fsancho/?e=189][Algoritmo de Monte Carlo aplicado a búsquedas en espacios de estados]]. ~
F. Sancho #IA
+ [[https://github.com/A1kmm/proofsweeper][ProofSweeper: Play Minesweeper by formally proving your moves in Idris]]. ~
Andrew Miller #Idris #Haskell
+ [[https://m-renaud-haskell-containers.readthedocs.io/en/docs/][Haskell containers package]]. ~ Matt Renaud #Haskell
+ [[https://www.isa-afp.org/entries/Falling_Factorial_Sum.html][The falling factorial of a sum]]. ~ L. Bulwahn #IsabelleHOL
+ [[https://matthias-endler.de/2018/functional-mathematics/][Functional programming for mathematical computing]]. ~ Matthias Endler
#Haskell
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell/raw/master/Examenes_de_PF_con_Haskell.pdf][Libro de exámenes de programación funcional con Haskell (versión del 6 de
enero de 2018)]]. #Haskell #I1M2017
+ [[https://www.math.wisc.edu/~miller/old/m771-10/kunen770.pdf][The foundations of mathematics]]. ~ K. Kunen #eBook #Logic #Math
+ [[http://comonad.com/reader/2018/the-state-comonad/][Is State a Comonad?]] ~ Edward Kmett #Haskell
+ [[https://pron.github.io/posts/computation-logic-algebra-pt1][Finite of sense and infinite of thought: a history of computation, logic and
algebra, part I]]. ~ Ron Pressler #Logic #Math #CompSci
+ [[https://raywang.tech/2017/12/20/Formal-Verification:-The-Gap-between-Perfect-Code-and-Reality][Formal verification: the gap between perfect code and reality]]. ~ Ray Wang #Formal_methods
+ [[https://media.ccc.de/v/34c3-9105-coming_soon_machine-checked_mathematical_proofs_in_everyday_software_and_hardware_development][Coming soon: machine-checked mathematical proofs in everyday software and
hardware development]]. ~ Adam Chlipala #ITP
+ [[http://ace.cs.ohio.edu/~gstewart/papers/snaarkl.pdf][Snårkl: Somewhat practical, pretty much declarative verifiable computing in Haskell]]. ~ G. Stewart, S. Merten, L. Leland #Haskell
+ [[https://arxiv.org/abs/1801.00471][TWAM: A certifying abstract machine for logic programs]]. ~ B. Bohrer, K. Crary
#ITP #LF
+ [[https://www.isa-afp.org/entries/Kuratowski_Closure_Complement.html][The Kuratowski closure-complement theorem in Isabelle/HOL]]. ~ P. Gammie,
G. Gioiosa #ITP #IsabelleHOL #Math
+ [[http://kaygun.tumblr.com/post/169392012379/the-shoelace-formula-for-the-area-of-a-polygon][The Shoelace formula for the area of a polygon]]. ~ Atabey Kaygun
#CommonLisp #Math
+ [[https://blog.merovius.de/2018/01/08/monads-are-just-monoids.html][Monads are just monoids in the category of endofunctors]]. ~ Axel Wagner
#Haskell #Math
+ [[https://medium.freecodecamp.org/10-awkward-moments-in-math-history-d364706d902d][10 awkward moments in math history]]. ~ Elena Nisioti #Math
#History
+ [[https://github.com/joom/hezarfen][Hezarfen: a theorem prover for intuitionistic propositional logic in Idris]]. ~
Joomy Korkut #Idris #Haskell #Logic
+ [[https://m.magnet.xataka.com/preguntas-no-tan-frecuentes/las-universidades-de-eeuu-al-fin-lo-han-reconocido-empezar-a-programar-por-java-es-una-mala-idea][Las universidades de EEUU al fin lo han reconocido: empezar a programar por
Java es una mala idea]]. ~ Esther Miguel Trula
+ [[http://www.cs.us.es/~jalonso/cursos/i1m/ejercicios/ejercicios-I1M-2017.pdf][Libro con las soluciones de las 16 primeras relaciones de ejercicios de
programación con Haskell]]. #Haskell #I1M2017
+ [[https://medium.com/@ptitfred/haskell-and-fp-a83b5b22f67f][Haskell et programmation fonctionnelle, ma conviction]]. ~ Frédéric Menou
#Haskell
+ [[https://www.isa-afp.org/entries/Taylor_Models.html][A formally verified implementation of multivariate Taylor models in
Isabelle/HOL]]. ~ C. Traut, F. Immler #ITP #IsabelleHOL
+ [[https://www.isa-afp.org/entries/Green.html][An Isabelle/HOL formalisation of Green's theorem]]. ~ M. Abdulaziz,
L.C. Paulson #ITP #IsabelleHOL #Math
+ [[https://blog.jle.im/entry/introduction-to-singletons-2.html][Introduction to Singletons (Part 2)]]. ~ Justin Le #Haskell
+ [[https://openlibra.com/es/book/a-friendly-introduction-to-mathematical-logic][A friendly introduction to mathematical logic]]. ~ Christopher C. Leary #eBook
#Logic
+ [[https://jeremykun.com/2017/12/29/np-hard-does-not-mean-hard/][NP-hard does not mean hard]]. ~ Jeremy Kun | Math ∩ Programming
#CompSci
+ [[http://oeuf.uwplse.org/oeuf-cpp18.pdf][Œuf: Minimizing the Coq extraction TCB]]. ~ E. Mullen et als. #Coq
+ [[https://github.com/conal/talk-2018-essence-of-ad][The simple essence of automatic differentiation]]. ~ Conal Elliott
#Haskell
+ [[https://github.com/leftaroundabout/linearmap-family][linearmap-family: Purely-functional, coordinate-free linear algebra]]. ~ Justus
Sagemüller #Haskell #Math
+ [[https://github.com/mandubian/neurocat][From neural networks to the Category of composable supervised learning
algorithms in Scala with compile-time matrix checking based on
singleton-types]]. ~ Pascal Voitot #Scala
+ [[https://docs.google.com/presentation/d/1Zc2A7nkpuxnCRlILPeKRJCWIqv-gtsMJIizDQ9a3vPo][CodeWorld: The why, what, and how of teaching Haskell to children]]. ~ Chris
Smith #Haskell
+ [[http://blog.stephenwolfram.com/2016/09/how-to-teach-computational-thinking][How to teach computational thinking]]. ~ Stephen Wolfram #Teaching #CompSci
+ [[https://blogs.ams.org/matheducation/2017/01/09/integrating-computer-science-in-math-the-potential-is-great-but-so-are-the-risks][Integrating computer science in math: the potential is great, but so are the
risks]]. ~ Emmanuel Schanzer #Teaching #CompSci #Math
+ [[http://www.BootstrapWorld.org][Bootstrap]]: a research project at Brown University that offers a series of
curricular modules built around purely mathematical
programming. #Teaching #CompSci #Math
+ [[http://publicdomainreview.org/2016/11/10/let-us-calculate-leibniz-llull-and-computational-imagination]["Let us calculate!": Leibniz, Llull, and the computational imagination]]. ~
Jonathan Gray
+ [[https://arxiv.org/abs/1801.04163][A tableaux calculus for reducing proof size]]. ~ M.P. Lettmann, N. Peltier
#Logic #ATP
+ [[http://wiki.science.ru.nl/tfpie/images/3/32/Alegre.pdf][Haskell in middle and high school mathematics]]. ~ F. Alegre, J. Moreno
#Haskell #Math
+ [[https://github.com/alphalambda/k12math][Mathematics for middle and high school in Haskell]]. #Haskell #Math
+ [[https://codurance.com/2018/01/11/applicatives-validation][Applicative functors and data validation, part II]]. ~ Carlos Morera de la
Chica #Haskell
+ [[https://hal.inria.fr/hal-01673518/file/dissertation.pdf][Extending higher-order logic with predicate subtyping: application to PVS]]. ~
Frédéric Gilbert #ITP #PVS
+ [[http://www.cs.nott.ac.uk/~psxjb5/publications/2017-BrackerNilsson-SupermonadsAndSuperapplicatives-UnderConsideration.pdf][Supermonads and superapplicatives]]. ~ J. Bracker, H. Nilsson #Haskell #Agda
+ [[http://rewriting.gforge.inria.fr/1-33/main.pdf][Lecture notes on rewriting theory]]. ~ F. Blanqui
+ [[http://www.ssrg.nicta.com.au/publications/csiro_full_text/Amani_BSB_18.pdf][Towards verifying Ethereum smart contract bytecode in Isabelle/HOL]]. ~
S. Amani, M. Bégel, M. Bortin, M. Staples #ITP #IsabelleHOL
+ [[https://youtu.be/X_jVcWEgp4A][Guía turística de Sevilla con Scratch]]. ~ @programamos #Scratch
+ [[http://cl-informatik.uibk.ac.at/users/cek/docs/18/jpck-cpp18.pdf][Formal microeconomic foundations and the First Welfare Theorem]]. ~
C. Kaliszyk, J. Parsert #ITP #IsabelleHOL
+ [[https://homes.cs.washington.edu/~emina/blog/2017-06-23-a-primer-on-sat.html][A primer on boolean satisfiability]]. ~ Emina Torlak #Logic #SAT #Racket
+ [[https://courses.cs.washington.edu/courses/cse507/17wi/calendar.html][Course: Computer-aided reasoning for software]]. ~ E. Torlak
#AutomatedReasoning #Logic
+ [[https://lamp.epfl.ch/files/content/sites/lamp/files/teaching/progfun/slides/week1-1-annot.pdf][Functional programming principles in Scala]]. ~ Martin Odersky
#FunctionalProgramming #Scala
+ [[http://www.cs.unc.edu/~amos/data/csci2017-isse.pdf][Formalizing data management systems: a case study of Syndicate protocol]]. ~
C.K. Wang, H. Xu #ITP #Coq
+ [[http://comonad.com/reader/2018/computational-quadrinitarianism-curious-correspondences-go-cubical/][Computational Quadrinitarianism (Curious Correspondences go Cubical)]]. ~
Gershom Bazerman #CompSci
+ [[https://arxiv.org/abs/1801.05423][A random walk through experimental mathematics]]. ~ E.Y.S. Chan, R.M. Corless
#Math #Programming
+ [[http://cl-informatik.uibk.ac.at/teaching/ws17/fp/pdfs/lambda.pdf][λ-calculus]]. ~ Christian Sternagel #Logic #Haskell #CompSci
+ [[http://www.cs.princeton.edu/~olivierb/papers/shrink.pdf][Shrink fast correctly!]] ~ Olivier Savary Bélanger, Andrew W. Appel #ITP #Coq
+ [[http://kaygun.tumblr.com/post/169730814509/hofstadters-q-sequence][Hofstadter’s Q sequence]]. ~ Atabey Kaygun #CommonLisp #Math
+ [[http://admission.cs.cityu.edu.hk/CommonMyths][Ten common myths about Computer Science]]. #CompSci
+ [[http://cl-informatik.uibk.ac.at/teaching/ws17/fp/pdfs/reasoning.pdf][Reasoning about functional programs]]. ~ Christian Sternagel #Logic #Haskell
+ [[https://avigad.github.io/formal_methods_in_education][Resources for teaching with formal methods]]. ~ Jeremy Avigad #FormalMethods
+ [[http://arg.ciirc.cvut.cz/fmpa/slides/intro1.pdf][Computer understandable mathematics]]. ~ Josef Urban #ATP #ITP #Math
+ [[https://repositorio.inesctec.pt/bitstream/123456789/5441/1/P-00M-T6A.pdf][The specification and analysis of use properties of a nuclear control system]].
~ M.D. Harrison, P.M. Masci, J. Creissac Campos and P. Curzon #ITP #PVS
+ [[http://cl-informatik.uibk.ac.at/teaching/ws17/fp/pdfs/efficiency.pdf][Efficiency of functional programs]]. ~ Christian Sternagel and Harald Zankl
#Haskell
+ [[http://www.cl.cam.ac.uk/~jrh13/papers/joerg.pdf][History of interactive theorem proving]]. ~ John Harrison, Josef Urban and
Freek Wiedijk #ITP
+ [[https://es.slideshare.net/TiinaPartanen/computational-thinking-as-an-emergent-learning-trajectory-of-mathematics][Computational thinking as an emergent learning trajectory of mathematics]]. ~
Tiina Partanen #Math #CompSci
+ [[https://hal.inria.fr/tel-01680213/document][Verification of a concurrent garbage collector]]. ~ Yannick Zakowski #PhDThesis
#ITP #Coq
+ [[http://cl-informatik.uibk.ac.at/teaching/ws17/fp/pdfs/typing.pdf][Typing of functional programs]]. ~ Christian Sternagel #Logic
#FunctionalProgramming
+ [[https://programamos.es/creando-un-videojuego-paso-a-paso-con-scratch-desde-cero][Creando un videojuego paso a paso con Scratch desde cero]]. ~ Jesús Moreno León
#Scratch
+ [[https://coda.wickstrom.tech/episodes/2018-01-19-domain-modelling-with-haskell-data-structures.html][Domain modelling with Haskell: data structures]]. ~ Oskar Wickström #Haskell
+ [[https://popl18.sigplan.org/event/plmw-popl-2018-liquidhaskell-overview][Liquid Haskell: refinement types for Haskell]]. ~ Niki Vazou
#Haskell #LiquidHaskell
+ [[https://arxiv.org/abs/1801.05206][Sequences, yet functions: the dual nature of data-stream processing]]. ~
S. Herbst, J. Tenschert, A.M. Wahl, K. Meyer-Wegener #ITP #Coq
+ [[http://cl-informatik.uibk.ac.at/teaching/ws17/fp/content.php][Course: Functional programming]]. ~ Christian Sternagel et als. #Haskell
+ [[https://dbp.io/essays/2018-01-16-how-to-prove-a-compiler-correct.html][How to prove a compiler correct]]. ~ Daniel Patterson #Haskell
+ [[http://ozark.hendrix.edu/~yorgey/pub/explaining-errors-slides.pdf][Explaining type errors]]. ~ B. Yorgey, R. Eisenberg, H. Eades #Haskell
+ [[https://arxiv.org/abs/1801.04026][Relational characterisations of paths]]. ~ R. Berghammer, H. Furusawa,
W. Guttmann, P. Höfner #ITP #IsabelleHOL
+ [[https://mmhaskell.com/blog/2018/1/22/functors-done-quick][Functors done quick!]] ~ James Bowen #Haskell
+ [[https://programamos.es/laberinto-principiantes][Programando un laberinto con Scratch, ¡para principiantes!]] ~ Alejandra
Sánchez Acosta #Scratch
+ [[https://popl18.sigplan.org/event/plmw-popl-2018-dafny-overview][Dafny overview]]. ~ K. Rustan M. Leino #Dafny
+ [[https://blog.jle.im/entry/interpreters-a-la-carte-duet.html]["Interpreters a la Carte" in Advent of Code 2017 Duet]]. ~ Justin Le
#Haskell
+ [[http://matryoshka.gforge.inria.fr/pubs/rp_paper.pdf][Formalization of Bachmair and Ganzinger's ordered resolution prover]]. ~
A. Schlichtkrull, J.C. Blanchette, D. Traytel and U. Waldmann ([[https://www.isa-afp.org/entries/Ordered_Resolution_Prover.html][Code]]) #ITP
#IsabelleHOL
+ [[https://eli.thegreenplace.net/2018/haskell-functions-as-functors-applicatives-and-monads][Haskell functions as functors, applicatives and monads]]. ~ Eli Bendersky
#Haskell
+ [[https://argumatronic.com/posts/2018-01-23-the-nesting-instinct.html][The nesting instinct]]. ~ Julie Moronuki #Haskell
+ [[https://arxiv.org/abs/1801.06566][Model theory and machine learning]]. ~ H. Chase, J. Freitag #Logic #AI
+ [[https://arxiv.org/abs/1801.07528][Computer-assisted proving of combinatorial conjectures over finite domains: a
case study of a chess conjecture]]. ~ P. Janičić, F. Marić, M. Maliković #ITP
#IsabelleHOL
+ [[https://bartoszmilewski.com/2018/01/23/pointwise-kan-extensions][Pointwise Kan extensions]]. ~ Bartosz Milewski
#CategoryTheory #Haskell
+ [[http://inventwithpython.com/cracking][Cracking codes with Python: An introduction to building and breaking ciphers]].
~ Al Sweigart #eBook #Programming #Python
+ [[http://www.redprl.org][RedPRL: a proof assistant for Computational Higher-Dimensional Type Theory]].
#ITP #RedPRL #SML
+ [[http://www.cs.cmu.edu/~rwh/talks/POPL18-Tutorial.pdf][Computational (higher) type theory]]. ~ R. Harper and C. Angiuli #RedPRL #SML
+ [[https://www.contextfreeart.org/gallery2/][Context Free/cfdg]]: a simple language for generating stunning images. With
only a few lines you can describe abstract art, beautiful organic scenery,
and many kinds of fractals.
+ [[https://github.com/ucsd-progsys/elsa][Elsa: a lambda calculus evaluator]]. ~ R. Jhala. #Haskell #Logic #LambdaCalculus
+ [[https://www.nature.com/articles/d41586-018-00604-6][China enters the battle for AI talent]]. #AI
+ [[https://arxiv.org/abs/1801.05950][Toward scalable verification for safety-critical deep networks]]. ~ L. Kuper et als. #NeuralNetworks #SMT
+ [[https://elpais.com/elpais/2018/01/24/el_aleph/1516812203_870138.amp.html][El curioso caso de la secuencia de Goodstein]]. ~ M.A. Morales |
El Aleph #Matemáticas
+ [[https://plus.maths.org/content/conversation-stephen-cook-0][A conversation with Stephen Cook]]. #CompSci
+ [[http://kaygun.tumblr.com/post/170044995839/collatz-sequence-yet-again][Collatz sequence (yet again)]]. ~ Atabey Kaygun #CommonLisp
#Math
+ [[https://www.dataquest.io/blog/introduction-functional-programming-python/][Introduction to functional programming in Python]]. ~ Spiro Sideris
#FunctionalProgramming #Python
+ [[https://arxiv.org/abs/1801.08441][Finitary-based domain theory in Coq: An early report]]. ~ M.A. AbdelGawad #ITP
#Coq
+ [[https://coda.wickstrom.tech/episodes/2018-01-22-domain-modelling-with-haskell-generalizing-with-foldable-and-traversable.html][Domain modelling with Haskell: Generalizing with Foldable and Traversable]]. ~
Oskar Wickström #Haskell
+ [[https://storm-country.com/blog/LambdaCase][LambdaCase in the wild]]. ~ Matt Noonan #Haskell
+ [[http://blog.sumtypeofway.com/recursion-schemes-part-41-2-better-living-through-base-functors][Recursion schemes, Part 4½: Better living through base functors]]. ~ Patrick
Thomson #Haskell
+ [[https://codurance.com/2018/01/25/lambda-calculus-in-clojure-part-2/][Lambda calculus in Clojure (Part 2)]]. ~ Sergio Rodrigo Royo #LambdaCalculus
#Clojure
+ [[http://www.openculture.com/2017/08/free-you-can-now-read-classic-books-by-mit-press-on-archive-org.html][Free: You can now read classic books by MIT Press on archive.org]] #eBooks
+ [[https://www.forbes.com/sites/quora/2018/01/24/when-is-haskell-more-useful-than-r-or-python-in-data-science/#6e0cdcc069e4][When is Haskell more useful than R or Python in Data Science?]] ~ Tikhon Jelvis
#Haskell #Rstats #Python #DataScience
+ [[https://www.tweag.io/posts/2015-09-08-programming-r-at-native-speed-in-haskell.html][Programming R at native speed using Haskell]]. ~ M. Boespflug, F. Domínguez,
A. Vershilov #Haskell #Rstats
+ [[https://github.com/patrickdoc/hash-graph][A hashing-based graph implementation in Haskell]]. ~ Patrick Dougherty #Haskell
+ [[http://www.usrsb.in/selling-laziness.html][Selling laziness]]. ~ Alex Beal #Programming
+ [[https://www.cs.kent.ac.uk/people/staff/dat/miranda/whyfp90.pdf][Why functional programming matters]]. ~ John Hughes #FunctionalProgramming
#Miranda
+ [[http://community.wolfram.com/groups/-/m/t/943405][A toy Wolfram Language interpreter in Haskell]]. ~ Yonghao Jin #Haskell
+ [[http://www.usrsb.in/org-mode.html][Org-mode: An integrated language and editor]]. ~ Alex Beal #Emacs
#Haskell
+ [[https://medium.com/@willkurt/why-sum-types-matter-in-haskell-ba2c1ab4e372][Why sum types matter in Haskell]]. ~ Will Kurt #Haskell
+ [[https://dl.acm.org/ft_gateway.cfm?id=3158104&ftid=1936978&dwn=1&CFID=3130691&CFTOKEN=c3031a6fe3e8c92e-6E2750E0-9DA8-6D3C-4BBD90D8137A463D][Intrinsically-typed definitional interpreters for imperative languages]]. ~
C. Bach Poulsen, A. Rouvoet, A. Tolmach, R. Krebbers #ITP #Agda
+ [[http://tomasp.net/academic/drafts/monads/paper.pdf][Monads are not what they seem (Uncovering the hidden nature of programming concepts)]].
~ T. Petricek #Math #CompSci
+ [[http://www.cs.tufts.edu/comp/116/archive/fall2017/xqi.pdf][Securing complex software systems using formal verification and specification]].
~ X. Qi #FormalVerification
+ [[https://youtu.be/z3pm1dFvhMQ][Programación funcional: la programación del futuro]]. ~ Moises Vázquez
#ProgramacionFuncional #Haskell
+ [[https://link.springer.com/content/pdf/10.1007%2Fs10817-017-9448-y.pdf][A verified ODE solver and the Lorenz attractor]]. ~ F. Immler #ITP #IsabelleHOL
+ [[https://youtu.be/0u3lY2eUHpA][Un vistazo al futuro: revisando demostraciones matemáticas con la computadora]].
~ Moisés Vázquez #DAO
+ [[http://www.mathnet.or.kr/mathnet/thesis_file/JKMS-54-5-1521-1536.pdf][Formalizing the meta-theory of first-order predicate logic]]. ~ H. Herberlin,
S.Y. Kim, G. Lee #ITP #Coq #Logic
+ [[http://www.logicmatters.net/2018/01/29/category-theory-a-gentle-introduction][Category theory: a gentle introduction]]. ~ Peter Smith
#CategoryTheory
+ [[https://pastel.archives-ouvertes.fr/tel-01691185/document][Investigations in computer-aided mathematics: experimentation, computation,
and certification]]. ~ Thomas Sibut Pinote #PhDThesis #ITP #Coq
+ [[https://pps2018.soic.indiana.edu/files/2017/12/dselsam_pps_2018.pdf][Formal methods for probabilistic programming]]. ~ D. Selsam, P. Liang,
D.L. Dill #ITP #Lean
+ [[https://github.com/dselsam/certigrad][Certigrad: Bug-free machine learning on stochastic computation graphs]]. ~
D. Selsam #ITP #Lean
** Febrero 2018
+ [[http://diginole.lib.fsu.edu/islandora/object/fsu:407377/datastream/PDF/view][Homotopy type theory, univalent foundation, and binary trees]]. ~ R. Beauvile #ITP #Coq #HoTT
+ [[http://www.cse.chalmers.se/~patrikj/talks/DSLsofMath_FP_WM_2018_Jansson.pdf][DSLsofMath: typing mathematics]]. ~ Patrik Jansson, Cezar Ionescu
#Haskell #Math
+ [[https://arxiv.org/abs/1801.10513][The Elfe system: Verifying mathematical proofs of undergraduate students]]. ~
Maximilian Doré, Krysia Broda #Math #Elfe
+ [[https://www.slideshare.net/nckumar/ai-for-marketing-presentation-by-chandrakumar][AI for marketing]]. ~ Chandrakumar #AI
+ [[https://arxiv.org/pdf/1802.00405][HOL Light QE]]. ~ Jacques Carette, William M. Farmer, Patrick Laskowski #ITP
#HOL_Light
+ [[https://medium.com/@robbie0630/dissecting-the-state-monad-with-operational-and-free-monads-3b965479f13c][Dissecting the State monad with Operational and Free monads]]. ~ Robbie Langer
#Haskell
+ [[http://www.lcc.uma.es/~blas/apuntes/PDAv/lambdaC.pdf][El λ–cálculo (sin tipos y con tipos)]]. ~ B.C. Ruiz y P. Guerrero #Matemáticas
#Computación
+ [[https://arxiv.org/pdf/1503.09060][A tutorial introduction to the lambda calculus]]. ~ Raul Rojas #Logic #CompSci
+ [[http://www.ist.tugraz.at/projects/isac/publ/RR_neuper.pdf]["Speaking" mathematics with "systems that explain themselves"]]. ~ Walther
Neuper #ITP #Math
+ [[https://arxiv.org/abs/1801.08766][Relational equivalence proofs between imperative and MapReduce algorithms]]. ~
B. Beckert et als. #ITP #Coq
+ [[http://www.joachim-breitner.de/blog/735-The_magic_%E2%80%9CJust_do_it%E2%80%9D_type_class][The magic “Just do it” type class]]. ~ J. Breitner #Haskell
+ [[https://github.com/mikkokotila/jupyter4kids][Numerical computing is fun (A guide to principles of computer science and
numerical computing for all ages)]]. ~ Mikko Kotila #CompSci #Python #Jupiter
+ [[http://learn.hfm.io/fractals.html][Spirals, snowflakes & trees: Recursion in pictures]]. ~ G. Keller &
M.M.T. Chakravarty #Haskell #Fractals
+ [[https://gregheartsfield.com/fractal-hs/][Fractals in Haskell (Escape-time fractals created with Haskell and GD)]]. ~
Greg Heartsfield #Haskell #Fractals
+ [[http://fhtr.blogspot.com.es/2008/12/drawing-tree-with-haskell-and-cairo.html][Drawing trees with Haskell and Cairo]]. ~ Ilmari Heikkinen #Haskell #Fractals
+ [[https://github.com/fniessen/refcard-org-beamer][Org Beamer reference card]]. ~ Fabrice Niessen #Emacs #OrgMode #LaTeX
+ [[https://www.isa-afp.org/entries/LLL_Basis_Reduction.html][A verified Lenstra-Lenstra-Lovász basis reduction algorithm in
Isabelle/HOL]]. ~ J. Divasón, S. Joosten, R. Thiemann and A. Yamada #ITP
#IsabelleHOL #Math
+ [[https://medium.com/@sahabi/haskelling-bitcoin-7e7128a9d4b4][Haskelling Bitcoin (The case for Bitcoin development in Haskell)]]. ~
M. Alshiekh #Haskell #Bitcoin
+ [[https://jncf2018.lip6.fr/files/lecture-notes/jncf2018-mahboubi.pdf][Calcul formel et preuves formelles]]. ~ Assia Mahboubi #ITP #Mizar #ACL2
#IsabelleHOL #HOL_Light #Coq #Agda #Lean
+ [[https://dl.acm.org/citation.cfm?id=3167090][A monadic framework for relational verification: Applied to information
security, program equivalence, and optimizations]]. ~ N. Grimm et als. #SMT
#Fsharp
+ [[https://dl.acm.org/ft_gateway.cfm?id=3167103&type?pdf][Efficient certification of complexity proofs: formalizing the
Perron–Frobenius theorem]]. ~ J. Divasón et als. #ITP #IsabelleHOL
+ [[http://bit.ly/2s78m03][Ciencias de la Computación (mejores programas y programadores)]]. ~ Lourdes del
Carmen González Huesca #Computación
+ [[https://sites.google.com/ciencias.unam.mx/lcomp172-7040/inicio][Curso: Lógica computacional]]. ~ Lourdes del Carmen González Huesca #Lógica
#Computación #Haskell #Prolog #Coq
+ [[http://vaibhavsagar.com/blog/2018/02/04/revisiting-monadic-parsing-haskell][Revisiting 'Monadic parsing in Haskell']]. ~ Vaibhav Sagar #Haskell
+ [[https://dodisturb.me/posts/2018-01-28-Cellular-Christmas-Tree.html][Cellular Christmas Tree]]. ~ Mistral Contrastin #Haskell
+ [[https://dl.acm.org/citation.cfm?id=3167091][A Coq formalization of normalization by evaluation for Martin-Löf type
theory]]. ~ P. Wieczorek, D. Biernacki #ITP #Coq
+ [[https://arxiv.org/abs/1705.02601][Logic lectures: Gödel’s basic logic course at Notre Dame]]. #Logic
+ [[http://www.haskellforall.com/2018/02/the-wizard-monoid.html][The wizard monoid]]. ~ G. González #Haskell
+ [[https://arxiv.org/abs/1802.01795][A Lean formalization of Matiyasevič's theorem]]. ~ Mario Carneiro #ITP #Lean
+ [[https://github.com/lnds/9d9l][9 desafíos en 9 lenguajes de programación (#Clojure, #Erlang, #Fsharp, #Go,
#Haskell, #Kotlin, #Rust, #Scala y #Swift)]]. ~ Eduardo Díaz Cortés
+ [[http://kaygun.tumblr.com/post/170534412629/egyptian-fractions][Egyptian fractions]]. ~ Atabey Kaygun #CommonLisp #Math
+ [[https://www.tweag.io/posts/2018-02-05-free-monads.html][Free monads for cheap interpreters]]. ~ James Haydon #Haskell
+ [[https://www.isa-afp.org/entries/First_Order_Terms.html][First-order terms in Isabelle/HOL]]. ~ Christian Sternagel, René Thiemann #ITP
#IsabelleHOL
+ [[http://scholarship.claremont.edu/cgi/viewcontent.cgi?article=1369&context=jhm][Predicting the next US President by simulating the electoral college]]. ~
B. Kostadinov #Rstats #DataScience #CompSci
+ [[http://ilyasergey.net/pnp/pnp.pdf][Programs and proofs (Mechanizing Mathematics with dependent types)]]. ~ Ilya
Sergey #ITP #Coq #Math
+ [[https://www.isa-afp.org/entries/Treaps.html][Treaps in Isabelle/HOL]]. ~ Manuel Eberl, Max Haslbeck and Tobias Nipkow #ITP
#IsabelleHOL
+ [[https://www.isa-afp.org/entries/Error_Function.html][The error function in Isabelle/HOL]]. ~ Manuel Eberl #ITP #IsabelleHOL
+ [[http://kaygun.tumblr.com/post/170645268864/linus-sequence][Linus sequence]]. ~ Atabey Kaygun #CommonLisp
+ [[https://github.com/olligobber/lambdacalc][Lambda calculus tools and interpreter written in Haskell]]. #Haskell
#LambdaCalculus
+ [[http://blog.computationalcomplexity.org/2018/02/for-love-of-algorithms.html][For the love of algorithms]]. ~ Lance Fortnow
+ [[https://lexi-lambda.github.io/blog/2018/02/10/an-opinionated-guide-to-haskell-in-2018][An opinionated guide to Haskell in 2018]]. ~ Alexis King
#Haskell
+ [[https://github.com/berewt/twerk][Twerk, a twitter archive parser with pipes utilities (in Haskell)]]. ~ Nicolas
B. #Haskell
+ [[https://www.isa-afp.org/entries/LLL_Factorization.html][A verified factorization algorithm for integer polynomials with polynomial
complexity]]. ~ Jose Divasón, Sebastiaan Joosten, René Thiemann and Akihisa
Yamada #ITP #IsabelleHOL
+ [[https://arxiv.org/pdf/1802.01738][Formal verification of spacecraft control programs using a metalanguage for
state transformers]]. ~ A. Mokhov, G. Lukyanov, J. Lechner #Haskell
+ [[https://arxiv.org/pdf/1802.00588][When good components go bad: formally secure compilation despite dynamic
compromise]]. ~ G. Fachini et als. #ITP #Coq
+ [[http://www1.eafit.edu.co/asr/courses/ffpl-CM0848/ffpl-slides.pdf][Foundations of functional programming languages]]. ~ Andrés Sicard Ramírez
#FunctionalProgramming #LambdaCalculus
+ [[http://www1.eafit.edu.co/asr/pubs/others/acevedo-acosta--echeverri-jurado-2017.una-formalisacion-del-sistema-de-los-numeros-reales-pantalla.pdf][Una formalización del sistema de los números reales]]. ~ Jorge O. Acevedo y
José L. Echeverri #ITP #Agda #Math
+ [[https://www.campusmvp.es/recursos/post/que-lenguajes-de-programacion-se-usan-mas-los-fines-de-semana.aspx][¿Qué lenguajes de programación se usan más los fines de semana?]] ~ Julia Silge #DataScience #Haskell
+ [[https://stackoverflow.blog/2017/02/07/what-programming-languages-weekends][What programming languages are used most on weekends?]] ~ Julia Silge
#DataScience #Haskell
+ [[https://ts.data61.csiro.au/publications/nicta_full_text/8655.pdf][Verified over-approximation of the diameter of propositionally factored
transition systems]]. ~ M. Abdulaziz, C. Gretton, M. Norrish #ITP #HOL4
+ [[https://github.com/jonaprieto/stlctalk/raw/master/slides/slides.pdf][The simply typed lambda calculus (in Agda)]]. ~ Jonathan Prieto-Cubides #ITP
#Agda #LambdaCalculus
+ [[http://doisinkidney.com/posts/2018-02-11-monadic-list.functions.html][Monadic list functions]]. ~ Donnacha Oisín Kidney #Haskell
+ [[http://bit.ly/2G9xoOv][Sn̊arkl: Somewhat practical, pretty much declarative verifiable computing in
Haskell]]. ~ G. Stewart, S. Merten, L. Leland #Haskell
+ [[https://hal.archives-ouvertes.fr/hal-01684093/document][Hydra Ludica: Une preuve d'impossibilité de prouver simplement]]. ~ P. Castéran
#ITP #Coq
+ [[https://blog.jle.im/entry/introducing-the-backprop-library.html][Introducing the backprop library]]. ~ Justin Le #Haskell
+ [[https://blog.desdelinux.net/puede-blockchain-hacernos-mas-libres][¿Cómo puede “Blockchain” hacernos más libres?]] #Blockchain
+ [[https://github.com/weirdNox/org-noter][Org-noter: A synchronized, Org-mode, document annotator]]. ~ Gonçalo Santos
#Emacs
+ [[http://www.cl.cam.ac.uk/archive/mjcg/plans/Coinduction.html][Corecursion and coinduction: what they are and how they relate to recursion
and induction]]. ~ Mike Gordon
+ [[https://www.forbes.com/sites/quora/2018/02/12/what-i-wish-id-known-when-i-started-functional-programming/#1ef1884348e1][What I Wish I'd Known When I Started Functional Programming]]. ~ Tikhon Jelvis
#FunctionalProgramming
+ [[https://arxiv.org/abs/1712.03894][Coqatoo: Generating natural language versions of Coq proofs]]. ~ A. Bedford
#ITP #Coq
+ [[https://github.com/expipiplus1/exact-real][Exact real arithmetic implemented by fast binary Cauchy sequences]]. ~ Joe
Hermaszewski #Haskell #Math
+ [[https://arxiv.org/pdf/1802.01336][Verifying asymptotic time complexity of imperative programs in Isabelle/HOL]].
~ B. Zhan, M.P.L. Haslbeck #ITP #IsabelleHOL
+ [[http://www.cl.cam.ac.uk/archive/mjcg/plans/Backpropagation.html][My attempt to understand the backpropagation algorithm for training neural networks]]. ~ Mike Gordon
+ [[https://arxiv.org/abs/1802.02732][The higher-order prover Leo-III]]. ~ A. Steen, C. Benzmüller #ITP
+ [[http://www.cs.princeton.edu/~appel/papers/wand-frame.pdf][Proof pearl: Magic wand as frame]]. ~ Q. Cao, S. Wang, A. Hobor, A.W. Appel
#ITP #Coq
+ [[https://codearsonist.com/reading-for-programmers][Reading for programmers]]. ~ P. Limanowski #Emacs
+ [[http://blog.acthompson.net/2018/02/quotes-about-programming-and-computer.html][Quotes about programming and computer science]]. ~ A. Thompson
#Quote #Programming #CompSci
+ [[http://kaygun.tumblr.com/post/170731635904/van-ecks-sequence][Van Eck’s sequence]]. ~ Atabey Kaygun #CommonLisp #Math
+ [[https://mmhaskell.com/blog/2018/2/12/applicative-parsing-i-building-the-foundation][Applicative parsing I: building the foundation]]. ~ James Bowen
#Haskell
+ [[http://www.cs.princeton.edu/~appel/papers/VST-Floyd.pdf][VST-Floyd: A separation logic tool to verify correctness of C programs]]. ~
Q. Cao, L. Beringer, S. Gruetter, J. Dodds, A.W. Appel #ITP #Coq
+ [[https://arxiv.org/abs/1802.03292][Mathematical Logic in Computer Science]]. ~ A. Kfoury #Logic #CompSci
+ [[https://cacm.acm.org/news/225322-do-computers-really-think/fulltext][Do computers really think?]] ~ R. Colin Johnson #AI
+ [[http:arxiv.org/abs/1802.05340][From gameplay to symbolic reasoning: Learning SAT solver heuristics in the style of Alpha(Go) Zero]].
~ F. Wang, T. Rompf #ATP #SAT
+ [[http://matryoshka.gforge.inria.fr/pubs/supdata_paper.pdf][Superposition with datatypes and codatatypes]]. ~ J.C. Blanchette, N. Peltier,
S. Robillard #ATP #Vampire
+ [[http://kenta.blogspot.com.es/2018/02/omqzhxkn-lagrange-four-square-theorem.html][Lagrange four-square theorem examples]]. ~ Ken T Takusagawa #Haskell #Math
+ [[https://dzone.com/articles/conventional-interfaces-in-functional-programming][Conventional interfaces in functional programming]]. ~ Carlos Morera #Haskell
+ [[https://emanueleviola.wordpress.com/2018/02/16/i-believe-pnp][I believe P=NP]]. ~ Emanuele Viola #CompSci #Math
+ [[https://arxiv.org/abs/1802.03685][Learning a SAT solver from single-bit supervision]]. ~ D. Selsam et als. #ATP
#SAT #NeuralNetwork
+ [[https://github.com/hubbards/group-theory-haskell][Group theory in Haskell]]. ~ Spencer Hubbard #Haskell #Math
+ [[https://bartoszmilewski.com/2018/02/17/free-monoidal-functors][Free monoidal functors]]. ~ Bartosz Milewski #Haskell
#CategoryTheory
+ [[https://github.com/lehins/massiv][massiv: Efficient Haskell arrays featuring parallel computation]]. ~
Alexey Kuleshevich #Haskell
+ [[https://arxiv.org/abs/1802.04007][ProofWatch: Watchlist guidance for large theories in E]]. ~ Z. Goertzel,
J. Jakubův, S. Schulz, J. Urban #APT
+ [[https://github.com/hubbards/relational-algebra-haskell][Relational algebra in Haskell]]. ~ Spencer Hubbard #Haskell #Math
+ [[https://github.com/lehins/haskell-exercises][Haskell exercises with automatic tests]]. ~ Alexey Kuleshevich #Haskell
+ [[http://neilmitchell.blogspot.com.es/2018/02/atomic-expressions-generically.html][Atomic expressions generically]]. ~ Neil Mitchell #Haskell
+ [[https://arxiv.org/abs/1802.03375][ATPboost: Learning premise selection in binary setting with ATP feedback]]. ~
B. Piotrowski, J. Urban #ATP #ML
+ [[https://github.com/hubbards/stlc-haskell][Simply typed lambda calculus in Haskell]]. ~ Spencer Hubbard #Haskell #Math
+ [[https://dl.acm.org/citation.cfm?id=3133911][A verified messaging system]]. ~ W. Mansky, A.W. Appel, A. Nogin #ITP #Coq
+ [[https://hal.archives-ouvertes.fr/hal-01703922/document][A formal proof of the minor-exclusion property for treewidth-two graphs]].
~ C. Doczkal, G. Combette, D. Pous #ITP #Coq
+ [[https://bartoszmilewski.com/2018/02/20/free-monoidal-profunctors][Free monoidal profunctors]]. ~ Bartosz Milewski
#Haskell #CategoryTheory
+ [[https://arxiv.org/abs/1802.04315][Higher groups in Homotopy Type Theory]]. ~ U. Buchholtz, F. van Doorn,
E. Rijke #ITP #Lean #Math #HoTT
+ [[https://hal.inria.fr/hal-01707376/document][Journées francophones des langages applicatifs 2018 (JFLA 2018)]]. ~
S. Boldo, N. Magaud
+ [[https://www.cs.kent.ac.uk/people/staff/sjt/TTFP/][Type theory and functional programming]]. ~ S. Thompson #eBook
#FunctionalProgramming #TypeTheory
+ [[https://blog.infinitenegativeutility.com/2017/12/some-notes-about-how-i-write-haskell][Some notes about how I write Haskell]]. ~ @aisamanra #Haskell
+ [[http://www.cs.cornell.edu/courses/cs6180/2017fa/notes/week4/lecture8/Martin-Lof-ConstructiveMathematicsAndComputerProgramming][Constructive mathematics and computer programming]]. ~ P. Martin-Löf
#Math #CompSci
+ [[http://www.cs.cornell.edu/courses/cs6180/2017fa/notes/week14/CS6180-Lect26.pdf][Automated reasoning and ultra-intuitionism]]. ~ R.L. Constable #Logic
#ATP #ITP
+ [[http://www.scitepress.org/Papers/2017/62578/62578.pdf][Educating computer science educators online (A Racket MOOC for
elementary math teachers of Finland)]]. ~ T. Partanen, P. Niemelä,
L. Mannila, T. Poranen #Racket
+ [[http://www.cmm.uchile.cl/~mbodin/paperoj/coqpl18.pdf][A Coq formalisation of a core of R]]. ~ M. Bodin #ITP #Coq #Rstats
+ [[https://www.slideshare.net/JarekRatajski/eta-88717991][Beauty and the beast (Eta Haskell for JVM)]]. ~ Jarek Ratajski
#Haskell
+ [[https://elpais.com/elpais/2018/02/19/ciencia/1519033592_636265.html][David Hilbert y la defensa del rigor matemático]]. ~ F. Bombal #Matemáticas
+ [[https://janmasrovira.gitlab.io/ascetic-slug/post/ascii-fractals/][ASCII fractals in Haskell]]. ~ Jan Mas Rovira #Haskell
+ [[https://arxiv.org/abs/1802.07284][Logic programming applications: What are the abstractions and
implementations?]] ~ Y.A. Liu #LogicProgramming
+ [[https://hal.archives-ouvertes.fr/hal-01702815/document][Making agile development processes fit for V-style certification
procedures]]. ~ S. Bezzecchi, P. Crisafulli, C. Pichot, B. Wolff #ITP
#IsabelleHOL
+ [[https://github.com/MaiaVictor/cedille-core][A minimal (<500 LOC) programming language capable of proving theorems about
its own terms]]. #Haskell #Logic
+ [[http://www.microsiervos.com/archivo/espacio/fallo-programacion-desvio-primer-ariane-5-2018-de-trayectoria.html][Un fallo de programación desvió al primer Ariane 5 de 2018 de su
trayectoria]]. ~ @Wicho #Programación
+ [[https://cacm.acm.org/blogs/blog-cacm/225148-lets-not-forget-the-science-in-computer-science/fulltext][Let's not forget the 'Science' in 'Computer Science']]. ~ W.S. Saba #CompSci
+ [[https://arxiv.org/abs/1707.05371][Comparing classical and relativistic kinematics in first-order
logic]]. ~ K. Lefever, G. Székely #Logic #Physics
+ [[http://openlogicproject.org/2018/02/22/modal-logic-propositional-logic-tableaux/][Modal logic! Propositional logic! Tableaux!]] ~ R. Zach
#Logic
+ [[http://builds.openlogicproject.org/courses/boxes-and-diamonds/bd-screen.pdf][Boxes and diamonds (An open introduction to modal logic)]]. ~ R. Zach
#eBook #Logic
+ [[https://www.jstatsoft.org/article/view/v046i03/v46i03.pdf][A multi-language computing environment for literate programming and reproducible research]]. ~ E. Schulte, D. Davison, T. Dye, C. Dominik
#Emacs
+ [[https://github.com/erikriverson/org-mode-R-tutorial/blob/master/org-mode-R-tutorial.org][Org-mode and R: An introduction]]. ~ Erik Iverson #Emacs #OrgMode #Rstats
+ [[https://www.r-project.org/conferences/useR-2011/TalkSlides/Contributed/16Aug_1115_FocusI_4-ReportingWorkflows_3-Leha.pdf][The emacs org-mode (Reproducible research and beyond)]]. ~ A. Leha
#Emacs #OrgMode #Rstats
+ [[http://www21.in.tum.de/~nipkow/pubs/dp.pdf][Verified memoization and dynamic programming]]. ~ S. Wimmer, S. Hu,
T. Nipkow #ITP #IsabelleHOL
+ [[https://github.com/jwbuurlage/category-theory-programmers][Notes on category theory in the context of (functional) programming]]. ~
J.W. Buurlage #FunctionalProgramming #Haskell #CategoryTheory
+ [[http://chrispenner.ca/posts/asts-with-fix-and-free.html][ASTs with Fix and Free]]. ~ Chris Penner #Haskell
+ [[https://youtu.be/SzA2YODtgK4][Getting started with Org mode]]. ~ Harry Schwartz #Emacs #OrgMode
+ [[http://www.glc.us.es/~jalonso/vestigium/slc2018-presentacion-del-seminario-de-logica-computacional-2018/][SLC2018: Presentación del “Seminario de Lógica Computacional” (2018)]].
+ [[https://idontgetoutmuch.wordpress.com/2018/02/25/reproducibility-and-old-faithful][Reproducibility and Old Faithful]]. ~ Dominic Steinitz
#Haskell #DataScience
+ [[https://arxiv.org/abs/1802.08437][Abstract completion, formalized]]. ~ N. Hirokawa, A. Middeldorp,
C. Sternagel, S. Winkler #IsabelleHOL
+ [[http://archive.indianstatistics.org/tools/orgpapers.pdf][Using Emacs, Org-mode and R for research writing in social sciences]] (A
toolkit for writing reproducible research papers and monographs). ~
Vikas Rawal #Emacs #OrgMode #Rstats
+ [[https://github.com/andrew-bedford/coqatoo][Coqatoo: Generates natural language versions of Coq proofs]]. ~ Andrew
Bedford #ITP #Coq
+ [[https://liquid.kosmikus.org][Liquid Haskell tutorial]]. ~ Andres Löh #Haskell #LiquidHaskell
+ [[https://arxiv.org/abs/1802.08454][Faithful semantical embedding of a dyadic deontic logic in HOL]]. ~
C. Benzmüller, A. Farjami, X. Parent #ITP #IsabelleHOL #Logic
+ [[https://www.cs.auckland.ac.nz/~cristian/crispapers/56250217.pdf][Formal proof: reconciling correctness and understanding]]. ~
C.S. Calude, C. Müller #ITP #Logic
+ [[http://eschulte.github.io/org-scraps][A collection of short Org-mode snippets demonstrating the usage of
code blocks]]. ~ Eric Schulte #Emacs #OrgMode
+ [[http://www.livemint.com/Sundayapp/zDSjhU5IzcuI7ypo6W4WtL/Why-data-science-is-simply-the-new-astrology.html][Why data science is simply the new astrology]]. ~ Karthik Shashidhar
#DataScience
+ [[https://www.isa-afp.org/entries/Hoare_Time.html][Hoare logics for time bounds]]. ~ M.P.L. Haslbeck, T. Nipkow #ITP
#IsabelleHOL #SLC2018
+ [[https://github.com/norvig/paip-lisp][Paradigms of artificial intelligence programming: case studies in
Common Lisp]]. ~ Peter Norvig #eBook #AI #CommonLisp
+ [[https://pdfs.semanticscholar.org/1820/ffb9149248fd1673b7db8749db0171c412e2.pdf][A categorical manifesto]]. ~ J.A. Goguen #CategoryTheory #CompSci #Math
+ [[https://lispcast.com/lambdup-2017-theory-functional-programming][A theory of functional programming]]. ~ Eric Normand
#FunctionalProgramming
+ [[https://www.math.uh.edu/~tomforde/Links-Math.html][Links to some of the most famous articles about mathematics]]. #Math
+ [[https://www.math.uh.edu/~tomforde/Articles/DeathOfProof.pdf][The death of proof]]. ~ John Horgan #Math
+ [[https://www.math.uh.edu/~tomforde/Articles/Immortaility-of-Proof.pdf][The immortaility of proof]]. ~ Steven G. Krantz #Math
+ [[https://machinelearning.technicacuriosa.com/2017/03/19/a-darpa-perspective-on-artificial-intelligence/][A DARPA perspective on Artificial Intelligence]]. ~ John Launchbury #AI
+ [[https://christophm.github.io/interpretable-ml-book][Interpretable machine learning (A guide for making black box models
explainable)]]. ~ Christoph Molnar #MachineLearning
#XAI
+ [[https://en.wikipedia.org/wiki/Timeline_of_artificial_intelligence][Timeline of artificial intelligence]]. #AI
+ [[https://www.tweag.io/posts/2018-02-28-bazel-haskell.html][Build large polyglot projects with Bazel ... now with Haskell support]].
~ M. Boespflug, M. Karpov, M. Kowalczyk #Haskell #Bazel
+ [[https://cs.famaf.unc.edu.ar/~hoffmann/rio18/][El sistema de tipos de Haskell/GHC y sus extensiones]]. ~ Guillaume
Hoffmann #Haskell
** Marzo 2018
+ [[http://www.andreas-lochbihler.de/pub/lochbihler2018.pdf][Fast machine words in Isabelle/HOL]]. ~ A. Lochbihler #ITP #IsabelleHOL
+ [[https://www.ethz.ch/en/news-and-events/eth-news/news/2018/02/teaching-quantum-physics-to-a-computer.html][Teaching quantum physics to a computer]]. ~ Oliver Morsch #MachineLearning
+ [[https://www.slideshare.net/ssuserc0b705/artificial-intelligence-and-its-applications-in-healthcare-and-pharmacy][Artificial intelligence and its applications in healthcare and pharmacy]]. ~ Atul Adhikari #AI
+ [[http://irreal.org/blog/?p=6987][A reproducible research toolkit]]. #Emacs #OrgMode #Rstats
+ [[https://github.com/vikasrawal/orgpaper/blob/master/orgpapers.org][Using Emacs, Org-mode and R for Research Writing in Social Sciences]]. ~
Vikas Rawal #Emacs #OrgMode #Rstats
+ [[https://openlibra.com/es/book/matematica-discreta-en-haskell][Matemática discreta en Haskell]]. ~ María Dolores Valverde Rodríguez
#Haskell #Matemáticas #OpenLibra
+ [[https://www.isa-afp.org/entries/Architectural_Design_Patterns.html][A theory of architectural design patterns in Isabelle/HOL]]. ~ Diego
Marmsoler #ITP #IsabelleHOL
+ [[http://briansteffens.com/2017/02/20/from-math-to-machine.html][From math to machine: translating a function to machine code]]. ~ Brian
Steffens #Programming #Math #Haskell #Imperative_language
#Assembly_language #Machine_code #I1M2017
+ [[http://jxv.io/blog/2018-02-28-A-Game-in-Haskell.html][A Game in Haskell: Dino Rush]]. ~ Joe Vargas #Haskell #Game
+ [[http://blog.ielliott.io/comonad-transformers-in-the-wild/][Comonad Transformers in the Wild]]. ~ Isaac Elliott #Haskell
+ [[https://paulspontifications.blogspot.com.es/2018/02/haskell-with-reactive-banana-and-gtk3.html][Haskell with Reactive Banana and GTK3]]. ~ Paul Johnson #Haskell
+ [[https://functor.tokyo/blog/2018-03-02-pretty-simple-cli-exe][CLI program for pretty-printing Haskell datatypes]]. ~ Dennis Gosnell
#Haskell
+ [[https://two-wrongs.com/a-gentle-introduction-to-monad-transformers][A gentle introduction to monad transformers]]. #Haskell
+ [[http://www.microsiervos.com/archivo/ia/curso-intensivo-gratuito-google-aprendizaje-automatico-inteligencia-artificial.html][Curso intensivo de Google sobre aprendizaje automático e inteligencia artificial (en español)]]. #IA
+ [[https://github.com/fniessen/stage-latex-dunkerque-2012/blob/master/stage-latex-dunkerque-2012-slides.pdf][Org mode pour LaTeXiens]]. ~ Fabrice Niessen #Emacs #OrgMode #LaTeX
+ [[https://whatthefunctional.wordpress.com/haskell-for-the-imperative][Haskell for the imperative]]. ~ Laurence Emms #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/02/26/getting-started-with-haskell/][Getting started with Haskell]]. ~ Laurence Emms #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/03/01/the-type-language/][The type language]]. ~ Laurence Emms #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/03/03/mandelbrot/][Mandelbrot fractal in Haskell]]. ~ Laurence Emms #Haskell
+ [[http://www.cse.chalmers.se/~nicsma/papers/quickspec2.pdf][Quick specifications for the busy programmer]]. ~ N. Smallbone,
M. Johansson, K. Claessen, M. Algehed #Haskell
+ [[https://dl.acm.org/ft_gateway.cfm?id=3159535&ftid=1946727&dwn=1&CFID=12174721&CFTOKEN=cc9104d69a4c2dc4-2F7E93CC-950A-56DC-0EBB03DD3F3E7470][Quick-Sort: a pet peeve]]. ~ A. Nunes-Harwitt, M. Gambogi, T. Whitaker #Haskell
+ [[http://www.i-programmer.info/news/105-artificial-intelligence/11599-data-science-predicts-oscar-winner.html][Data Science predicts Oscar winner]]. ~ Lucy Black #AI #DataScience
+ [[https://codesync.global/media/successful-companies-using-elixir-and-erlang/][Successful companies use Erlang and Elixir]]. #FunctionalProgramming
#Erlang #Elixir
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?ThEdu17.9.pdf][Natural deduction and the Isabelle proof assistant]]. ~ J. Villadsen,
A. Halkjær, A. Schlichtkrull #ITP #IsabelleHOL #Logic
+ [[https://nadea.compute.dtu.dk][NaDeA: A Natural Deduction Assistant with a formalization in Isabelle]].
#IsabelleHOL #Logic #NaDeA
+ [[http://www.uni-kassel.de/eecs/fachgebiete/fmv/projects/sequent-calculus-trainer.html][The Sequent Calculus Trainer]]: a tool that aims at supporting students
in learning how to correctly construct proofs in the sequent calculus
for propositional logic and first-order logic with equality. #Logic
+ [[https://www.uni-kassel.de/eecs/fileadmin/datas/fb16/Fachgebiete/FMV/Abschlussarbeiten/Masterarbeit_Arno_Ehle.pdf][Proof search in the sequent calculus for first-order logic with equality]].
~ Arno Ehle #ATP #Logic
+ [[https://www.stackbuilders.com/tutorials/haskell/image-processing][Image processing with Juicy Pixels and Repa]]. ~ Mark Karpov
#Haskell
+ [[http://sites.math.rutgers.edu/~zeilberg/math436_17.html][History of Mathematics]]. ~ Doron Zeilberger #Math #History
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?ThEdu17.1.pdf][Learning how to prove: From the Coq proof assistant to textbook style]].
~ S. Böhne, C. Kreitz #ITP #Coq #Logic
+ [[http://www.math.rutgers.edu/~zeilberg/akherim/struik.pdf][Concise history of Mathematics]]. ~ Dirk J. Struik #eBook #Math #History
+ [[https://web.hypothes.is][Hypothesis: Annotate the web, with anyone, anywhere]]. ~ @hypothes_is
#Annotation
+ [[https://www.vacationlabs.com/haskell/index.html][Haskell without the theory]]. ~ Saurabh Nanda #Haskell
+ [[http://fuuzetsu.co.uk/blog/posts/2018-03-03-GHC-compact-regions-for-improved-latency.html][Trying out GHC compact regions for improved latency (Pusher case study)]].
~ Mateusz Kowalczyk #Haskell
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?ThEdu17.2.pdf][The Sequent Calculus Trainer with automated reasoning (Helping
students to find proofs)]]. ~ A. Ehle, N. Hundeshagen, M. Lange #Logic
+ [[https://nautil.us/issue/24/error/in-mathematics-mistakes-arent-what-they-used-to-be][In Mathematics, mistakes aren’t what they used to be]] (Computers can’t
invent, but they’re changing the field anyway). ~ Siobhan Roberts
#Math #CompSci
+ [[https://idontgetoutmuch.wordpress.com/2018/03/04/implicit-runge-kutta-and-gnu-scientific-library][Implicit Runge Kutta and GNU scientific library]]. ~ Dominic Steinitz
#Haskell #Math
+ [[https://www.slideshare.net/RodrigoDeFrutosBalle/qu-demonios-es-la-programacin-funcional][¿Qué demonios es la programación funcional?]] ~ Rodrigo de Frutos
#ProgramacionFuncional
+ [[https://medium.com/@miguelsaddress/funtores-aplicativos-y-m%C3%B3nadas-en-im%C3%A1genes-21ab0e60fe23][Funtores, Aplicativos y Mónadas en imágenes]]. ~ Miguel Á. Moreno #Haskell
+ [[https://arxiv.org/abs/1803.00699][QWIRE practice: Formal verification of quantum circuits in Coq]]. ~
R. Rand, J. Paykin, S. Zdancewic #ITP #Coq
+ [[https://patrickdoc.github.io/criterion.html][Measuring functions in Criterion]]. ~ Patrick Dougherty #Haskell
+ [[http://gitcommit.co.uk/2017/03/25/simple-fractals-in-haskell][Simple fractals in Haskell]]. ~ @Mike_K_Houghton #Haskell
+ [[https://link.springer.com/article/10.1007/s10817-018-9458-4][Hammer for Coq: automation for dependent type theory]]. ~ Ł. Czajka,
C. Kaliszyk #ITP #Coq
+ [[http://www.usrsb.in/symbolic-execution-intuition-and-implementation.html][Symbolic execution: intuition and implementation]]. ~ Alex #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/03/07/making-a-text-adventure-in-haskell-part-1][Making a text adventure in Haskell (Part 1)]]. ~ Laurence Emms
#Haskell
+ [[https://hal.archives-ouvertes.fr/hal-01716048/document][A Coq formalisation of SQL’s execution engines]]. ~ V. Benzaken et
als. #ITP #Coq
+ [[https://github.com/qfpl/applied-fp-course/][Applied functional programming course]]. #Haskell
+ [[https://github.com/portnov/circles-puzzle][Simple puzzle with rotating circles]]. ~ Ilya V. Portnov #Haskell #Gloss
+ [[https://www.well-typed.com/blog/2018/03/oop-in-haskell/][Object oriented programming in Haskell]]. ~ Edsko de Vries #Haskell
+ [[https://members.loria.fr/DLarchey/files/papers/ITP_2018_paper_16.pdf][Proof Pearl: Constructive extraction of cycle finding algorithms]]. ~
D. Larchey-Wendling #ITP #Coq #SLC2018
+ [[https://purelyfunctional.org/posts/2018-03-04-monadfix-lazy-strict-state.html][MonadFix and the lazy and strict state monad]]. ~ Moritz Kiefer
#Haskell
+ [[https://jaspervdj.be/posts/2018-03-08-handle-pattern.html][Haskell design patterns: The handle pattern]]. ~ Jasper Van der Jeugt
#Haskell
+ [[https://www.tweag.io/posts/2018-03-08-linear-sort.html][Implementing a safer sort with linear types]]. ~ Alexander Vershilov,
Arnaud Spiwack #Haskell
+ [[https://members.loria.fr/DLarchey/files/papers/IJCAR-2018_paper_74.pdf][Constructive decision via redundancy-free proof-search]]. ~
D. Larchey-Wendling #ITP #Coq #SLC2018
+ [[http://bulletin.eatcs.org/index.php/beatcs/article/download/522/513][Who needs category theory?]] ~ A. Blass, Y. Gurevich #CategoryTheory
#CompSci
+ [[http://www.kovach.me/posts/2018-03-07-generating-art.html][Generating artwork with Haskell]]. ~ Benjamin Kovach #Haskell
+ [[https://cacm.acm.org/careers/225898-proposal-recommends-ai-training-in-chinas-primary-secondary-schools/fulltext][Proposal recommends AI training in China's primary, secondary schools]]. #AI
+ [[http://sachachua.com/blog/2018/03/using-org-mode-latex-beamer-and-medibang-paint-to-make-a-childrens-book/][Using Org Mode, LaTeX, Beamer, and Medibang Paint to make a children’s book]].
~ Sacha Chua #Emacs #OrgMode #LaTeX #Beamer
+ [[http://changelog.complete.org/archives/9861-emacs-1-ditching-a-bunch-of-stuff-and-moving-to-emacs-and-org-mode][Emacs #1: Ditching a bunch of stuff and moving to Emacs and org-mode]].
~ John Goerzen #Emacs #OrgMode
+ [[https://changelog.complete.org/archives/9865-emacs-2-introducing-org-mode][Emacs #2: Introducing org-mode]]. ~ John Goerzen #Emacs #OrgMode
+ [[https://changelog.complete.org/archives/9877-emacs-3-more-on-org-mode][Emacs #3: More on org-mode]]. ~ John Goerzen #Emacs #OrgMode
+ [[http://home.in.tum.de/~wimmers/html-data/papers/PTA.pdf][MDP+TA = PTA: Probabilistic timed automata, formalized (short paper)]].
~ S. Wimmer, J. Hölzl #ITP #IsabelleHOL
+ [[https://soupi.github.io/rfc/writing_simple_haskell][Writing simple Haskell]]. ~ Gil Mizrahi #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/03/10/making-a-text-adventure-in-haskell-part-2/][Making a text adventure in Haskell (Part 2)]]. ~ Laurence Emms
#Haskell
+ [[https://github.com/cerner/clara-rules][Clara-rules: Forward-chaining rules in Clojure]]. #Clojure
+ [[https://www.slideshare.net/MykhailoMichaelPersh/clojured-ai2018pubrastpng-90157567][Clojure and AI]]. ~ Michael Pershyn #Clojure #AI
+ [[http://adam.chlipala.net/theses/jadep_meng.pdf][Correct-by-construction finite field arithmetic in Coq]]. ~ J. Philipoom
#ITP #Coq #Math
+ [[https://lettier.github.io/posts/2016-06-01-data-visualization-with-haskell-nyc-public-urination.html][Data visualization with Haskell: NYC public urination]]. ~ David Lettier
#Haskell #DataScience
+ [[http://shinyapps.org/apps/RGraphCompendium/index.php][A compendium of clean graphs in R (version 2.0)]]. ~ E.J.Wagenmakers,
Q.F. Gronau #Rstats
+ [[http://www.owlofminerva.net/files/fom.pdf][Foundations of Mathematics]]. ~ Ken Kubota #Math #Logic
#LamdaCalculus #ITP #IsabelleHOL #Coq #PVS #Agda
+ [[https://hal.inria.fr/hal-01719918/document][Formalization techniques for asymptotic reasoning in classical analysis]]. ~ R. Affeldt, C. Cohen, D. Rouhling #ITP #Coq #Math
+ [[https://lettier.github.io/posts/2016-04-29-breadth-first-search-in-haskell.html][Breadth-first search in Haskell]]. ~ David Lettier #Haskell
+ [[https://arxiv.org/abs/1803.04263][Intelligible Artificial Intelligence]]. ~ D.S. Weld, G. Bansal #AI #XAI
+ [[http://www.htdp.org/2018-01-06/Book][How to design programs (2nd edition, 2018)]]. ~ M. Felleisen,
R.B. Findler, M. Flatt, S. Krishnamurthi #eBook #Programming #DrRacket
+ [[https://www.isa-afp.org/entries/Weight_Balanced_Trees.html][Weight-balanced trees in Isabelle/HOL]]. ~ T. Nipkow, S. Dirix
#IsabelleHOL
+ [[https://lettier.github.io/posts/2016-04-14-max-subarray-in-haskell.html][Max subarray in Haskell]]. ~ David Lettier #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/03/13/text-reflow-in-haskell/][Text Reflow in Haskell]]. ~ Laurence Emms #Haskell
+ [[http://www.cse.buffalo.edu/~knepley/classes/cse191/ClassNotes.pdf][Discrete structures]]. ~ M.G. Knepley #eBook #Math #ITP #Coq
+ [[http://aperiodical.com/2018/03/the-oeis-now-contains-300000-integer-sequences][The OEIS now contains 300,000 integer sequences]]. ~ C. Lawson-Perfect #Math
+ [[https://arxiv.org/abs/1803.04646][On cryptographic attacks using backdoors for SAT]]. ~ A. Semenov et
als. #SAT
+ [[https://040code.github.io/2018/03/04/verlet-integration/][Verlet integration (Physics simulation in Clojure)]]. ~ M. Metz
#Clojure #Physics
+ [[https://github.com/owickstrom/domain-modeling-with-haskell-data-structures][Domain modeling with Haskell data structures]]. ~ Oskar Wickström
#Haskell
+ [[http://bit.ly/2GAkWbX][Multiplicar es mas fácil de lo que piensas]]. ~ Juan Arias de Reyna
#Matemáticas #Algorítmica
+ [[http://www2.imm.dtu.dk/pubdb/views/edoc_download.php/7095/pdf/imm7095.pdf][Formalized first-order logic. ~ A.H. From]] #ITP #IsabelleHOL #Logic
+ [[http://www.hg.schaathun.net/FPIA/general.php][Course: Functional programming and intelligent algorithms]]. ~ Hans
Georg Schaathun #Haskell #AI
+ [[https://arxiv.org/abs/1803.04870][Narcissus: Deriving correct-by-construction decoders and encoders from
binary formats]]. S. Suriyakarn, C. Pit-Claudel, B. Delaware,
A. Chlipala #ITP #Coq
+ [[http://www2.imm.dtu.dk/pubdb/views/edoc_download.php/7094/pdf/imm7094.pdf][Formalized unification algorithms]]. ~ K. Hvidtfeldt #ITP #IsabelleHOL
#Logic
+ [[https://plato.stanford.edu/entries/mathematics-explanation][Explanation in Mathematics]] (in "The Stanford Encyclopedia of
Philosophy"). ~ Paolo Mancosu #Math #Philosophy
+ [[http://doisinkidney.com/posts/2018-03-17-rose-trees-breadth-first.html][Rose trees, breadth-first]]. ~ Donnacha Oisín Kidney #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/03/18/lessons-learned/][Lessons learned]]. ~ Laurence Emms #Haskell
+ [[https://medium.com/ventre-tech/haskells-triangle-or-more-fun-with-recursion-9350155689ac][Haskell’s triangle: or, more fun with recursion]]. ~ Thomas Cothran
#Math #Haskell #JavaScript
+ [[https://elpais.com/tecnologia/2018/03/16/actualidad/1521204836_317670.html][Máquinas listas, pero sin sentido común]]. ~ Ramon López de Mántaras #IA
+ [[http://www2.imm.dtu.dk/pubdb/views/edoc_download.php/7091/pdf/imm7091.pdf][Formalization of a near-linear time algorithm for solving the
unification problem]]. ~ K.F. Brandt #ITP #IsabelleHOL #Logic
+ [[https://whatthefunctional.wordpress.com/2018/03/19/making-a-text-adventure-in-haskell-part-3/][Making a text adventure in Haskell (Part 3)]]. ~ Laurence Emms
#Haskell
+ [[https://arxiv.org/abs/1803.05316][Seven sketches in compositionality: An invitation to applied category
theory]]. ~ B. Fong, D.I Spivak #CategoryTheory
+ [[https://medium.com/q-e-d/fundamental-tools-for-math-in-2018-78739b86d15][Fundamental tools for Math in 2018]]. ~ Robert L. Read #Math
+ [[https://cocalc.com][CoCalc: Collaborative Calculation in the Cloud]]. ~ @cocalc_com #Math #SageMath
+ [[http://www.cs.tau.ac.il/~nachumd/papers/Union.pdf][Well-founded unions]]. ~ J. Dawson, N. Dershowitz, R. Goré #ITP #IsabelleHOL
+ [[https://www.microsoft.com/en-us/research/uploads/prod/2018/03/build-systems.pdf][Build systems à la carte]]. ~ A. Mokhov, N. Mitchell, Simon Peyton Jones
#Haskell
+ [[https://arxiv.org/abs/1803.06494][Attack trees in Isabelle: CTL semantics, correctness and completeness]].
~ F. Kammüller #ITP #IsabelleHOL #Logic
+ [[https://www.nature.com/articles/d41586-018-03423-x]['Grand unified theory of maths' nets Abel Prize]] ~ D. Castelvecchi #Math
+ [[https://medium.com/@raxwunter/from-logic-and-math-to-code-for-dummies-part-iii-c4ffd4407b16][From logic and math to code. For dummies. Part III. Dependent types]]. ~
R. Krivtsov #Logic #FunctionalProgramming
+ [[https://arxiv.org/abs/1803.06500][Argumentation theory for mathematical argument]]. ~ J. Corneli et
als. #Math #Logic
+ [[http://robertylewis.com/files/dissertation.pdf][Two tools for formalizing mathematical proofs]]. ~ R.Y. Lewis
#PhD_Thesis #Math #ITP #Lean #Mathematica
+ [[https://arxiv.org/abs/1803.07199][Eleven simple algorithms to compute Fibonacci numbers]]. ~ A. Dasdan
#Math #Programming #Python
+ [[https://arxiv.org/abs/1803.06960][Ready, set, verify! Applying hs-to-coq to real-world Haskell code]]. ~
J. Breitner et als. #Coq #Haskell
+ [[https://hackage.haskell.org/package/containers-verified][containers-verified: Formally verified drop-in replacement of containers]].
~ J. Breitner #Haskell #Coq
+ [[https://elpais.com/elpais/2018/03/21/el_aleph/1521672989_799957.html][La historia del error de división de los primeros Pentium]]. ~
M.A. Morales | El Aleph #Matemáticas
+ [[https://etorreborre.blogspot.com.es/2018/03/haskell-modules-for-masses.html][(Haskell) modules for the masses]]. ~ E. Torreborre #Haskell
+ [[https://www.quantamagazine.org/gunter-ziegler-and-martin-aigner-seek-gods-perfect-math-proofs-20180319/][In search of God’s perfect proofs]]. ~ E. Klarreich #Math
+ [[https://www.isa-afp.org/entries/Fishburn_Impossibility.html][The incompatibility of Fishburn-Strategyproofness and Pareto-efficiency]].
~ F. Brandt, M. Eberl, C. Saile and C. Stricker #ITP #IsabelleHOL
+ [[http://softwaresimply.blogspot.com.es/2018/03/efficiently-improving-test-coverage.html?m=1][Efficiently improving test coverage with algebraic data types]]. #Haskell
+ [[http://www.parsonsmatt.org/2018/03/22/three_layer_haskell_cake.html][Three layer Haskell cake]]. ~ Matt Parsons #Haskell
+ [[http://mpickering.github.io/posts/2018-03-20-recordsvstypeclasses.html][Replacing type classes with records affects optimisation]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/slc2018-programcion-funcional-en-coq/][SLC2018: Programación funcional en Coq]]. #ITP #Coq
+ [[http://www.glc.us.es/~jalonso/vestigium/slc2018-demostraciones-por-induccion-en-coq/][SLC2018: Demostraciones por inducción en Coq]]. #ITP #Coq
+ [[http://www.techiedelight.com][Techie Delight (Coding made easy)]]: 500+ data structure and algorithms
problems. ~ @techie_delight #Programming
+ [[http://www.glc.us.es/~jalonso/vestigium/slc2018-datos-estructurados-en-coq/][SLC2018: Datos estructurados en Coq]]. #ITP #Coq
+ [[https://whatthefunctional.wordpress.com/2018/03/22/everyday-haskell][Everyday Haskell (Haskell for the working programmer)]]. ~ Laurence Emms
#Haskell
+ [[https://github.com/haskell-perf/csv][Simple comparative benchmarks for CSV parsing libraries]]. #Haskell
+ [[http://www.andreas-lochbihler.de/pub/lammich2018jar.pdf][Automatic refinement to efficient data structures: a comparison of two
approaches]]. ~ P Lammich, A Lochbihler #IsabelleHOL
+ [[https://realpython.com/python-thinking-recursively][Thinking recursively in Python]]. ~ A. Awasthi #Python
+ [[http://www.math.utah.edu/~carlson/notes/python.pdf][Computations in number theory using Python: A brief introduction]]. ~
J. Carlson #Python #Math
+ [[http://swc.math.arizona.edu/aws/2003/03MacintyreNotes.pdf][A history of interactions between Logic and Number Theory]]. ~
A. Macintyre #Logic #NumberTheory
+ [[http://logika.uwb.edu.pl/studies/download.php%3Fvolid%3D35%26artid%3Dkt%26format%3DPDF][Philosophy of mathematics and computer science]]. ~ K. Trzęsicki #Math
#Logic #CompSci
+ [[http://www.cs.nott.ac.uk/~psztxa/g51mcs/notes.pdf][Mathematics for computer scientists (Lecture notes)]]. ~ T. Altenkirch
#Math #Haskell
+ [[https://arxiv.org/pdf/1803.09237v1][Goldbach's function approximation using deep learning]]. ~ A. Stekel,
M. Chkroun, A. Azaria #DeepLearning #Math
+ [[https://arxiv.org/pdf/1803.10202v1][Language-integrated provenance in Haskell]]. ~ J. Stolarek, J. Cheney #Haskell
+ [[https://speakerdeck.com/mchakravarty/demystifying-functional-programming-and-what-that-means-for-learning-and-teaching][Demystifying functional programming (And what that means for learning
& teaching)]]. ~ Manuel M T Chakravarty and Gabriele
Keller #Haskell
+ [[https://interstices.info/jcms/p_84122/l-intelligence-artificielle-mythes-et-realites][L’intelligence artificielle, mythes et réalités]]. ~ Nicolas Rougier #IA
+ [[http://www.jmlr.org/reviewing-papers/knuth_mathematical_writing.pdf][Mathematical writing]]. ~ D,E. Knuth, T. Larrabee, and P.M. Roberts #Math
+ [[https://whatthefunctional.wordpress.com/2018/03/29/making-l-systems-with-haskell-and-logo/][Making L-Systems with Haskell and Logo]]. ~ Laurence Emms
#Haskell
+ [[http://ecs.inria.fr][Encyclopedia of Combinatorial Structures (ECS)]]. #Math
+ [[https://blog.poisson.chat/posts/2018-03-28-generic-data.html][An old and a new library for generic deriving]]. #Haskell
+ [[https://icidasset.com/writings/building-blocks/][Building blocks (a more visual approach to the topic of purely-typed
functional programming)]]. ~ Steven Vandevelde
#FuncionalProgramming #Haskell
+ [[https://www.scottaaronson.com/blog/?p=3679][Scott Aaronson: 30 of my favorite books]].
+ [[https://typeclasses.com/contravariance][Understanding contravariance]]. ~ Julie Moronuki and Chris Martin
#Haskell
+ [[https://typeclasses.com/news/2018-03-typeclasses-born][Welcome to Type Classes!]] ~ Julie Moronuki and Chris
Martin #Haskell
** Abril 2018
+ [[http://www.elmundo.es/ciencia-y-salud/ciencia/2018/03/29/5abd1886e5fdeaf1328b45bc.html][Francia invertirá 1.500 millones de euros en inteligencia artificial]]. #IA
+ [[https://byorgey.wordpress.com/2018/03/30/parametricity-for-bifunctor][Parametricity for Bifunctor]]. ~ Brent Yorgey #Haskell
+ [[https://arxiv.org/pdf/1803.06636][Complexity problems in enumerative combinatorics]]. ~ Igor Pak #Math #CompSci
+ [[https://interstices.info/jcms/p_95018/l-algorithme-quantique-de-shor][L'algorithme quantique de Shor]]. ~ André Chailloux #CompSci
+ [[http://vaibhavsagar.com/blog/2018/03/31/ihaskell-mybinder/][IHaskell on mybinder.org]] ~ Vaibhav Sagar #Haskell #Jupyter #IHaskell
+ [[http://reasonablypolymorphic.com/blog/free-lenses][Free lenses for higher-kinded data]]. ~ Sandy Maguire #Haskell
+ [[https://pjreddie.com/coq-tactics/][Coq tactics index]]. ~ Joe Redmon #ITP #Coq
+ [[https://changelog.complete.org/archives/9898-emacs-4-automated-emails-to-org-mode-and-org-mode-syncing][Emacs #4: Automated emails to org-mode and org-mode syncing]]. ~ John
Goerzen #Emacs #OrgMode
+ [[https://yetanothermathblog.com/2018/04/01/ring-theory-via-coding-theory-and-cryptography/][Ring theory, via coding theory and cryptography]]. ~ W. David Joyner
#eBook #Math #Sagemath
+ [[https://yetanothermathblog.com/2018/04/01/calculus-on-graphs/amp/][Calculus on graphs]]. ~ W. David Joyner #eBook #Math #Sagemath
+ [[https://terrytao.wordpress.com/career-advice/theres-more-to-mathematics-than-rigour-and-proofs][There’s more to mathematics than rigour and proofs]]. ~ Terence Tao #Math
+ [[http://www.robertvesco.com/blog/2015-01-emacs-for-data-science.html][Emacs for Data Science]]. ~ Robert Vesco #Emacs #DataScience
+ [[https://ahsanijaz.github.io/2016-09-20-Emacs/][Emacs for Data Science]]. ~ Ahsan Ijaz #Emacs #DataScience
+ [[https://github.com/dfeich/org-babel-examples][Examples using emacs org mode babel inline source code with different
backend languages]]. ~ Derek Feichtinger #Emacs #OrgMode
+ [[https://arxiv.org/pdf/1804.01172][Applying computer algebra systems and SAT solvers to the Williamson conjecture]]. ~ C. Bright, I. Kotsireas, V. Ganesh #Logic #SAT #Math #CAS
+ [[https://www.cs.us.es/~jalonso/apuntes/Emacs_para_ciencias_del_dato/Emacs_para_ciencias_del_dato.html][Emacs para ciencias del dato]]. #Emacs #OrgMode
+ [[https://misshula.org/articles/cunyHask.html][Why teaching FP to undergrads is important]]. ~ Evan Misshula
#FunctionalProgramming #Haskell
+ [[https://plus.maths.org/content/unreasonable-relationship-between-mathematics-and-physics][The unreasonable relationship between mathematics and physics]]. ~ David Tong
#Math #Physics
+ [[https://github.com/rstudio/RStartHere][RStartHere: A guide to some of the most useful R Packages that we know about,
organized by their role in data science]]. #Rstat #DataScience
+ [[https://www.youtube.com/playlist?list=PLVtKhBrRV_ZkPnBtt_TD1Cs9PJlU0IIdE][OrgMode tutorial]]. ~ Rainer König #Emacs #OrgMode
+ [[http://tomasp.net/academic/papers/monads/monads-programming.pdf][What we talk about when we talk about monads]]. ~ T. Petricek #Haskell
+ [[https://www.cs.us.es/~fsancho/?p=seminario-ia3][Seminario (I+A)A (Inteligencia Artificial + Aprendizaje Automático)]] #IA #AA
+ [[https://www.theregister.co.uk/2018/04/05/openai_challenge_developers_to_play_sonic_the_hedgehog_with_ai][OpenAI challenges you to beat 1990s classic Sonic the Hedgehog using
machine learning]]. ~ #AI
+ [[https://techcrunch.com/2018/04/05/cometml-wants-to-do-for-machine-learning-what-github-did-for-code][Comet.ml wants to do for machine learning what GitHub did for code]]. ~
F. Lardinois #IA #ML
+ [[https://www.kosmikus.org/DerivingVia/deriving-via-paper.pdf][Deriving Via (or, how to turn hand-written instances into an anti-pattern)]].
~ B. Blöndal, A. Löh, R. Scott #Haskell
+ [[https://arxiv.org/pdf/1804.00596][Learning to prove with tactics]]. ~ T. Gauthier, C. Kaliszyk, J. Urban,
R. Kumar, M. Norrish #ITP #HOL4 #ML
+ [[https://github.com/EvanMisshula/rr][Org-mode and reproducible research]]. ~ Evan Misshula
#Emacs #OrgMode
+ [[https://www.aiforhumanity.fr][AI for humanity]]. #AI
+ [[https://www.technologyreview.com/s/610379/heres-how-the-us-needs-to-prepare-for-the-age-of-artificial-intelligence/amp/][Here’s how the US needs to prepare for the age of artificial intelligence]].
~ Will Knight #AI
+ [[http://binaire.blog.lemonde.fr/2018/04/05/quel-langage-pour-le-secondaire][Quel langage pour le secondaire?]] ~ Laurent Bloch #Programming
+ [[https://dl.acm.org/citation.cfm?id=3110252][A unified approach to solving seven programming problems (functional pearl)]].
~ W.E. Byrd, M. Ballantyne, G. Rosenblatt, M. Might
#FunctionalProgramming #Racket
+ [[https://www.dataquest.io/blog/jupyter-notebook-tutorial][Jupyter notebook for beginners: a tutorial]]. ~ Benjamin Pryke
#Jupyter #Python
+ [[https://arxiv.org/pdf/1801.05894][Deep Learning: an introduction for applied mathematicians]]. ~
C.F. Higham, D.J. Higham #AI #ML #DeepLearning
+ [[https://hub.packtpub.com/plotting-haskell/][Plotting in Haskell]]. ~ James Church #FunctionalProgramming #Haskell
+ [[https://arxiv.org/pdf/1804.00746][The simple essence of automatic differentiation (Differentiable
functional programming made easy)]]. ~ Conal Elliott
#FunctionalProgramming #Haskell
+ [[https://www.irif.fr/_media/users/cauderlier/article_itp18.pdf][Tactics and certificates in Meta Dedukti]]. ~ R. Cauderlier #ITP #Dedukti
+ [[http://www.cs.jhu.edu/~roe/root.pdf][Toward a tool to verify complex data structure invariants]]. ~ K.D. Roe
#PhD_Thesis #ITP #Coq
+ [[https://www.metalevel.at/swiclpb.pdf][The boolean constraint solver of SWI-Prolog: system description]]. ~
M. Triska #Prolog #ConstraintProgramming
+ [[https://github.com/theoremprover-museum/logic-theorist][Logic-Theorist: The sources of the first theorem prover]]. #ATP
+ [[http://vaibhavsagar.com/blog/2018/04/08/ihaskell-cocalc][IHaskell on CoCalc!]] ~ Vaibhav Sagar #FunctionalProgramming
#Haskell #CoCalc
+ [[https://cocalc.com/share/20e4a191-73ea-4921-80e9-0a5d792fc511/haskell.ipynb?viewer=share][Welcome Haskell on CoCalc]]. #FunctionalProgramming #Haskell #CoCalc
+ [[https://www.theglobeandmail.com/opinion/article-deep-learning-why-its-time-for-ai-to-get-philosophical][Deep learning: Why it’s time for AI to get philosophical]]. ~ Catherine
Stinson #AI #Philosophy
+ [[https://whatthefunctional.wordpress.com/2018/04/09/dynamic-programming-in-haskell][Dynamic programming in Haskell]]. ~ Laurence Emms
#FunctionalProgramming #Haskell
+ [[https://github.com/SimplyNaOH/voronoi][Voronoi: A Haskell implementation of Fortune's algorithm]].
#FunctionalProgramming #Haskell
+ [[https://www.elsaltodiario.com/musica/live-coding-desnudando-maquinas-golpe-musica][‘Live coding’: desnudando a las máquinas a golpe de música]]. ~ Álvaro
Lorite #Música #Programación
+ [[https://opensource.com/life/16/2/intro-to-emacs][Getting started with Emacs text editor]]. ~ Sachin Patil #Emacs #OrgMode
#I1M2017
+ [[https://opensource.com/article/18/4/how-create-latex-documents-emacs][How to create LaTeX documents with Emacs]]. ~ Sachin Patil #Emacs
#OrgMode #LaTeX #I1M2017
+ [[https://arxiv.org/abs/1804.02645][A footnote to "The crisis in contemporary mathematics"]]. ~ B. Katz,
M.G. Katz, S. Sanders #Logic #Math
+ [[http://irreal.org/blog/?p=7085][Magit interface walkthrough]]. #Emacs #Magit
+ [[https://www.stackbuilders.com/tutorials/haskell/cloud-haskell/][Using Cloud Haskell to write a type-safe distributed chat]]. ~ Sebastian
Pulido Gomez #Haskell
+ [[https://www.hillelwayne.com/post/equals-as-assignment/][Why does "=" mean assignment?]] ~ Hillel Wayne #Programming
+ [[http://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1005399][Ten simple rules for responsible big data research]]. #BigData
+ [[http://haskelldata.com/][Over 130 practical recipes for data analysis and machine learning]].
#Haskell #DataScience
+ [[https://arxiv.org/abs/1804.03579][Introduction to Iltis: An interactive, Web-Based system for teaching
logic]]. ~ G. Geck et als. #Teaching #Logic
+ [[http://rkirsling.github.io/][Modal logic playground (A graphical semantic calculator for modal propositional logic)]]. ~ Ross Kirsling #Teaching #Logic
+ [[https://www.oreilly.com/ideas/data-engineers-vs-data-scientists][Data engineers vs. data scientists]]. ~ Jesse Anderson #DataScience
+ [[https://functional.works-hub.com/learn/property-based-integration-testing-using-haskell-6c25c][Property based integration testing using Haskell!]] ~ Kristijan Šarić #Haskell
+ [[https://www.euractiv.com/section/digital/news/twenty-four-eu-countries-sign-artificial-intelligence-pact-in-bid-to-compete-with-us-china][Twenty-four EU countries sign artificial intelligence pact in bid to
compete with US & China]]. #AI
+ [[https://mystelven.github.io/Association-Automated-Reasoning//Newsletters/123-2018-04.html#guest][Mike Gordon and hardware verification]]. ~ L. Paulson #ITP
+ [[https://arxiv.org/abs/1804.03922][Evaluating winding numbers through Cauchy indices in Isabelle/HOL]]. ~
W. Li, L.C. Paulson #ITP #IsabelleHOL #Math
+ [[http://tpetricek.github.io/Talks/2018/monads-what-we-talk-about/nice/index.html#/][What we talk about when we talk about monads]]. ~ T. Petricek
#Haskell
+ [[https://jeremykun.com/2018/04/13/for-mathematicians-does-not-mean-equality/][For mathematicians, = does not mean equality]]. ~ Jeremy Kun
| Math ∩ Programming #Math #CompSci
+ [[https://blogs.scientificamerican.com/observations/math-music-and-imagination/][Math, music and imagination]]. ~ Marcus Miller #Math #Music
+ [[https://www.oreilly.com/ideas/jupyter-is-where-humans-and-data-science-intersect][Jupyter is where humans and data science intersect]]. ~ Paco Nathan
#Jupyter #DataScience
+ [[http://droettboom.com/blog/2018/04/04/python-in-the-browser/][Scientific Python in the browser]]. ~ M. Droettboom
#Python #DataScience
+ [[http://www.howardism.org/Technical/Emacs/literate-programming-tutorial.html][Introduction to literate programming]]. ~ Howard Abrams
#Emacs #OrgMode
+ [[https://www.cs.us.es/~jalonso/apuntes/Soluciones_logicas_de_problemas_logicos/Tema_2.html][SLC2018: Soluciones lógicas de problemas lógicos]]. #Logic #Prolog #CLP
+ [[https://books.google.com/talktobooks/][Talk to Books (Browse passages from books using experimental AI)]]. #AI
+ [[https://github.com/chris-taylor/aima-haskell][Algorithms from AIMA (Artificial intelligence: a modern approach) in Haskell]]. ~ Chris Taylor #AI #Haskell
+ [[https://github.com/aimacode/aima-python][Python implementation of algorithms from Russell And Norvig's
"Artificial Intelligence: A Modern Approach"]]. #AI #Python #Jupyter
+ [[http://kitchingroup.cheme.cmu.edu/pycse/pycse.pdf][pycse - Python3 computations in science and engineering]]. ~ John
Kitchin #eBook #Python
+ [[https://github.com/jkitchin/scimax][Scimax: an Emacs starterkit designed for people interested in
reproducible research and publishing]]. ~ John Kitchin
#Emacs #OrgMode
+ [[http://altermundus.fr/downloads/documents/NamedGraphs.pdf][Gallery of named graphs (with tkz-berge.sty)]]. ~ Alain Matthes #LaTeX #Math
+ [[https://www.stackbuilders.com/tutorials/haskell/cloud-haskell/][Using Cloud Haskell to write a type-safe distributed chat]]. ~ Sebastian
Pulido Gomez #Haskell
+ [[https://www.hillelwayne.com/post/equals-as-assignment][Why does "=" mean assignment?]] ~ Hillel Wayne #Programming
+ [[https://www.brucker.ch/bibliography/download/2018/brucker.ea-core-dom-2018.pdf][A formal semantics of the core DOM in Isabelle/HOL]]. ~ A.D. Brucker,
M. Herzberg #ITP #IsabelleHOL
+ [[https://github.com/jkitchin/pycse]["Python computations in science and engineering" in Org mode]] ~ John
Kitchin #Emacs #OrgMode #Python
+ [[http://aitp-conference.org/2018/aitp18-proceedings.pdf][AITP 2018: The Third Conference on Artificial Intelligence and Theorem
Proving (Abstracts of the talks)]]. #AI #ATP #ITP
+ [[https://arxiv.org/abs/1609.01493][Axiomatizing category theory in free logic]]. ~ C. Benzmüller,
D.S. Scott #ITP #IsabelleHOL #CategoryTheory
+ [[http://nfulton.org/papers/aaai18.pdf][Safe reinforcement learning via formal methods (Toward safe control
through proof and learning)]]. ~ N. Fulton, A. Platzer #AI #ML #ATP
+ [[http://aitp-conference.org/2018/slides/JH.pdf][Let’s make set theory great again!]] ~ John Harrison #ITP
+ [[http://aitp-conference.org/2018/slides/DMA.pdf][If mathematical proof is a game, what are the states and moves?]] ~
David McAllester #AI #ATP #ML #Math
+ [[https://pdfs.semanticscholar.org/presentation/833c/fec364e11bcfa8bdd7c25a36118bcd840f2f.pdf][Interactive Theorem Proving in Higher-Order Logics]]. ~ J. Blanchette
#ITP #IsabelleHOL
+ [[https://www.causeur.fr/intelligence-artificielle-cedric-villani-ethique-150544][Intelligence artificielle: les angles morts du rapport Villani]]. ~
Hervé Mariton et Cyrille Dalmont #AI
+ [[https://kozikow.com/2016/05/21/very-powerful-data-analysis-environment-org-mode-with-ob-ipython/][Very powerful data analysis environment – org mode with ob-ipython]]. ~
Robert Kozikowski #Emacs #OrgMode #Python #DataScience
+ [[http://sachachua.com/blog/2014/01/tips-learning-org-mode-emacs][Some tips for learning Org Mode for Emacs]]. ~ Sacha Chua
#Emacs #OrgMode
+ [[https://arxiv.org/abs/1610.06996][Efficient verification of imperative programs using auto2]]. ~ B. Zhan
#IsabelleHOL
+ [[https://www.metalevel.at/equality][The meaning of = for logic programmers]]. ~ Markus Triska
#LogicProgramming #Prolog
+ [[https://arxiv.org/abs/1804.05677][Boolos' hardest logic puzzle ever in its purest form]]. ~
J.J. Colomina-Almiñana, P.R. Stinga #Logic
+ [[https://www.reddit.com/r/haskell/comments/8cvr6l/a_better_programming_language_for_data][A better programming language for Data Science/Machine Learning]].
#Haskell #DataScience
+ [[https://whatthefunctional.wordpress.com/2018/04/17/working-with-lists][Working with lists]]. ~ Laurence Emms #Haskell
+ [[https://medium.freecodecamp.org/python-collection-of-my-favorite-articles-8469b8455939][The best of Python: a collection of my favorite articles from 2017 and
2018 (so far)]]. ~ Gergely Szerovay #Python
+ [[https://blogs.scientificamerican.com/observations/what-the-history-of-math-can-teach-us-about-the-future-of-ai][What the history of Math can teach us about the future of AI]]. ~ Nathan
Myhrvold #Math #AI
+ [[https://www.fpcomplete.com/blog/why-haskell-is-hot-for-cryptocurrencies][Why Haskell is hot for cryptocurrencies]]. ~ Niklas Hambüchen #Haskell
+ [[http://newartisans.com/2018/04/win-for-recursion-schemes][Program reduction: a win for recursion schemes]]. ~ John Wiegley
#Haskell
+ [[https://medium.freecodecamp.org/why-you-need-python-environments-and-how-to-manage-them-with-conda-85f155f4353c][Why you need Python environments and how to manage them with Conda]]. ~
Gergely Szerovay #Python
+ [[https://www.elperiodico.com/es/ciencia/20180121/peligro-algoritmos-al-mando-en-la-escuela-6567047][Peligro: algoritmos al mando en la escuela]]. ~ Cathy O'Neill
+ [[http://capitanswing.com/libros/armas-de-destruccion-matematica/][Armas de destrucción matemática: Cómo el big data aumenta la
desigualdad y amenaza la democracia]]. ~ Cathy O'Neil #Libro
#Matemáticas #BigData
+ [[https://openlibra.com/en/book/linear-algebra-with-applications][Linear algebra with applications]]. ~ W. Keith Nicholson #eBook #Math
#OpenLibra
+ [[http://agendapublica.elperiodico.com/limites-y-paradojas-de-la-evaluacion-cientifica/][Límites y paradojas de la evaluación científica]]. ~ Daniel Innerarity
+ [[http://cl-informatik.uibk.ac.at/teaching/ws17/vs/reports/SWreport.pdf][History of interactive theorem proving]]. ~ J. Schöpf, S. Widauer #ITP
#DAO2018
+ [[http://cl-informatik.uibk.ac.at/teaching/ss18/mltp/content.php][Course: Machine learning for theorem proving]]. ~ C. Kaliszyk #ATP #AI #ML
+ [[https://arxiv.org/abs/1804.04967][Constructive analysis of S1S and Büchi automata]]. ~ M. Lichter,
G. Smolka #ITP #Coq
+ [[https://umazalakain.info/static/report.pdf][Evidence-providing problem solvers in Agda]]. ~ U. Zalakain #ITP #Agda
+ [[https://pdfs.semanticscholar.org/presentation/a5b4/e0b6fa4316651eeb3d793e670662c6ce942d.pdf][Erlang: The power of functional programming]]. ~ S. Thompson
#FunctionalProgramming #Erlang
+ [[https://pdfs.semanticscholar.org/presentation/a75a/224f2f6d6b0114f225dbea2ae2f92c3117f8.pdf][Functional reactive programming]]. ~ B. Siegel #FunctionalProgramming
+ [[https://pdfs.semanticscholar.org/presentation/8cac/2b1b64bc76e9222219c7576d9f99f715800b.pdf][Semantic Web and Machine Learning]]. ~ F. Železný #ILP
+ [[https://www.genbetadev.com/paradigmas-de-programacion/el-resurgir-de-la-programacion-funcional][El resurgir de la programación funcional]]. #ProgramaciónFuncional
#Haskell #Erlang #Elixir #Scala #Clojure #Fsharp
+ [[https://www.slideshare.net/LucaBelli/typelevel-summit-91328863][Why monads?]] ~ Luca Belli #Haskell
+ [[https://blog.jupyter.org/jupyterlab-is-ready-for-users-5a6f039b8906][JupyterLab is ready for users]]. #Jupyter
+ [[https://medium.com/@ageitgey/machine-learning-is-fun-80ea3ec3c471][Machine Learning is fun! (The world’s easiest introduction to Machine Learning)]]. ~ Adam Geitgey #AI #MachineLearning
+ [[https://medium.com/@dmery/un-futuro-incierto-hacia-donde-marchamos-7ea7845c51b][Un futuro incierto ¿hacia donde marchamos?]] ~ Daniel Mery
+ [[https://github.com/chrisdone/elisp-guide][A quick guide to Emacs Lisp programming]]. ~ Chris Done
#Emacs #Lisp
+ [[http://emacs.sexy][Emacs is sexy!]] #Emacs
+ [[https://github.com/emacs-tw/awesome-emacs][Awesome Emacs: A community driven list of useful Emacs packages,
libraries and others]]. #Emacs
+ [[https://towardsdatascience.com/why-so-many-data-scientists-are-leaving-their-jobs-a1f0329d7ea4][Here’s why so many data scientists are leaving their jobs]]. ~ Jonny
Brooks-Bartlett #DataScience
+ [[http://hyperpolyglot.org][Programming languages commonly used features in a side-by-side format]].
#Programming
+ [[https://blogs.herdereditorial.com/filco/diez-libros-filosofia-imprescindibles][10 libros de filosofía imprescindibles]]. ~ Filosofía&Co #Filosofía
+ [[http://irreal.org/blog/?p=7138][Org Babel recipes]]. #Emacs #OrgMode #Babel
+ [[http://reasonablypolymorphic.com/blog/higher-kinded-data/index.html][Higher-Kinded Data]]. ~ Sandy Maguire #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/04/22/making-a-text-adventure-in-haskell-part-4][Making a text adventure in Haskell (Part 4)]]. ~ Laurence Emms
#Haskell #Game
+ [[http://www.joachim-breitner.de/blog/738-Verifying_local_definitions_in_Coq][Verifying local definitions in Coq]]. ~ J. Breitner #Haskell
#Coq
+ [[https://medium.freecodecamp.org/how-to-think-like-a-programmer-lessons-in-problem-solving-d1d8bf1de7d2][How to think like a programmer (lessons in problem solving)]]. ~ Richard
Reis #Programming
+ [[https://cacm.acm.org/magazines/2018/5/227202-using-functions-for-easier-programming/fulltext][Using functions for easier programming]]. ~ N. Savage #FunctionalProgramming
#Haskell
+ [[https://arxiv.org/abs/1804.07860][Formalising mathematics in simple type theory]]. ~ L.C. Paulson #ITP
#Math #IsabelleHOL #HOL_Light
+ [[https://changelog.complete.org/archives/9900-emacs-5-documents-and-presentations-with-org-mode][Emacs #5: Documents and presentations with Org-Mode]]. ~ John Goerzen
#Emacs #OrgMode #LaTex #Beamer
+ [[https://arxiv.org/abs/1804.07951][Formal verification of platoon control strategies]]. ~ A. Rashid,
U. Siddique, O. Hasan #ITP #HOL_Light
+ [[https://www.tweag.io/posts/2018-04-25-funflow.html][Funflow: typed resumable workflows]]. ~ N. Clarke, A. Hermann,
T. Nielsen #Haskell
+ [[https://www.isa-afp.org/entries/BNF_CC.html][Bounded natural functors with covariance and contravariance in Isabelle/HOL]].
~ A. Lochbihler, J. Schneider #ITP #IsabelleHOL
+ [[http://usblogs.pwc.com/emerging-technology/machine-learning-evolution-infographic][Machine learning evolution (infographic)]]. ~ A. Morrison
and A. Rao #AI #MachineLearnig #History
+ [[https://www.onlinebooksreview.com/articles/haskell-programming-book][Best Haskell programming books for functional programming]]. #Haskell
+ [[https://www.the-tls.co.uk/articles/public/kurt-godel-incompleteness-theorems][Kurt Gödel and the mechanization of mathematics]]. ~ J. Kennedy #Logic
#Math
+ [[https://www.slideshare.net/JarekRatajski/beauty-and-the-beast-haskell-on-jvm][Beauty and the beast (Eta Haskell on JVM)]]. ~ Jarek Ratajski
#Haskell
+ [[http://www.cs.nmsu.edu/ALP/wp-content/uploads/2018/04/alp-2018-DLV2-1.pdf][DLV: Evolution and perspectives]]. ~ M. Alviano et als. #LogicProgramming
#ASP #DLV
+ [[https://www.futurity.org/artificial-intelligence-bayou-coding-1740702/][New A.I. application can write its own code]]. ~ J. Boyd-Rice #AI
+ [[http://richardzach.org/2018/04/10/the-significance-of-philosophy-to-mathematics][The significance of Philosophy to Mathematics]]. ~ Richard Zach
#Math #Philosophy
+ [[https://arxiv.org/abs/1804.06398][Modelling bitcoin in Agda]]. ~ A. Setzer #ITP #Agda
+ [[https://arxiv.org/abs/1804.10037][Quantifier elimination for reasoning in economics]]. ~ C.B. Mulligan et
als. #Logic
+ [[https://www.fpcomplete.com/blog/2018/04/async-exception-handling-haskell][Asynchronous exception handling in Haskell]]. ~ M. Snoyman #Haskell
+ [[https://github.com/pdlla/smarties][Smarties: a general purpose behavior tree library written in Haskell]].
#Haskell #AI
+ [[https://mathlesstraveled.com/2018/04/26/iterating-squared-digit-sum][Iterating squared digit sum]]. ~ Brent Yorgey #Haskell #Math
+ [[https://github.com/RyanGlScott/ghc-software-foundations][The Software Foundations book, in GHC]]. ~ Ryan Scott #Haskell
+ [[https://www.kdnuggets.com/2018/02/introduction-functional-programming-python.html][Introduction to functional programming in Python]]. ~ Spiro Sideris
#Python #FunctionalProgramming
+ [[https://www.ams.org/notices/201111/rtx111101580p.pdf][Proof and other dilemmas: Mathematics and Philosophy (Reviewed by
Jeremy Avigad)]]. #Math #Philosophy
+ [[http://i.cs.hku.hk/~bruno/papers/itp2018.pdf][Formalization of a polymorphic subtyping algorithm]]. ~ J. Zhao,
B.C.S. Oliveira, T. Schrijvers #ITP #Abella
+ [[https://codicalist.wordpress.com/about/][The Babel of languages and the substrate of nature]]. ~ Philip Thrift
#Programming
+ [[https://johncarlosbaez.wordpress.com/2018/04/07/applied-category-theory-course-part-2][Applied category theory course: ordered sets]]. ~ John Carlos Baez
#Math #CategoryTheory
+ [[https://arxiv.org/abs/1706.08605][Developing bug-free machine learning systems with formal mathematics]].
~ D. Selsam, P. Liang, D.L. Dill #ITP #Lean #MachineLearnig
+ [[https://speakerdeck.com/larrytheliquid/martin-lofs-type-theory-mltt][Martin-Löf's type theory (MLTT)]]. ~ Larry Diehl #Logic
+ [[http://pirilampo.org/org-mode/syntax/][Org mode syntax example]]. ~ Fabrice Niessen #Emacs #OrgMode
+ [[https://www.cs.us.es/~jalonso/apuntes/Preguntas_y_respuestas_del_modo_Org/Bibliografia/index.html][Formas de incluir bibliografías en documentos Org]]. #Emacs #OrgMode
#I1M2017
+ [[https://hal.inria.fr/hal-01772272/document][A formally-proved algorithm to compute the correct average of decimal
floating-point numbers]]. ~ S. Boldo, F. Faissole, V. Tourneur #ITP #Coq
#Math
+ [[https://www.quantamagazine.org/decades-old-graph-problem-yields-to-amateur-mathematician-20180417][Decades-old graph problem yields to amateur mathematician]]. ~ Evelyn
Lamb #Math
+ [[http://www.abc.es/ciencia/abci-famoso-guru-vida-eterna-resuelve-problema-matematico-hace-60-anos-201804271200_noticia.html][Un famoso «gurú» de la vida eterna resuelve un problema matemático de
hace 60 años]]. #Matemáticas
+ [[http://leventerkok.github.io/sbv/][SBV: SMT Based Verification in Haskell (Released: April 29th, 2018)]].
#Haskell #SMT #SBV
+ [[https://ec.europa.eu/digital-single-market/en/news/communication-artificial-intelligence-europe][Communication Artificial Intelligence for Europe]]. #AI
** Mayo 2018
+ [[https://www.cl.cam.ac.uk/~caw77/papers/mechanising-and-verifying-the-webassembly-specification.pdf][Mechanising and verifying the WebAssembly specification]]. ~ C. Watt
#IsabelleHOL #WebAssembly
+ [[https://www.isa-afp.org/entries/WebAssembly.html][WebAssembly in Isabelle/HOL]]. ~ C. Watt #IsabelleHOL #WebAssembly
+ [[https://mmhaskell.com/blog/2018/4/25/dockerizing-our-haskell-app][Dockerizing our Haskell app]]. ~ James Bowen #Haskell #Docker
+ [[https://computinged.wordpress.com/2018/04/30/indian-supreme-court-rules-that-cs-degrees-cannot-be-provided-on-line][Indian Supreme Court rules that CS degrees cannot be provided on-line]].
~ Mark Guzdial #Education #CompSci
+ [[https://arxiv.org/abs/1804.10520][Using machine learning to improve cylindrical algebraic decomposition]].
~ Z. Huang, M. England, D. Wilson, J.H. Davenport, L.C. Paulson
#MachineLearning #Logic
+ [[http://www.i-programmer.info/news/150-training-a-education/11751-mathematical-thinking.html][Courses on mathematical thinking now underway]]. ~ Sue Gee #Math #Logic
#CompSci
+ [[https://escher.ntr.nl/en][The Metamorphosis of Escher through tours]].
+ [[https://arxiv.org/abs/1805.00304][Gröbner bases of modules and Faugère's F4 algorithm in Isabelle/HOL]]. ~
A. Maletzky, F. Immler #ITP #IsabelleHOL #Math
+ [[https://github.com/adjoint-io/aos-signature][Abe-Ohkubo-Suzuki linkable ring signatures]]. ~ A. Centelles, S. Diehl
#Haskell
+ [[http://www.abc.es/ciencia/abci-matematicas-descifraron-maquina-enigma-nazis-201804301647_noticia.html][Las matemáticas que descifraron la máquina «Enigma» de los nazis]]. ~
Paz Jiménez Seral y Manuel Vázquez Lapuente #Matemáticas
+ [[https://arxiv.org/abs/1805.00068][Exploiting Answer Set Programming with external sources for
meta-interpretive learning]]. ~ T. Kaminski, T. Eiter, K. Inoue #ASP
#ILP
+ [[http://www.doc.ic.ac.uk/~rak/papers/swish.pdf][Using SWISH to realise interactive web based tutorials for logic based languages]]. ~ J. Wielemaker, F. Riguzzi, R. Kowalski, T. Lager,
F. Sadri, M. Calejo. #LogicProgramming #Prolog #SWISH
+ [[http://cattheory.com/editTimeTacticsDraft.pdf][Edit-time tactics in Idris]]. ~ Joomy Korkut. #Idris
+ [[http://reduction.io/essays/rosetta-haskell.html][Rosetta Haskell]] (how abstractions are used by sequentially rewriting a
program to do exactly the same thing using different techniques). ~
Chas Leichner #Haskell
+ [[https://blog.d46.us/advanced-emacs-startup][Advanced techniques for reducing Emacs startup time]]. ~ Joe Schafer #Emacs
+ [[https://personal.cis.strath.ac.uk/fredrik.nordvall-forsberg/papers/variationsIR_mfcs2017.pdf][Variations on inductive-recursive definitions]]. ~ N. Ghani et als. #Agda
+ [[https://www.isa-afp.org/entries/VerifyThis2018.html?utm_source=dlvr.it&utm_medium=twitter][VerifyThis 2018 - Polished Isabelle solutions]]. ~ P. Lammich and
S. Wimmer #IsabelleHOL
+ [[http://blog.ploeh.dk/2018/04/30/parametrised-unit-tests-in-haskell][Parametrised unit tests in Haskell]]. ~ Mark Seemann #Haskell
+ [[https://arxiv.org/abs/1805.00808v1][Formal process virtual machine for smart contracts verification]]. ~
Z. Yang, H. Lei #Coq
+ [[http://www.andrew.cmu.edu/user/avigad/Papers/learning_logic_and_proof.pdf][Learning logic and proof with an interactive theorem prover]]. ~
J. Avigad #Logic #ITP #Lean
+ [[http://leanprover.github.io/logic_and_proof][Logic and proof (Release 0.1)]]. ~ J. Avigad, R.Y. Lewis, F. van Doorn
#Logic #ITP #Lean
+ [[http://irreal.org/blog/?p=7168][Writing LaTeX with Org Mode]]. #Emacs #OrgMode #LaTeX
+ [[https://github.com/hugrubsan/Offline-Handwriting-Recognition-with-TensorFlow][Sistema de Deep Learning para el reconocimiento de palabras manuscritas implementado en TensorFlow y entrenado con IAM Handwriting
Database]]. ~ Hugo Rubio #DeepLearning
+ [[https://www.toptal.com/machine-learning/de-resolver-ecuaciones-a-aprendizaje-profundo-un-tutorial-de-tensorflow-python/es][De resolver ecuaciones a aprendizaje profundo: Un tutorial de
TensorFlow Python]]. ~ Oliver Holloway #DeepLearning
+ [[https://www.toptal.com/machine-learning/tensorflow-python-tutorial][From solving equations to Deep Learning: A TensorFlow Python
tutorial]]. ~ Oliver Holloway #DeepLearning
+ [[https://doisinkidney.com/posts/2018-05-05-induction.html][Type-level induction in Haskell]]. ~ Donnacha Oisín Kidney
#Haskell
+ [[https://plato.stanford.edu/entries/lambda-calculus/][The lambda calculus]]. ~ J. Alama, J. Korbmacher #Logic
+ [[https://news.stanford.edu/2018/05/04/deep-learning-comes-full-circle/][Deep learning comes full circle]]. ~ N. Collins #DeepLearning
+ [[https://cardanodocs.com/technical/formal-specification-for-a-cardano-wallet/][Formal specification for a Cardano wallet]]. ~ D. Coutts, E. de Vries #Cardano
+ [[http://www.sciencemag.org/news/2018/05/ai-researchers-allege-machine-learning-alchemy][AI researchers allege that machine learning is alchemy]]. ~ M. Hutson
#MachineLearnig
+ [[https://whatthefunctional.wordpress.com/2018/05/07/making-an-ecosystem-simulation-in-haskell-part-1/][Making an ecosystem simulation in Haskell (Part 1)]]. ~ Laurence Emms
#Haskell
+ [[http://travis.athougies.net/posts/2018-05-05-dynamic-programming-is-recursion.html][Dynamic programming in Haskell is just recursion]]. ~ Travis Athougies
#Haskell
+ Machine learning tutorial:
+ [[http://bit.ly/2FS50zv][ML basics and experimenting]]
+ [[http://bit.ly/2FQbjUc][From text to features and NLP-oriented intro to selected learning algorithms]].
+ [[http://bit.ly/2FQ2ZUE][Mallet in UIMA: experiments with ClearTK and Lab]].
+ [[http://bit.ly/2FQ37DC][WEKA API brief and highlight of further topics]].
+ [[https://github.com/luqui/polyrhythmia][Procedural generation of polyrhythmic beats]]. ~ Luke Palmer #Haskell
+ [[https://byorgey.wordpress.com/2018/05/06/conversations-with-a-six-year-old-on-functional-programming][Conversations with a six-year-old on functional programming]]. ~ Brent Yorgey
#FunctionalProgramming
+ [[http://ul.io/nb/2018/04/30/literate-analytics-with-org-babel][A brief introduction to literate analytics with Org-Babel]]. ~ Nick
Barnwell #Emacs #OrgMode
+ [[https://github.com/PythonistaMX/py101][Introducción a la programación con Python 3]]. ~ José Luis Chiquete
Valdivieso #Python
+ [[https://queue.acm.org/detail.cfm?id=3212479][C is not a low-level language (Your computer is not a fast PDP-11)]]. ~
David Chisnall #Programming
+ [[https://unpocologico.wordpress.com/2018/05/08/the-humanities-of-maths-computer-science][The Humanities of Maths/Computer Science]]. ~ L.P. Cruz #Math #CompSci
+ [[http://nautilus.cs.miyazaki-u.ac.jp/~skata/MagicHaskeller.html][MagicHaskeller: An inductive functional programming system for
casual/beginner Haskell programmers]]. ~ Susumu Katayama #Haskell
+ [[https://blog.jle.im/entry/const-applicative-and-monoids.html][The Const Applicative and Monoids]]. ~ Justin Le #Haskell
+ [[http://briansteffens.com/2017/02/20/from-math-to-machine.html][From math to machine: translating a function to machine code]]. ~ Brian
Steffens #Programming #Math #Haskell #Imperative_language
#Assembly_language #Machine_code #I1M2017
+ [[https://www.isa-afp.org/entries/Modular_Assembly_Kit_Security.html][An Isabelle/HOL formalization of the modular assembly kit for security
properties]]. ~ O. Bračevac et als. #IsabelleHOL
+ [[https://abhiroop.github.io/vectorization.pdf][Vectorization in Haskell]]. ~ Abhiroop Sarkar #Haskell
+ [[https://github.com/TechBookHunter/Free-Haskell-Books][A curated collection of free eBooks about Haskell]]. #Haskell
+ [[http://adrianmejia.com/blog/2018/04/05/most-popular-algorithms-time-complexity-every-programmer-should-know-free-online-tutorial-course][8 time complexities that every programmer should know]]. ~ Adrián Mejía
#Algorithmic
+ [[https://arxiv.org/abs/1805.03496][Revisiting decision diagrams for SAT]]. ~ T. van Dijk, R. Ehlers,
A. Biere #Logic #ATP #SAT
+ [[https://arxiv.org/abs/1805.03107][Machine learning guidance and proof certification for connection
tableau]]. ~ M. Färber, C. Kaliszyk, J. Urban #MachineLearning #ATP
#Prolog
+ [[https://github.com/DanBurton/runmemo/blob/cccc5a378264b3fe002d73089ad7c690f39cb86f/examples/lcs.hs][Explicit memoization can be elegant; a response to "Dynamic programming in Haskell is just recursion"]]. ~ Dan Burton #Haskell
+ [[https://doisinkidney.com/posts/2018-05-05-induction.html][Type-level induction in Haskell]]. ~ Donnacha Oisín Kidney #Haskell
+ [[http://reasonablypolymorphic.com/blog/follow-the-denotation/][Follow the denotation]]. ~ Sandy Maguire #Haskell
+ [[https://arxiv.org/abs/1705.04680][Proof mining with dependent types]]. ~ E. Komendantskaya, J. Heras #ITP #Coq
#MachineLearning
+ [[http://h2.jaguarpaw.co.uk:8000/posts/hkd-pattern-type-level-ski][The HKD pattern and type-level SKI]]. ~ Tom Ellis #Haskell
+ [[https://www.oreilly.com/ideas/machine-learning-a-quick-and-simple-definition][Machine learning: A quick and simple definition]]. ~ James Furbush
#AI #MachineLearning
+ [[http://bit.ly/2G8iRC0][La hipótesis de Riemann y el problema P = NP]]. ~ Juan Arias de Reyna
#Matemáticas #Computación
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?TFPIE2017.3][Functional baby talk: Analysis of code fragments from novice Haskell programmers]]. ~ J. Singer, B. Archibald #Haskell
+ [[https://github.com/miguelibagar/EulerianPath][Los puentes de Königsberg: Estudio y resolución con Haskell]]. ~ Miguel
Ibáñez #Hakell #Matemáticas
+ [[https://www.cl.cam.ac.uk/events/arw2018/arw2018-proc.pdf][Proceedings of the 25th Automated Reasoning Workshop (Bridging the Gap
between Theory and Practice)]]. #ATP
+ [[https://elpais.com/tecnologia/2018/05/09/actualidad/1525854596_328159.html][Qué hacer ante la "tecnupidez"]]. ~ Mario Bunge #Ciencia #Tecnología
+ [[http://www.laetoli.es/las-dos-culturas/155-que-es-la-tecnologia-9788492422999.html][¿Qué es la tecnología?]] ~ Dominique Raynaud #Ciencia #Tecnología
+ [[http://ruleml.org/talks/FrancescoRicca-ASPinIndustrContxt-RuleMLWebinar-2018-03-23.pdf][ASP in industrial contexts: applications and toolchain]]. ~ Francesco Ricca #Logic #Programming #ASP
+ [[http://bit.ly/2jSW30v][Writing bug-free code using theorem provers]]. ~ Aaron Stump #ITP
+ [[http://bit.ly/2GdYX8G][Proof assistants: from symbolic logic to real mathematics?]] ~ Lawrence
C Paulson #ITP #Logic #Math
+ [[https://www.eff.org/deeplinks/2018/05/math-cant-solve-everything-questions-we-need-be-asking-deciding-algorithm-answer][Math can’t solve everything: questions we need to be asking before
deciding an algorithm is the answer]]. ~ J. Williams, L. Gunn
#Algorithms
+ [[http://www.robots.ox.ac.uk/~gunes/assets/pdf/baydin-2018-ad-machinelearning.pdf][Automatic differentiation in machine learning: a survey]]. ~ Atılım
Güneş Baydin et als. #AD #AutomaticDifferentiation #ML
#MachineLearning
+ [[https://github.com/ekmett/ad][Automatic differentiation]]. ~ Edward Kmett #Haskell #AD
#AutomaticDifferentiation
+ [[http://lab.elmundo.es/inteligencia-artificial/que-es.html][La Inteligencia Artificial no es como en las películas. ¿Qué es?]] #IA
+ [[https://www.gnu.org/gnu/rms-lisp.html][My Lisp experiences and the development of GNU Emacs]]. ~ Richard
Stallman #Lisp #Emacs
+ [[http://binaire.blog.lemonde.fr/2018/05/14/intelligence-artificielle-et-pensee-humaine][Intelligence artificielle et pensée humaine]]. ~ Margarida Romero
#IA
+ [[http://repositorium.sdum.uminho.pt/bitstream/1822/54476/1/exercicios-sbc3.pdf][Exercícios resolvidos em Prolog sobre sistemas baseados em conhecimento]]. ~ Paulo Cortez #Prolog
+ [[https://blog.jle.im/entry/purely-functional-typed-models-1.html][A purely functional typed approach to trainable models (Part 1)]]. ~
Justin Le #Haskell #MachineLearning
+ [[http://www.cs.cmu.edu/~rwh/papers/lfmtp18.pdf][The RedPRL proof assistant]]. ~ C. Angiuli, E. Cavallo, K.B. Hou,
R. Harper, J. Sterling. #ITP
+ [[https://venturebeat.com/2018/05/10/carnegie-mellon-university-starts-first-ai-degree-program-in-u-s/][Carnegie Mellon University starts first AI degree program in U.S.]] ~
K. Johnson. #AI
+ [[https://www.cs.cmu.edu/bs-in-artificial-intelligence/curriculum][Bachelor of Science in Artificial Intelligence (CMU): Curriculum]]. #AI
+ [[http://andrew-wohlgemuth.com/DMmathed.pdf][Deductive mathematics (an introduction to proof and discovery for
mathematics education)]]. ~ A. Wohlgemuth #eBook #Math
+ [[http://revue.sesamath.net/spip.php?article1096][Pensée informatique et géométrie]]. ~ A. Busser, P. Debrabant, S. Gonifei #Math #Programming
+ [[https://www.eldiario.es/tecnologia/Dimite-Google-aplicacion-inteligencia-artificial_0_771673028.html][Dimiten varios empleados de Google por la aplicación de su
inteligencia artificial a un proyecto militar]]. #AI
+ [[https://www.bloomberg.com/news/articles/2018-05-14/inside-google-a-debate-rages-should-it-sell-artificial-intelligence-to-the-military][Inside Google, a debate rages: should it sell Artificial Intelligence
to the military?]]. ~ Mark Berge #AI
+ [[https://www.haskell.org/communities/05-2018/html/report.html][Haskell communities and activities report (May 2018)]]. #Haskell
+ [[http://jips-k.org/file/down?pn=545 ][Verifying code toward trustworthy software]]. ~ Hyong-Soon Kim and
Eunyoung Lee #FormalVerification
+ [[http://www.mais.informatik.tu-darmstadt.de/WebBibPHP/papers/2018/TUD-CS-2018-0056-I-MAKS-Tr.pdf][I-MAKS (A framework for information-flow security in Isabelle/HOL)]]. ~
S Grewe, H Mantel, M Tasch, R Gay, H Sudbrock #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1805.03740][High-level signatures and initial semantics]]. ~ B. Ahrens,
A. Hirschowitz, A. Lafont, M. Maggesi #ITP #Coq
+ [[http://irreal.org/blog/?p=7198][Emacs tools for writers]]. #Emacs
+ [[https://opensource.com/article/18/5/emacs-modes-writers][5 Emacs modes for writers]]. ~ Scott Nesbit #Emacs
+ [[https://www.quantamagazine.org/to-build-truly-intelligent-machines-teach-them-cause-and-effect-20180515/][To build truly intelligent machines, teach them cause and effect]]. #AI
+ [[https://www.kdnuggets.com/2018/05/pearl-book-science-cause-effect.html][The book of why (The new science of cause and effect)]]. ~ Judea Pearl,
Dana Mackenzie #Science #AI
+ [[https://medium.com/@olxc/catamorphisms-and-f-algebras-b4e91380d134][Catamorphisms and F-algebras]]. ~ Alexey Avramenko #Haskell
+ [[https://medium.com/coinmonks/create-blockchain-in-haskell-e65df30878bc][Create Blockchain in Haskell]]. ~ Gaurav Agrawal #Haskell
#Blockchain
+ [[https://www.cs.princeton.edu/~appel/papers/wand-frame.pdf][Proof pearl: Magic wand as frame]]. ~ Qinxiang Cao, Shengyi Wang,
Aquinas Hobor, and Andrew W. Appel #ITP #Coq
+ [[https://mmhaskell.com/blog/2018/5/14/advanced-github-webhooks-and-automation][Advanced Github: Webhooks and automation]]. ~ James Bowen
#Haskell
+ [[http://www.joachim-breitner.de/blog/740-Proof_reuse_in_Coq_using_existential_variables][Proof reuse in Coq using existential variables]]. ~ J. Breitner
#ITP #Coq
+ [[https://hal.inria.fr/hal-01728828/document][A Coq formalization of digital filters]]. ~ Diane Gallois-Wong, Sylvie
Boldo, and Thibault Hilaire #ITP #Coq
+ [[https://hal.inria.fr/hal-01483457/document][Formalization of the arithmetization of euclidean plane geometry and
applications]]. ~ Pierre Boutry, Gabriel Braun, Julien Narboux #ITP #Coq
#Math
+ [[https://arxiv.org/abs/1803.00403][A general formal memory framework in Coq for verifying the properties of programs based on higher-order logic theorem proving with increased
automation, consistency, and reusability]]. ~ Zheng Yang, Hang Lei #ITP
#Coq
+ [[http://reasonablypolymorphic.com/blog/ecstasy-case-study/index.html][Performance and feature case studies in ecstasy]]. ~ Sandy Maguire
#Haskell
+ [[https://www.carnegiecouncil.org/publications/articles_papers_reports/artificial-intelligences-ethical-challenges][Artificial Intelligence's ethical challenges]]. ~ L. Zacharias #AI #Ethics
+ [[https://idontgetoutmuch.wordpress.com/2018/05/19/cartography-in-haskell][Cartography in Haskell]]. ~ Dominic Steinitz #Haskell
+ [[https://arxiv.org/abs/1805.06869][Revisiting the tree edit distance and its backtracing: A tutorial]]. ~
B. Paaßen #Algorithms
+ [[https://arxiv.org/abs/1805.06502][First experiments with neural translation of informal to formal
mathematics]]. ~ Q. Wang, C. Kaliszyk, J. Urban #MachineLearning #Math
+ [[https://bartoszmilewski.com/2018/05/16/free-monoidal-functors-categorically/amp/][Free monoidal functors, categorically!]] ~ Bartosz Milewski
#haskell #CategoryTheory
+ [[http://www.tom-ridge.com/resources/doc/whitington17ocaml_workshop_post_proceedings-ocamli.pdf][Direct interpretation of functional programs for debugging]]. ~
J. Whitington, T. Ridge #FunctionalProgramming
+ [[https://arxiv.org/abs/1805.05124v1][Vector Programming using structural recursion (An introduction to vectors for beginners)]]. ~ M.T. Morazán #Racket
+ [[https://arxiv.org/abs/1805.05125v1][Using Elm to introduce algebraic thinking to K-8 students]]. ~
C. d'Alves et als. #Elm
+ [[https://arxiv.org/abs/1805.05127v1][Teaching Erlang through the Internet: an experience report]]. ~ S. Adams
#Erlang
+ [[http://www.haskellforall.com/2018/05/how-i-evaluate-haskell-packages.html][How I evaluate Haskell packages]]. ~ G. Gonzalez #Haskell
+ [[https://whatthefunctional.wordpress.com/2018/05/21/making-an-ecosystem-simulation-in-haskell-part-2/amp/][Making an ecosystem simulation in Haskell (Part 2)]]. ~ Laurence Emms
#Haskell
+ [[https://arxiv.org/abs/1805.07433][DeepLogic: end-to-end logical reasoning]]. ~ N. Cingillioglu, A. Russo
#Logic #MachineLearnig
+ [[https://arxiv.org/abs/1805.07563][Reinforcement learning of theorem proving]]. ~ C. Kaliszyk, J. Urban,
H. Michalewski, M. Olšák #Logic #ATP #MachineLearnig
+ [[https://arxiv.org/abs/1805.07431][Can machine learning identify interesting mathematics? An exploration
using empirically observed laws]]. ~ Chai Wah Wu #MachineLearning #Math
+ [[https://www.brucker.ch/bibliography/download/2018/brucker.ea-standard-compliance-testing-2018.pdf][Formalizing (Web) standards: an application of test and proof]]. ~
A.D. Brucker, M. Herzberg #ITP #IsabelleHOL
+ [[https://arxiv.org/abs/1805.07494][Number sequence prediction problems and computational powers of neural
network models]]. ~ H. Nam, S. Kim, K. Jung #MachineLearning #Math
+ [[https://cacm.acm.org/blogs/blog-cacm/228006-teaching-two-programming-languages-in-the-first-cs-course/fulltext][Teaching two programming languages in the first CS course]]. ~
M. Guzdial #Teaching #Programming
+ [[https://www.quantamagazine.org/a-classical-math-problem-gets-pulled-into-the-modern-world-20180523/][A classical math problem gets pulled into the modern world]]. ~
K. Hartnett #Math
+ [[https://www.isa-afp.org/entries/Probabilistic_Timed_Automata.html][Probabilistic timed automata in Isabelle/HOL]]. ~ S. Wimmer, J. Hölzl
#IsabelleHOL
+ [[https://www.isa-afp.org/entries/Hidden_Markov_Models.html][Hidden Markov models]]. ~ S. Wimmer #IsabelleHOL
+ [[https://ro-che.info/articles/2018-05-25-quickcheck-vs-smallcheck][QuickCheck vs SmallCheck]]. ~ R. Cheplyaka #Haskell
+ [[https://elpais.com/elpais/2018/05/18/ciencia/1526642306_475745.html][Polinomios contra ordenadores cuánticos]]. ~ I. Luengo #Matemáticas
#Computación
+ [[https://two-wrongs.com/technical-writing-learning-from-kernighan][Technical writing: Learning from Kernighan]]. ~ Two Wrongs #Programming
+ [[https://www.technologyreview.com/s/611138/microsoft-is-creating-an-oracle-for-catching-biased-ai-algorithms][Microsoft is creating an oracle for catching biased AI algorithms]]. ~
W. Knight #AI
+ [[https://www.technologyreview.com/s/611146/the-us-military-is-funding-an-effort-to-catch-deepfakes-and-other-ai-trickery][The US military is funding an effort to catch deepfakes and other AI trickery]]. ~ W. Knight #AI
+ [[http://www.cs.nmsu.edu/~epontell/ALP/uploads/alp_Amelia_Harrison.pdf][Proving program correctness using the AG semantics: an example with
n-Queens]]. ~ A. Harrison #ASP
+ [[http://www.i-programmer.info/news/150-training-a-education/11822-free-ai-course-from-finland.html][Free AI course from Finland]]. ~ S. Gee #AI
+ [[https://github.com/takenobu-hs/haskell-symbol-search-cheatsheet][Haskell/GHC symbol search cheatsheet]]. ~ Takenobu Tani #Haskell
+ [[https://books.google.es/books?id=Y3nRBQAAQBAJ][Combinatorics of permutations]]. ~ M. Bona #Math
+ [[https://vynm.github.io/Comutations/posts/2018-05-25-00Introduction.html][Combinatorics of permutations in Haskell: Introduction]]. ~ Vinay
Madhusudanan #Haskell #Math
+ [[http://hsyl20.fr/home/files/talks/shenry-2013-02-05-haskell-intro.pdf][Haskell: an introduction]]. ~ Sylvain Henry #Haskell
+ [[http://hsyl20.fr/home/posts/2018-05-22-extensible-adt.html][Extensible ADT (EADT)]]. ~ Sylvain Henry #Haskell
+ [[https://blog.roman-gonzalez.ca/post/174140457777/fast-haskell-coding-with-cushions][Fast Haskell coding with cushions]]. ~ Roman Gonzalez #Haskell
+ [[https://www.isa-afp.org/entries/Irrationality_J_Hancl.html][Irrational rapidly convergent series in Isabelle/HOL]]. ~ A. Koutsoukou
Argyraki, W. Li #ITP #IsabelleHOL #Math
+ [[https://medium.com/urbint-engineering/haskell-lens-operator-onboarding-a235481e8fac][Haskell Lens Operator Onboarding]]. ~ Russell Matney #Haskell
+ [[https://en.wikipedia.org/wiki/Definitions_of_mathematics][Definitions of mathematics]]. #Math
+ [[https://arxiv.org/pdf/1805.08059][One Monad to prove them all (Functional pearl)]]. ~ J- Christiansen,
S. Dylus, F. Teegen #ITP #Coq #Haskell
+ [[https://arxiv.org/pdf/1805.07797][One formalization of virtue ethics via learning]]. ~ N.S. Govindarajulu,
S. Bringjsord, R. Ghosh #AI
+ [[https://hal.inria.fr/hal-01783851/document][A toolchain to produce correct-by-construction OCaml programs]]. ~ J.C.
Filliâtre et als. #FunctionalProgramming #OCaml #Why3
+ [[https://www.isa-afp.org/entries/AxiomaticCategoryTheory.html][Axiom systems for category theory in free logic]]. ~ C. Benzmüller and
D. Scott #ITP #IsabelleHOL #Math #Logic
+ [[https://arxiv.org/pdf/1805.07239][Translation of algorithmic descriptions of discrete functions to SAT with applications to cryptanalysis problems]]. ~ A Semenov et als. #SAT
+ [[http://www.comlab.ox.ac.uk/ralf.hinze/publications/ICFP09.pdf][Functional pearl: La tour d’Hanoï]]. ~ R. Hinze #FuncionalProgramming #Haskell
+ [[https://scss.tcd.ie/publications/theses/diss/2015/TCD-SCSS-DISSERTATION-2015-068.pdf][Simulation of mathematical games using functional programming]]. ~
D. Murphy #FuncionalProgramming #Haskell #Math #Games
+ [[https://books.goalkicker.com/LaTeXBook/LaTeXNotesForProfessionals.pdf][LaTeX notes for professionals book]]. #LaTeX
+ [[http://mrhonner.com/archives/18665][Visualizing Cantor’s zig zag]]. ~ Patrick Honner #Math
+ [[https://arxiv.org/pdf/1804.00485v1][Lisp, Jazz, Aikido (three expressions of a single essence)]]. ~ Didier
Verna #FunctionalProgramming #Lisp
+ [[http://kitchingroup.cheme.cmu.edu/blog/2018/05/14/f-strings-in-emacs-lisp][f-strings in emacs-lisp]]. ~ John Kitchin #Emacs #Elisp
+ [[https://arxiv.org/pdf/1805.09938][Automated verification of neural networks: Advances, challenges and
perspectives]]. ~ F. Leofante et als. #AutomatedReasoning
#MachineLearning
+ [[https://www.isa-afp.org/entries/Monad_Memo_DP.html][Monadification, memoization and dynamic programming in Isabelle/HOL]]. ~
S. Wimmer, S. Hu and T. Nipkow #ITP #IsabelleHOL #Algorithms
+ [[https://github.com/seroron/hblock][Block puzzle in Haskell]]. ~ @__seroron #Haskell
+ [[https://www.lix.polytechnique.fr/Labo/Dale.Miller/papers/cada-draft.pdf][Computation-as-deduction in Abella: work in progress]]. ~ K. Chaudhuri,
U. Gérard, D. Miller #ITP #Abella
+ [[https://research.fb.com/announcing-the-facebook-testing-and-verification-request-for-research-proposals/][Announcing the Facebook Testing and Verification request for research
proposals]].
+ [[https://www.eldiario.es/hojaderouter/robots/Realidad-ficcion-algoritmos-enganan-magia_0_776572603.html][¿Realidad o ficción? Inteligencia artificial que nos engaña como por
arte de magia]]. ~ Cristina Sánchez #IA
+ [[https://mmhaskell.com/blog/2018/5/21/nix-haskell-concepts-for-package-managment][Nix: Haskell concepts for package managment]]. ~ James Bowen
#Haskell #Nix
+ [[https://arxiv.org/pdf/1805.11799][Automated proof synthesis for propositional logic with deep neural networks]]. ~ T. Sekiyama, K. Suenaga #Logic #ATP #DeepLearning
+ [[https://two-wrongs.com/purely-functional-avl-trees-in-common-lisp][Purely functional AVL trees in Common Lisp]]. #CommonLisp
+ [[https://arxiv.org/pdf/1805.10872][DeepProbLog: Neural probabilistic logic programming]]. ~ R. Manhaeve et
als. #LogicProgramming #DeepLearning
+ [[https://www.scientificamerican.com/article/how-close-are-we-really-to-building-a-quantum-computer][How close are we—really—to building a quantum computer?]] ~ Larry
Greenemeier #CompSci
+ [[https://plato.stanford.edu/entries/mathematics-constructive/][Constructive Mathematics]]. ~ D. Bridges #Logic #Math
+ [[http://www.microsiervos.com/archivo/ordenadores/mainframe-ibm-1401-fortran.html][Un mainframe IBM 1401 de 1959 compilando Fortran]]. ~ @Alvy
#Programación #Computación
+ [[https://en.wikipedia.org/wiki/History_of_programming_languages][History of programming languages]]. #Programming #CompSci
+ [[https://en.wikipedia.org/wiki/Timeline_of_programming_languages][Timeline of programming languages]]. #Programming #CompSci
** Junio 2018
+ [[https://www.isa-afp.org/entries/Optimal_BST.html][Optimal binary search trees in Isabelle/HOL]]. ~ T. Nipkow and
D. Somogyi #ITP #IsabelleHOL #Algorithms
+ [[http://www.diva-portal.org/smash/get/diva2:1209426/FULLTEXT01.pdf][Functional programming and legacy software (Using PureScript to extend a legacy JavaScript system)]]. ~ C. Fischer #PureScript
+ [[https://people.cs.kuleuven.be/~tom.schrijvers/Research/papers/lics2018.pdf][Syntax and semantics for operations with scopes]]. ~ M. Piróg,
T. Schrijvers, N. Wu, M. Jaskelioff #Haskell
+ [[https://mat-web.upc.edu/people/sebastia.xambo/QC/qc.pdf][Mathematical essentials of quantum computing]]. ~ J. Rué, S. Xambó #Math
#CompSci
+ [[https://dslsofmath.github.io/BScProj2018/index.html][Learn You a Physics for Great Good!]] ~ B. Werner, E. Sjöström,
J. Johansson, O. Lundström #eBook #Haskell #Physics
+ [[https://arxiv.org/pdf/1805.10090][Certified ordered completion in Isabelle/HOL]]. ~ C. Sternagel,
S. Winkler #ITP #IsabelleHOL
+ [[https://hal.inria.fr/hal-01799712/document][Modular verification of programs with effects and effect handlers in Coq]]. ~
T. Letan, Y. Régis-Gianas, P. Chifflier, G. Hiet #ITP #Coq
+ [[https://hal.inria.fr/hal-01799629/document][A more precise, more correct stack and register model for CompCert]]. ~
G. Barany #ITP #Coq
+ [[http://staff.mmcs.sfedu.ru/~ulysses/Papers/2018-TFP-dgp-recursion.pdf][Handling recursion in generic programming using closed type families]]. ~
A. Bolotina, A. Pelenitsyn #FunctionalProgramming #Haskell
+ [[https://books.goalkicker.com/AlgorithmsBook][Algorithms notes for professionals]]. #eBook #Algorithms
+ [[https://github.com/owickstrom/gi-gtk-declarative][Purely functional and declarative GTK+ programming in Haskell]]. ~ Oskar
Wickström #Haskell
+ [[https://github.com/DSLsofMath/DSLsofMath/raw/master/L/snapshots/DSLsofMathNotes_2018-02-28.pdf][Domain specific languages of mathematics: lecture notes]]. ~ Patrik
Jansson, Cezar Ionescu. #Haskell #Math
+ [[http://www.well-typed.com/blog/2018/05/semi-formal-development/][Semi-formal development: The Cardano wallet]]. ~ Edsko de Vries #Haskell
+ [[http://www.posteriorscience.net/?p=206][Programming by poking: why MIT stopped teaching SICP (The Structure
and Interpretation of Computer Programs)]]. ~ Yarden Katz #Programming
+ [[http://www.cs.cmu.edu/~15150][Course CMU 15-150: Functional programming, summer 2018]].
#FunctionalProgramming #SML
+ [[http://reports-archive.adm.cs.cmu.edu/anon/2010/CMU-CS-10-140.pdf][Introductory Computer Science Education at Carnegie Mellon University: A Deans’ Perspective]]. ~ R.E. Bryant, K. Sutner, M.J. Stehlik #Teaching
#CompSci
+ [[https://existentialtype.wordpress.com/2011/04/17/some-advice-on-teaching-fp][Some thoughts on teaching functional programming]]. ~ R. Harper
#Teaching #FuncionalProgramming
+ [[https://github.com/cascala/galileo][Galileo is the genesis of a symbolic and numerical math tool written
in Scala; a Computer Algebra System (CAS)]]. #Scala #Math #CAS
+ [[https://whatthefunctional.wordpress.com/2018/06/02/making-an-ecosystem-simulation-in-haskell-part-3][Making an ecosystem simulation in Haskell (Part 3)]]. ~ Laurence Emms
#Haskell
+ [[https://arxiv.org/pdf/1806.00069][Explaining explanations: an approach to evaluating interpretability of
machine learning]]. ~ L.H. Gilpin et als. #XAI #AI #MachineLearning
+ [[https://github.com/coinmetrics-io/haskell-tools][Haskell-based CoinMetrics.io tools]]. #Haskell
+ [[https://mmhaskell.com/blog/2018/6/4/bxit5i954uafn0n4gah3yrzcxnc3q6][Codeworld: Haskell as a first programming language]]. ~ James Bowen
#Haskell #Codeworld #Teaching
+ [[https://dev.to/allanmacgregor/you-should-learn-functional-programming-in-2018-4nff][You should learn functional programming in 2018]]. ~ Allan MacGregor
#FunctionalProgramming
+ [[https://books.goalkicker.com/LinuxBook/][Linux notes for professionals]]. #eBook #Linux
+ [[https://github.com/pedritomelenas/Software-Matematicas-GAP][Bloque de GAP de la asignatura Software Matemáticas]]. ~ Pedro
A. García-Sánchez #CAS #SageMath
+ [[https://www.gap-system.org][GAP (groups, algorithms, programming) a system for computational
discrete algebra]]. #CAS
+ [[https://github.com/TheWizardTower/monadTransformers/raw/master/Slides.pdf][Monad transformers for the easily confused]]. ~ @TheWizardTower #Haskell
+ [[https://techspree.net/github-alternatives/][GitHub alternative top 7 sites to host your open source project]]. #GitHub
+ [[https://itsfoss.com/github-alternatives][Top GitHub alternatives to host your open source project]]. ~ Abhishek
Prakash #GitHub
+ [[https://arxiv.org/pdf/1806.00608][GamePad: a learning environment for theorem proving]]. ~ D. Huang,
P. Dhariwal, D. Song, I. Sutskever #ITP #Coq #MachineLearning
+ [[https://arxiv.org/pdf/1806.00810][A new style of mathematical proof]]. ~ W.M. Farmer #Logic #Math
+ [[https://jfr.unibo.it/article/download/8212/7877][A decision procedure for univariate polynomial systems based on root
counting and interval subdivision]]. ~ C. Munoz, A. Narkawicz, A. Dutle
#ITP #PVS #Math
+ [[https://arxiv.org/pdf/1806.02101][Calculational verification of reactive programs with reactive
relations and Kleene algebra]]. ~ S. Foster, K. Ye, A. Cavalcanti,
J. Woodcock #ITP #IsabelleHOL
+ [[https://paytonturnage.com/writing/2018-06-05-generating-art-with-haskell][Generating art with Haskell]]. #Haskell
+ [[https://doisinkidney.com/posts/2018-06-03-breadth-first-traversals-in-too-much-detail.html][Breadth-first traversals in far too much detail]]. ~ Donnacha Oisín
Kidney #Haskell
+ [[http://www.riptutorial.com/haskell][Haskell RIP tutorial]]. ~ @RipTutorial #Haskell
+ [[https://www.kosmikus.org/DerivingVia/deriving-via-paper.pdf][Deriving via (or, how to turn hand-written instances into an anti-pattern)]]. ~
B. Blöndal, A. Löh, R. Scott #Haskell
+ [[https://www.technologyreview.com/s/611272/this-algorithm-can-tell-which-number-sequences-a-human-will-find-interesting][This algorithm can tell which number sequences a human will find
interesting]]. #AI #MachineLearning #Math
+ [[https://shemesh.larc.nasa.gov/people/cam/publications/WoLLIC2018-draft.pdf][Formalization of the undecidability of the halting problem for a
functional language]]. ~ T. M. Ferreira Ramos et al. #ITP #PVS
+ [[https://sketis.net/wp-content/uploads/2018/05/isabelle-jedit-fide2018.pdf][Isabelle/jEdit as IDE for domain-specific formal languages and informal text documents]]. ~ M. Wenzel #ITP #IsabelleHOL
+ [[https://www.sodavision.com/essential-cheat-sheets-for-machine-learning-and-deep-learning-engineers/][Essential cheat sheets for machine learning and deep learning
engineers]]. ~ Vivian Chong #MachineLearning #DeepLearning
+ [[https://mpg.is/papers/gissurarson2018suggesting.pdf][Suggesting valid hole fits for typed-holes]]. ~ Matthías Páll Gissurarson
#Haskell
+ [[http://sitr.us/2014/05/05/category-theory-proofs-in-idris.html][Category theory proofs in Idris]]. ~ Jesse Hallett #Idris
#CategoryTheory
+ [[https://www.quora.com/How-does-Idris-compare-to-other-dependently-typed-programming-languages][How does Idris compare to other dependently-typed programming languages?]]
~ Edwin Brady #Idris
+ [[http://bit.ly/2JIFD9w][Las matemáticas del fútbol y el nuevo ministro de cultura]]. ~ Juan
Arias de Reyna #Matemáticas #Computación
+ [[https://arxiv.org/pdf/1806.03049][Formalization of Lerch's theorem using HOL Light]]. ~ A. Rashid,
O. Hasan #ITP #HOL_Light #Math
+ [[https://arxiv.org/pdf/1806.03205][Formal small-step verification of a call-by-value lambda calculus
machine]]. ~ F. Kunze, G. Smolka, Y. Forster #ITP #Coq
+ [[https://blog.jle.im/entry/lenses-products-prisms-sums.html][Lenses embody Products, Prisms embody Sums]]. ~ Justin Le #Haskell
+ [[https://gupea.ub.gu.se/bitstream/2077/56128/1/gupea_2077_56128_1.pdf][Formalizing constructive quantifier elimination in Agda]]. ~ J. Pope
#ITP #Agda #Logic
+ [[http://page.mi.fu-berlin.de/cbenzmueller/papers/C71.pdf][A dyadic deontic logic in HOL]]. ~ C. Benzmüller, A. Farjami, X. Parent
#ITP #IsabelleHOL #Logic
+ [[http://group-mmm.org/~ayamada/DJTY18.pdf][A formalization of the LLL basis reduction algorithm]]. ~ J. Divasón,
S. Joosten, R. Thiemann, A. Yamada #ITP #IsabelleHOL
+ [[https://www.technologyreview.com/s/611397/machine-learning-predicts-world-cup-winner][Machine learning predicts World Cup winner]]. #MachineLearning
+ [[https://arxiv.org/pdf/1806.03208][Prediction of the FIFA World Cup 2018: A random forest approach with
an emphasis on estimated team ability parameters]]. ~ A. Groll et
als. #MachineLearning
+ [[https://sigma.software/about/media/lisp-back-future-tribute-60th-anniversary][LISP: back to the future (a tribute to 60th anniversary)]]. ~ Nikolay
Mozgovoy #Programming #Lisp
+ [[http://www.cccblog.org/2018/06/13/the-surprising-security-benefits-of-end-to-end-formal-proofs][The surprising security benefits of end-to-end formal proofs]]. ~ Adam
Chlipala
+ [[https://arxiv.org/pdf/1806.04774][Goal-oriented conjecturing for Isabelle/HOL]]. ~ Y. Nagashima,
J. Parsert #ITP #IsabelleHOL
+ [[https://www.newton.ac.uk/seminar/20170713100011001][Mining the Archive of Formal Proofs]]. ~ J. Blanchette, M. Haslbeck,
D. Matichuk, T. Nipkow #ITP #IsabelleHOL
+ [[http://binaire.blog.lemonde.fr/2018/06/12/mettre-lethique-dans-lalgorithme/][Mettre l’éthique dans l’algorithme?]] ~ Catherine Tessier, Vincent
Bonnemains, Claire Saurel
+ [[http://revue.sesamath.net/spip.php?article1110][Séquences d’algorithmique en mathématique en Python 3, de la seconde à
la terminale]]. ~ Hubert Raymondaud #Python
+ [[http://irreal.org/blog/?p=7270][A complete computing environment]]. #Emacs
+ [[http://doc.rix.si/cce/cce.html][Emacs as a complete computing environment]]. ~ Ryan Rix #Emacs
+ [[https://plato.stanford.edu/entries/paradox-skolem/][Skolem's paradox]]. ~ Timothy Bays #Logic
+ [[https://people.kth.se/~kurlberg/colloquium/2005/MartinLooef.pdf][100 years of Zermelo’s axiom of choice: what was the problem with it?]]
~ Per Martin-Löf #Logic #Math
+ [[https://arxiv.org/pdf/1806.03541][Functional Pearl: Theorem Proving for all (Equational reasoning in
Liquid Haskell)]]. ~ N. Vazou, J. Breitner, W. Kunkel, D. van Horn,
G. Hutton #Hakell #LiquidHaskell
+ [[https://www.ps.uni-saarland.de/~kirst/hok/thesis.pdf][Foundations of Mathematics: a discussion of sets and types]]. ~ Dominik
Kirst #Logic #Math
+ [[https://arxiv.org/pdf/1806.03205][Formal small-step verification of a call-by-value lambda calculus
machine]]. ~ F. Kunze, G. Smolka, Y. Forster #ITP #Coq
+ [[https://files.sketis.net/Isabelle_Workshop_2018/Isabelle_2018_paper_3.pdf][Substitutionless first-order logic: a formal soundness proof]]. ~
A.H. From, J.B Larsen, A. Schlichtkrull, J. Villadsen #ITP
#IsabelleHOL #Logic
+ [[https://hal.inria.fr/hal-01811922/document][Ghosts for lists: from axiomatic to executable specifications]]. ~
F. Loulergue, A. Blanchard, N. Kosmatov #ITP #Coq
+ [[https://arxiv.org/pdf/1806.03527][Engaging millennials into learning formal methods]]. ~ N. Cataño
#Teaching #FormalMethods
+ [[https://files.sketis.net/Isabelle_Workshop_2018/Isabelle_2018_paper_8.pdf][PaMpeR: a proof method recommendation system for Isabelle/HOL]]. ~
Y. Nagashima, Y. He #ITP #IsabelleHOL
+ [[https://www.isa-afp.org/entries/Projective_Geometry.html][Projective geometry in Isabelle/HOL]]. ~ Anthony Bordg #ITP #IsabelleHOL
#Math
+ [[https://markkarpov.com/post/smart-constructors-that-cannot-fail.html][Smart constructors that cannot fail]]. ~ Mark Karpov #Haskell
+ [[https://www.isa-afp.org/entries/Localization_Ring.html][The localization of a commutative ring in Isabelle/HOL]]. ~ Anthony
Bordg #ITP #IsabelleHOL #Math
+ [[https://lists.cam.ac.uk/pipermail/cl-isabelle-users/2018-June/msg00072.html][International Olympiad in Isabelle?]] #IsabelleHOL
+ [[https://128.84.21.199/pdf/1806.06114][Formalizing category theory and presheaf models of type theory in Nuprl]].
~ Mark Bickford #ITP #Nuprl #CategoryTheory
+ [[http://mpickering.github.io/posts/2018-06-11-source-plugins.html][Source Plugins: Four ways to build a typechecked Haskell expression]]. ~
Matthew Pickering #Haskell
+ [[https://arxiv.org/pdf/1803.07130.pdf][A promise checked is a promise kept: inspection testing]]. ~ Joachim
Breitner #Haskell
+ [[https://books.goalkicker.com/PythonBook][Python notes for professionals]]. #Python
+ [[https://qz.com/1307091/the-inside-story-of-how-ai-got-good-enough-to-dominate-silicon-valley][The inside story of how AI got good enough to dominate Silicon Valley]]. #AI
+ [[https://www.cs.us.es/~fsancho/?e=204][Diálogos entre Arquitectura, Ciudad y Computación]]. ~ F. Sancho
#NetLogo
+ [[https://www.jaist.ac.jp/is/labs/ishihara-lab/mla2018/doc/slides/Norbert_Preining.pdf][Hyper natural deduction for Gödel Logic: a natural deduction system
for parallel reasoning]]. ~ A. Beckmann, N. Preinin #Logic
+ [[https://www.johndcook.com/blog/r_language_for_programmers/][R language for programmers]]. ~ John D. Cook #Rstats
+ [[http://github.com/Web-Prolog/swi-web-prolog/raw/master/book/web-prolog.pdf][Web Prolog and the programmable Prolog Web (An attempt to revive and
rebrand Prolog)]]. ~ Torbjörn Lager #Prolog
+ [[https://www.andrew.cmu.edu/user/avigad/Papers/formal_epistemology.pdf][Proof theory]]. ~ Jeremy Avigad #Logic
+ [[http://www.cs.nott.ac.uk/~pszgmh/autobench.pdf][AutoBench: Comparing the time performance of Haskell programs]]. ~
M.A.T. Handley, G. Hutton #Haskell
+ [[http://www.microsiervos.com/archivo/ia/ibm-debater-inteligencia-artificial-debate-humano.html][IBM Debater: la primera inteligencia artificial que gana un debate a
un ser humano]]. ~ @Alvy #IA
+ [[http://www.microsiervos.com/archivo/ia/introduccion-aprendizaje-automatico-sesgos.html][Una introducción visual al aprendizaje automático y otra a los sesgos
que pueden sufrir sus algoritmos]]. ~ @Alvy #IA #AprendzajeAutomático
+ [[http://www.r2d3.us/visual-intro-to-machine-learning-part-1][A visual introduction to machine learning]]. ~ Stephanie Yee
, Tony Chu #AI #MachineLearning
+ [[http://www.r2d3.us/visual-intro-to-machine-learning-part-2][Model tuning and the bias-variance tradeoff]]. ~ Stephanie Yee
, Tony Chu #AI #MachineLearning
+ [[https://anthonybonato.com/2018/06/20/the-p-vs-np-problem-2/][The P vs NP problem]]. ~ Anthony Bonato #CompSci
+ [[https://www.johndcook.com/blog/2013/06/06/seven-dogmas-of-category-theory/][Seven dogmas of category theory]]. ~ John D. Cook #CategoryTheory
+ [[https://medium.com/@kurtcagle/why-you-dont-need-data-scientists-a9654cc9f0e4][Why you don’t need data scientists]]. ~ Kurt Cagle #DataScience
+ [[http://www.microsiervos.com/archivo/puzzles-y-rubik/algoritmo-inteligente-cubo-rubik.html][Un algoritmo que ha aprendido a resolver el Cubo de Rubik «sin
asistencia humana»]]. ~ @Alvy #IA #AprendizajeAutomático
+ [[https://arxiv.org/pdf/1805.07470][Solving the Rubik's cube without human knowledge]]. ~ S. McAleer et
als. #AI #MachineLearning
+ [[https://www.researchgate.net/profile/Ricardo_Pena5/publication/277290326_La_programacion_funcional_en_Haskell/links/5a9545bca6fdccecff07c72e/La-programacion-funcional-en-Haskell.pdf][La programación funcional en Haskell]]. ~ R. Peña #ProgramaciónFuncional
#Haskell
+ [[https://arxiv.org/pdf/1806.07523][Schematic polymorphism in the Abella proof assistant]]. ~ G. Nadathur,
Y. Wang #ITP #Abella
+ [[http://simonmar.github.io/posts/2018-06-20-Finding-fixing-space-leaks.html][Fixing 17 space leaks in GHCi, and keeping them fixed]]. ~ Simon Marlow
#Haskell
+ [[http://konn.github.io/computational-algebra][Computational algebra system in Haskell (Dependently-typed
computational algebra system written in Haskell)]]. ~ Hiromi Ishii
#Haskell #CAS
+ [[https://cs.uwaterloo.ca/~plragde/flaneries/FDS/index.html][Functional data structures]]. ~ Prabhakar Ragde #FunctionalProgramming
#Algorithms #OCaml
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell/files/2128201/Examenes_de_PF_con_Haskell.pdf][Libro de exámenes de programación funcional con Haskell (versión del
22 de junio de 2018)]]. #Haskell #I1M2017
+ [[https://blog.goodaudience.com/introduction-to-deep-learning-a46e92cb0022][Introduction to deep learning (What is deep learning and how can I
study it?)]]. ~ Tyler Bettilyon #AI #DeepLearning
+ [[https://medium.com/@TebbaVonMathenstien/deep-neural-networks-as-computational-graphs-867fcaa56c9][Deep neural networks as computational graphs (DNNs don’t need to be a
black box)]]. ~ Tyler Bettilyon #AI #DeepLearning
+ [[https://diessi.ca/blog/computer-and-human-languages][Computer and human languages]]. ~ Diéssica Gurskas
#Programming
+ [[https://people.eng.unimelb.edu.au/tobym/papers/secdev2018.pdf][BP: Formal proofs, the fine print and side effects]]. ~ T- Murray,
P.C. van Oorschot #FormalVerification
+ [[http://simonmar.github.io/posts/2018-06-22-New-SRTs.html][Rethinking static reference tables in GHC]]. ~ Simon Marlow
#Haskell
+ [[http://ozark.hendrix.edu/~yorgey/pub/GCBP-author-version.pdf][What’s the difference? (A functional pearl on subtracting bijections)]].
~ B.A. Yorgey, K. Foner #Haskell
+ [[https://eng.uber.com/queryparser][Queryparser, an open source tool for parsing and analyzing SQL]]. ~ Matt
Halverson #Haskell
+ [[http://webdelprofesor.ula.ve/ingenieria/jacinto/libros/logica-practica-aprendizaje-computacional.pdf][Lógica práctica y aprendizaje computacional]]. ~ Jacinto Dávila
#Lógica #IA #AprendizajeAutomático
+ [[http://www.doc.ic.ac.uk/%7Erak/papers/newbook.pdf][Computational logic and human thinking: How to be artificially intelligent]].
~ Robert Kowalski #eBook #IA #Logic
+ [[https://www.isa-afp.org/entries/Pell.html][Pell's equation in Isabelle/HOL]]. ~ Manuel Eberl #ITP #IsabelleHOL #Math
+ [[http://hal.univ-lille3.fr/hal-01814822/document][Making the history of computing. The history of computing in the
history of technology and the history of mathematics]]. ~ L. de Mol,
M. Bullynck #History #CompSci #Math
+ [[http://cs.yale.edu/homes/aspnes/classes/202/notes.pdf][Notes on discrete mathematics]]. ~ James Aspnes #eBook #Math
+ [[https://abhinavsarkar.net/posts/fast-sudoku-solver-in-haskell-1][Fast Sudoku solver in Haskell #1: a simple solution]]. ~ Abhinav Sarkar
#Haskell
+ [[https://github.com/norvig/paip-lisp][Paradigms of Artificial Intelligence programming: case studies in Common Lisp]].
~ Peter Norvig #AI #CommonLisp
+ [[https://github.com/hasktorch/hasktorch][Hasktorch: a library for tensors and neural networks in Haskell]]. #Haskell #AI
#MachineLearning
+ [[http://www.cs.rice.edu/~vardi/papers/nsf16.pdf][The automated-reasoning revolution: from theory to practice and back]]. ~
Moshe Y. Vardi #ATP
+ [[http://cachestocaches.com/2018/6/org-literate-programming/][Literate programming with Org-mode]]. ~ Gregory J Stein
#Emacs #OrgMode
+ [[https://leanprover.github.io/logic_and_proof/logic_and_proof.pdf][Logic and proof (Release 0]].1). ~ Jeremy Avigad, Robert Y. Lewis, and
Floris van Doorn #Logic #LeanTheoremProver
+ [[http://reasonablypolymorphic.com/blog/roles/][Coercions and roles for dummies]]. #Haskell
+ [[https://benlynn.blogspot.com/2018/06/why-laziness-matters.html][Why laziness matters]]. ~ Ben Lynn #Haskell
+ [[https://www.cs.us.es/~jalonso/apuntes/inst-Lean.html][Instalación de "Lean theorem prover"]]. #ITP #LeanProver
+ [[https://github.com/avigad/formal_methods_in_education/blob/gh-pages/index.md][A web page with resources for teaching with formal methods and tools]].
~ Jeremy Avigad #ITP #Logic #Math
+ [[https://leanprover.github.io/talks/stanford2017.pdf][Formal methods in mathematics and the Lean theorem prover]]. ~ Jeremy
Avigad #ITP #Logic #Math
+ [[https://arxiv.org/pdf/1806.10920][Machine learning for mathematical software]]. ~ M. England
#MachineLearning #MathematicalSoftware
+ [[https://arxiv.org/pdf/1611.04838v4][Fast verifying proofs of propositional unsatisfiability via window
shifting]]. ~ Jingchao Chen #SAT
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell/releases/download/v9.7/Examenes_de_PF_con_Haskell.pdf][Libro de exámenes de programación funcional con Haskell]] (versión 9.7
del 30 de junio de 2018). #Haskell #I1M2017
+ [[http://irreal.org/blog/?p=7308][The Emacs Commune]]. #Emacs #History
+ [[http://forallx.openlogicproject.org/][forall x: Calgary Remix (An introduction to formal logic)]]. ~
P.D. Magnus, T. Button, J. Robert Loftis, Aaron Thomas-Bolduc, R. Zach
#eBook #Logic
+ [[https://github.com/sinahab/shamir-secret-sharing][The Shamir secret sharing algorithm in Haskell]]. ~ Sina Habibian
#Haskell
+ [[http://very.science/pdf/StrictCheck_arxiv.pdf][Keep your laziness in check]]. ~ K. Foner et als. #Haskell
** Julio 2018
+ [[http://philsci-archive.pitt.edu/14825/1/comprm-2018-06-28.pdf][Computational reverse mathematics and foundational analysis]]. ~
Benedict Eastaugh #Logic #Math
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-octubre-de-2017][GLC: Resumen de lecturas compartidas (octubre de 2017)]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-noviembre-de-201][GLC: Resumen de lecturas compartidas (noviembre de 2017)]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-diciembre-de-2017][GLC: Resumen de lecturas compartidas (diciembre de 2017)]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-enero-de-2018][GLC: Resumen de lecturas compartidas (enero de 2018)]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-febrero-de-2018][GLC: Resumen de lecturas compartidas (febrero de 2018)]].
+ [[https://www.ideals.illinois.edu/bitstream/handle/2142/100116/K-semantics-tech-report.pdf][IsaK: A complete semantics of K]]. ~ L. Li, E.L. Gunter #ITP
#IsabelleHOL #Logic
+ [[https://arthurxavierx.github.io/RealWorldAppComonadicUI.pdf][A real-world application with a comonadic user interface]]. ~ Arthur
Xavier #FunctionalProgramming #Haskell #PureScript
+ [[https://whatthefunctional.wordpress.com/2018/07/01/google-sheets-and-haskell][Google Sheets and Haskell]]. ~ Laurence Emms #Haskell
+ [[http://irreal.org/blog/?p=7312][Zamansky 50: Presentations]]. #Emacs
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-marzo-de-2018][GLC: Resumen de lecturas compartidas durante marzo de 2018]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-abril-de-2018][GLC: Resumen de lecturas compartidas durante abril de 2018]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-mayo-de-2018][GLC: Resumen de lecturas compartidas durante mayo de 2018]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-junio-de-2018][GLC: Resumen de lecturas compartidas durante junio de 2018]].
+ [[http://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-el-curso-2017-18][GLC: Resumen de lecturas compartidas durante el curso 2017-18]].
+ [[https://dspace.library.uu.nl/bitstream/handle/1874/364837/3705269.pdf][Compiling an Haskell EDSL to C (A new C back-end for the Copilot
runtime verification framework)]]. ~ Frank Dedden Haskell
+ [[https://dspace.library.uu.nl/bitstream/handle/1874/364838/thesis.pdf][Implementing analytic tableaux for justification logic]]. ~
N. Steenbergen #Haskell #Logic
+ [[https://github.com/slakkenhuis/judge][judge: Tableau-based theorem prover for justification logic]]. ~
N. Steenbergen #Haskell #Logic
+ [[https://identicalsnowflake.github.io/Rank2Modeling.html][Redis data modeling with rank 2 types]]. #Haskell
+ [[https://culturacientifica.com/2015/07/01/el-problema-del-cambio-de-moneda][El problema del cambio de moneda]]. R. Ibáñez #Matemáticas
+ [[https://medium.com/@Francesco_AI/a-brief-history-of-ai-baf0f362f5d6][A brief history of AI (An outline of what happened in the last 60
years in AI)]]. ~ Francesco Corea #AI
+ [[https://arxiv.org/pdf/1608.02621v2][The machine that builds itself: how the strengths of Lisp family
languages facilitate building complex and flexible bioinformatic
models]]. ~ B.B. Khomtchouk, E. Weitz, C. Wahlestedt #Lisp
+ [[http://philsci-archive.pitt.edu/14825/1/comprm-2018-06-28.pdf][Computational reverse mathematics and foundational analysis]]. ~
B. Eastaugh #Logic #Math
+ [[https://www.politesi.polimi.it/bitstream/10589/140161/1/Tesi.pdf][Toward a more expressive pattern matching in Haskell]]. ~ G. Servadei #Haskell
+ [[http://www.inf.u-szeged.hu/~cscs/pdf/cscs2018.pdf][The 11th conference of PhD students in Computer Science (Volume of short papers)]].
+ [[https://www.preprints.org/manuscript/201806.0474/download/final_file][Scope of Artificial Intelligence in Law]]. ~ J. Dabass, B.S. Dabass #AI
#MachineLearning #DeepLearning
+ [[http://www.csl.sri.com/users/rushby/papers/modalpvs.pdf][PVS embeddings of propositional and quantified modal logic]]. ~
J. Rushby #ITP #PVS #Logic
+ [[https://francis.naukas.com/2012/02/19/para-que-le-sirve-a-un-investigador-cientifico-estar-en-twitter][Para qué le sirve a un investigador científico estar en Twitter]]. ~
Francisco R. Villatoro (#Ciencia
+ [[https://arxiv.org/pdf/1202.2461][How the scientific community reacts to newly submitted preprints:
article downloads, Twitter mentions, and citations]]. ~ X. Shuai,
A. Pepe, J. Bollen #Science
+ [[https://medium.com/@mikhail.barash.mikbar/papers-on-programming-languages-ideas-from-70s-for-today-2931891d4dbd][Papers on programming languages: ideas from 70's for today]]. ~ Mikhail
Barash #Programming
+ [[http://tweetsverse.blogspot.com/2018/07/why-i-love-haskell.html][Why I love Haskell]]. ~ @PLT_cheater #Haskell
+ [[http://mat.unb.br/~ayala/tcs_20171215i.pdf][A formalisation of nominal α-equivalence with A, C, and AC function
symbols]]. ~ M. Ayala et als. #ITP #Coq
+ [[https://arxiv.org/pdf/1807.01456][A purely functional computer algebra system embedded in Haskell]]. ~
Hiromi Ishii #Haskell #CAS #Math
+ [[https://konn.github.io/computational-algebra/][Computational algebra system in Haskell (Dependently-typed
computational algebra system written in Haskell)]]. ~ Hiromi Ishii
#Haskell #CAS #Math
+ [[https://github.com/konn/fibs][Benchmarks on various Fibonacci computation]]. ~ Hiromi Ishii #Haskell
#Algorithms #Math
+ [[https://github.com/konn/lk-proof-assistant][Simple proof assistant for LK calculus (First-Order logic)]]. ~ Hiromi
Ishii #Haskell #Logic
+ [[https://doisinkidney.com/posts/2018-06-30-probability-5-ways.html][Probability 5 ways]]. ~ Donnacha Oisín Kidney #Haskell
+ [[https://arxiv.org/pdf/1807.01871][Formalization in constructive type theory of the standardization
theorem for the lambda calculus using multiple substitution]]. ~
M. Copes, N. Szasz, A. Tasistro #ITP #Agda
+ [[http://bit.ly/2u2EqRh][Matemática misteriosa]]. ~ Juan Arias de Reyna #Matemáticas
+ [[https://arxiv.org/pdf/1807.01873][Sharing a library between proof assistants: reaching out to the HOL
family]]. ~ F. Thiré #ITP #OpenTheory # Coq #Matita
+ [[https://ifipwg21wiki.cs.kuleuven.be/pub/IFIP21/Brandenburg/Talk-Moa.pdf][Theory exploration in Hipster (or how to automate an undergraduate
AI&CS student)]]. ~ Moa Johansson #IsabelleHOL #Haskell
+ [[https://ifipwg21wiki.cs.kuleuven.be/pub/IFIP21/Brandenburg/wouter-slides.pdf][From algebra to abstract machine]]. ~ W. Swierstra, C. Tomé Cortiñas
#Haskell
+ [[https://ifipwg21wiki.cs.kuleuven.be/pub/IFIP21/Brandenburg/slides_botta.pdf][Specifications in small and large contexts]]. ~ N. Botta [Slides] #Idris
+ [[https://ifipwg21wiki.cs.kuleuven.be/pub/IFIP21/Brandenburg/ifip_kuifje.pdf][Kuifje: Quantified information flow with monads in Haskell]]. ~ Tom
Schrijvers #Haskell
+ [[http://reasonablypolymorphic.com/blog/prospecting-free-monads/][Static analysis of free monads]]. #Haskell
+ [[http://www.di.uminho.pt/~jno/ps/wg21-77a-sl.pdf][Compiling quantamorphisms for the IBM Q-Experience]]. ~ J.N. Oliveira,
A. Neri, R.S. Barbosa #Haskell
+ [[http://www.cse.chalmers.se/~patrikj/talks/WG2.1_Brandenburg_Jansson_slides.pdf][Examples and results from a BSc-level course on domain specific languages of mathematics]]. ~ P. Jansson et als. #Haskell
#Math
+ [[https://arxiv.org/pdf/1806.04002][Michael John Caldwell Gordon (FRS 1994), 28 February 1948 - 22 August 2017]].
~ Lawrence C Paulson #ITP #Biography
+ [[https://slideslive.com/38908214/differentiable-functional-programming][Differentiable functional programming]]. ~ Noel Welsh #DeepLearning
#FunctionalProgramming #Scala
+ [[https://whatthefunctional.wordpress.com/2018/07/08/a-thought-experiment-category-theory-and-quantum-computing/][A thought experiment: category theory and quantum computing]]. ~
Laurence Emms #Haskell #CategoryTheory
#QuantumComputing
+ [[http://www.lavanguardia.com/vida/20180708/45762804454/alan-turing-genio-descodifico-naturaleza.html][Alan Turing, el genio que descodificó la naturaleza]]. ~ Núria Jar
#Turing #Biografía #Computación
+ [[http://neilmitchell.blogspot.com/2018/07/inside-paper-build-systems-la-carte.html][Inside the paper: Build systems à la carte]]. ~ Neil Mitchell #Haskell
+ [[http://blog.poisson.chat/posts/2018-07-08-deriving-twist.html][Deriving instances with a twist]]. ~ Xia Li-yao #Haskell
+ [[http://flaviomoura.mat.br/files/articles/MSNorm.pdf][A constructive formalisation of the modular strong normalisation theorem]].
~ FLC de Moura et als. #ITP #Coq
+ [[https://hal.inria.fr/hal-01823507/document][Using SMT engine to generate symbolic automata]]. ~ X. Qin et als. #SMT
+ [[https://devel.isa-afp.org/entries/Neumann_Morgenstern_Utility.html][Von-Neumann-Morgenstern utility theorem in Isabelle/HOL]]. ~ J. Parsert,
C. Kaliszyk #ITP #IsabelleHOL
+ [[https://www.johndcook.com/blog/2018/07/08/weak-groups/][Weakening the requirements of a group]]. ~ J.D. Cook #Math
+ [[https://arxiv.org/pdf/1807.02192][A survey of knowledge representation and retrieval for learning in
service robotics]]. ~ D. Paulius, Y. Sun #KRR
+ [[https://arxiv.org/pdf/1807.02957][Scaling-up reasoning and advanced analytics on BigData]]. ~ T. Condie et
als. #LogicProgramming #BigData
+ [[http://blog.poisson.chat/posts/2018-07-09-type-gadt.html][Type is an extensible GADT]]. ~ Xia Li-yao #Haskell
+ [[https://www.abc.es/ciencia/abci-otro-millon-dolares-espera-201807100208_noticia.html][Otro millón de dólares te espera: ¿Es P = NP?]] ~ Alfonso J. Población
#Matemáticas #Computación
+ [[https://link.springer.com/content/pdf/10.1007%2F978-3-319-94821-8_2.pdf][Towards certified meta-programming with typed template-Coq]]. ~ A. Anand
et als. #ITP #Coq
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?MSFP2018.3.pdf][Relating idioms, arrows and monads from monoidal adjunctions]]. ~
E. Rivas #Haskell
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?MSFP2018.5.pdf][Backward induction for repeated games]]. ~ J. Hedges
#FunctionalProgramming #Haskell
+ [[http://eptcs.web.cse.unsw.edu.au/paper.cgi?MSFP2018.6.pdf][Everybody’s got to be somewhere]]. ~ C. McBride #Agda
+ [[https://dev.to/aspittel/daily-coding-puzzles-4ce9][Daily coding puzzles]]. ~ Ali Spittel #CodingPuzzle
+ [[https://colmbaston.co.uk/files/Common-Knowledge.pdf][The coinductive formulation of common knowledge]]. ~ C. Baston,
V. Capretta #ITP #Coq #Agda
+ [[http://www.ortegaygasset.edu/admin/descargas/Rev_OccidenteJulio-Agosto2018_J_L_Suarez.pdf][La nacionalización de la estrategia en torno a la inteligencia artificial]].
(Estado, política y futuro). ~ Juan Luis Suárez #IA
+ [[https://abhinavsarkar.net/posts/fast-sudoku-solver-in-haskell-2/][Fast Sudoku solver in Haskell #2: A 200x faster solution]]. ~ Abhinav
Sarkar #Haskell
+ [[https://www.tweag.io/posts/2018-07-10-funflow-make.html][Funflow example: emulating make]]. ~ Divesh Otwani, Nicholas Clarke
#Haskell
+ [[https://link.springer.com/content/pdf/10.1186%2Fs40537-018-0132-9.pdf][Categories for (Big) Data models and optimization]]. ~ L. Thiry,
H. Zhao, M. Hassenforder #BigData #CategoryTheory
#FunctionalProgramming #Haskell
+ [[https://www21.in.tum.de/~eberlm/random_trees.pdf][Verified analysis of random binary tree structures]]. ~ M. Eberl,
M.W. Haslbeck, T. Nipkow #ITP #IsabelleHOL
+ [[https://carrv.github.io/2018/papers/CARRV_2018_paper_5.pdf][A formally verified cryptographic extension to a RISC-V processor]]. ~
J.R. Kiniry et als. #FormalVerification
+ [[https://plato.stanford.edu/entries/artificial-intelligence/][Artificial Intelligence]]. ~ Selmer Bringsjord #AI
+ [[https://people.csail.mit.edu/jgross/personal-website/papers/2018-reification-by-parametricity-itp-draft.pdf][Reification by parametricity (Fast setup for proof by reflection, in
two lines of Ltac)]]. ~ J. Gross, A. Erbsen, A. Chlipala #ITP #Coq
+ [[https://icfp18.sigplan.org/event/icfp-2018-papers-mtac2-typed-tactics-for-backward-reasoning-in-coq][Mtac2: Typed tactics for backward reasoning in Coq]]. ~ J. Kaiser et
als. #ITP #Coq
+ [[https://www21.in.tum.de/~traytel/papers/frp/frp.pdf][A verified automatic prover based on ordered resolution]]. ~
A. Schlichtkrull, J.C .Blanchette, D. Traytel #ITP #IsabelleHOL #SML
#Logic
+ [[https://hal.inria.fr/hal-01639819/document][A formal proof in Coq of a control function for the inverted pendulum]].
~ D. Rouhling #ITP #Coq
+ [[https://cakeml.org/itp18.pdf][Verifying the LTL to Büchi automata translation via very weak
alternating automata]]. ~ S. Jantsch, M. Norrish #ITP #HOL4
+ [[https://shemesh.larc.nasa.gov/fm/PRECiSA/eliminating-unstable-tests-draft.pdf][Eliminating unstable tests in floating-point programs]]. ~ L. Titolo,
C. Muñoz, M.A. Feliú, M.M. Moscato #ITP #PVS
+ [[http://ksiresearchorg.ipage.com/seke/seke18paper/seke18paper_24.pdf][Reo2PVS: Formal specification and verification of component connectors]].
~ M.S. Nawaz, M. Sun #ITP #PVS
+ [[https://www.irif.fr/~thib/thesis.pdf][Differential program semantics]]. ~ T. Girka #ITP #Coq
+ [[https://markkarpov.com/post/lisp-and-haskell.html][Lisp and Haskell]]. ~ Mark Karpov #Lisp #Haskell
+ [[https://archive.alvb.in/msc/thesis/reading/typesafe-observable-sharing.pdf][Type-safe observable sharing in Haskell]]. ~ Andy Gill #Haskell
+ [[https://cacm.acm.org/blogs/blog-cacm/229543-algorithms-have-been-around-for-4000-years/fulltext][Algorithms have been around for 4,000 years]]. ~ Herbert Bruderer
#Algorithms
+ [[http://www.andreas-lochbihler.de/pub/lochbihler2018itp.pdf][Fast machine words in Isabelle/HOL]]. ~ A. Lochbihler #ITP #IsabelleHOL
+ [[https://www.student.informatik.tu-darmstadt.de/~xx00seba/publications/arrow-abstract-interp.pdf][Compositional soundness proofs of abstract interpreters]]. ~ S. Keidel,
C.B. Poulsen, S. Erdweg #Haskell
+ [[https://www.ethz.ch/content/dam/ethz/special-interest/infk/inst-infsec/information-security-group-dam/research/publications/pub2018/LochbihlerSchneider2018.pdf][Relational parametricity and quotient preservation for modular
(co)datatypes]]. ~ A. Lochbihler, J. Schneider #ITP #IsabelleHOL
+ [[https://arxiv.org/pdf/1807.05174][First steps towards a formalization of Forcing]]. ~ E. Gunther,
M. Pagano, P. Sánchez #ITP #Isabelle #Logic
+ [[https://arxiv.org/pdf/1807.05054][AI reasoning systems: PAC and applied methods]]. ~ J. Cheng #AI #Logic
+ [[https://speakerdeck.com/frasertweedale/taming-the-c-monster-haskell-ffi-techniques][Taming the C monster (Haskell FFI techniques)]]. #Haskell
+ [[https://www21.in.tum.de/~haslbema/documents/provingcontests_draft18.pdf][Competitive proving for fun]]. ~ M.P.L Haslbeck, S. Wimmer #ITP #IsabelleHOL
+ [[https://books.google.es/books?id=QNNjDwAAQBAJ&printsec=frontcover&hl=es#v=onepage&q&f=false ][Computational artifacts: Towards a philosophy of computer science]]. ~
R. Turner #CompSci
+ [[http://cl-informatik.uibk.ac.at/users/griff/publications/Messner-Parsert-Schoepf-Sternagel-ITP18.pdf][A formally verified solver for homogeneous linear diophantine
equations]]. ~ F. Meßner et als. #ITP #IsabelleHOL
+ [[https://doisinkidney.com/posts/2018-07-17-probability-presentation.html][Probabilistic functional programming]]. ~ Donnacha Oisín Kidney #FunctionalProgramming #Haskell
+ [[https://arxiv.org/pdf/1807.05641][The consistency of arithmetic]]. ~ T.Y. Chow #Logic
+ [[https://arxiv.org/pdf/1807.05377][SAT encodings for sorting networks, single-exception sorting networks
and ε−halvers]]. ~ J.A.R. Fonollosa #Logic #SAT
+ [[https://github.com/jrclogic/SMCDEL/raw/master/SMCDEL.pdf][SMCDEL: An implementation of symbolic model checking for dynamic
epistemic logic with binary decision diagrams]]. ~ M. Gattinger #Logic
#Haskell
+ [[https://plato.stanford.edu/entries/type-theory/][Type theory]]. ~ Thierry Coquand #Logic
+ [[https://hal.inria.fr/hal-01703524/document][Formalizing implicative algebras in Coq]]. ~ É. Miquey #ITP #Coq
+ [[http://irreal.org/blog/?p=7346][Building an initial Emacs configuration]]. #Emacs
+ [[https://arxiv.org/pdf/1805.06798][Generic deriving of generic traversals]]. ~ C. Kiss, M. Pickering, N. Wu
#FunctionalProgramming #Haskell
+ [[https://medium.com/@cdsmithus/codeworld-update-july-14-2018-9fa5a2c27102][CodeWorld update — July 14, 2018]]. ~ Chris Smith #Haskell #CodeWorld
+ [[https://medium.com/@cdsmithus/teaching-algebraic-expressions-with-tracking-arithmetic-fba090ea7fff][Teaching algebraic expressions with tracking arithmetic]]. ~ Chris Smith
#Teaching #Math #Haskell #CodeWorld
+ [[https://anthonybonato.com/2018/07/18/mathematics-and-computation-2/][Mathematics and computation]]. ~ A. Bonato #Math
#CompSci
+ [[https://www.genbeta.com/desarrollo/test-automaticos-con-quickcheck-como-analizar-nuestro-codigo-en-busca-de-bugs][Test automáticos con QuickCheck ¿Cómo analizar nuestro código en busca de
bugs?]]. ~ @__josejuan__ #Programación #QuickCheck
+ [[https://medium.com/axiomzenteam/functor-applicative-and-why-8a08f1048d3d][Functor, Applicative and why]]. ~ Leo Zhang #FunctionalProgramming
#Haskell
+ [[https://nickhigham.wordpress.com/2015/10/20/the-rise-of-mixed-precision-arithmetic/][The rise of mixed precision arithmetic]]. ~ Nick Higham #Programming
+ [[https://www.simonsfoundation.org/2018/07/18/ar2017-scott-aaronson/][The limits of classical and quantum computing]]. ~ Scott Aaronson
#CompSci
+ [[https://plus.maths.org/content/intuitionism][Intuitive mathematics]]. ~ Marianne Freiberger #Logic #Math
+ [[https://plus.maths.org/content/paradise][Paradise lost and rescued]]. ~ Marianne Freiberger #Logic #Math
+ [[https://anthonybonato.com/2018/07/18/mathematics-and-computation-2/][Mathematics and computation]]. ~ Anthony Bonato #Math #CompSci
+ [[https://shemesh.larc.nasa.gov/people/cam/publications/ITP2018-draft.pdf][Boosting the reuse of formal specifications]]. ~ M.M. Moscato et
als. #ITP #PVS
+ [[http://www.cs.nott.ac.uk/~pszgmh/mind-the-gap.pdf][Closing the gap between correctness and efficiency]]. ~ G. Hutton
#FunctionalProgramming #Haskell
+ [[http://ksiresearchorg.ipage.com/seke/seke18paper/seke18paper_23.pdf][Towards formal modeling and verification of probabilistic connectors
in Coq]]. ~ X. Zhang, M. Sun #ITP #Coq
+ [[https://www.isa-afp.org/entries/DiscretePricing.html][Pricing in discrete financial models]]. ~ M. Echenim #ITP #IsabelleHOL
+ [[http://www.unirioja.es/cu/jodivaso/publications/2018/EACA_2018.pdf][Towards a verified Smith normal form algorithm in Isabelle/HOL]]. ~
J. Divasón, J. Aransay #ITP #IsabelleHOL #Math
+ [[https://vanemden.wordpress.com/2018/07/21/dijkstra-and-logic/][A bridge too far: E.W. Dijkstra and logic]]. ~ Maarten van Emden #Logic
#CompSci
+ [[https://chrispenner.ca/posts/intro-to-finger-trees][A practical introduction to finger trees]]. ~ Chris Penner
#Haskell
+ [[http://ksiresearchorg.ipage.com/seke/seke18paper/seke18paper_4.pdf][A systematic approach for developing cyber physical systems]]. ~ X. He,
Z. Dong, Y. Fu #ITP #Coq
+ [[https://litx.io/blog-instance-map.html][Dependent typing and existential (de)serialization]]. #Haskell
+ [[https://www.joachim-breitner.de/blog/742-WebGL%2C_Fragment_Shader%2C_GHCJS_and_reflex-dom][WebGL, Fragment Shader, GHCJS and reflex-dom]]. ~ Joachim Breitner
#Haskell
+ [[https://hub.zhox.com/posts/chocolatey-introduction/][Haskell & AppVeyor Chocolatey introduction]]. ~ Tamar Christina #Haskell
+ ~ Chris Penner #Haskell
+ [[https://gist.github.com/atondwal/ee869b951b5cf9b6653f7deda0b7dbd8][Popularity of Haskell extensions]]. ~ Anish Tondwalkar #Haskell
+ [[https://openlibra.com/es/book/mathematical-reasoning-writing-and-proof][Mathematical reasoning]]. Writing and proof. ~ Ted Sundstrom #eBook #Math
+ [[https://www.wlkl.ch/literature/docs/KlKr14.pdf][Supercompilation: ideas and methods]]. ~ I. Klyuchnikov, D. Krustev #Haskell
+ [[http://www.ittc.ku.edu/research/thesis/documents/justin_dawson_thesis.pdf][The remote monad]]. ~ Justin Dawson #PhD_Thesis #Haskell
+ [[http://ceur-ws.org/Vol-2095/paper2.pdf][A simple semi-automated proof assistant for first-order modal logics]].
~ T. Libal #Logic #ATP #Prolog
+ [[http://ceur-ws.org/Vol-2095/invited1.pdf][Implementations of natural logics]]. ~ Lawrence S. Moss #Logic
#AutomatedReasoning
+ [[http://ceur-ws.org/Vol-2095/invited2.pdf][Some thoughts about FOL-translations in Vampire]]. ~ Giles Reger
#AutomatedReasoning #Vampir
+ [[https://www.brucker.ch/bibliography/download/2018/brucker.ea-isabelle-ontologies-2018.pdf][Using the Isabelle Ontology Framework]] (Linking the formal with the informal). ~ A.D. Brucker et als. #ITP
#Isabelle
+ [[http://www0.cs.ucl.ac.uk/staff/b.cook/CAV18_invited.pdf][Formal reasoning about the security of AWS (Amazon Web Services)]]. ~
Byron Cook #AutomatedReasoning
+ [[http://www.cse.chalmers.se/~slrn/papers/into_infinite.pdf][Into the infinite-theory exploration for coinduction]]. ~
S.H. Einarsdóttir, M. Johansson, J.Å. Pohjola #IsabelleHOL
+ [[http://www.cs.cmu.edu/~aldrich/papers/interdisciplinary-pl-design.pdf][Interdisciplinary programming language design]]. ~ Michael Coblenz et
als. #Programming
+ [[https://arxiv.org/pdf/1807.08711][Constructive Galois connections]]. ~ D. Darais, D. van Horn #ITP #Agda
#Math
+ [[https://arxiv.org/pdf/1807.08058][Learning heuristics for automated reasoning through deep reinforcement
learning]]. ~ G. Lederman et als. #MachineLearnig #AutomatedReasoning
+ [[https://arxiv.org/pdf/1807.08204][Towards neural theorem proving at scale]]. ~ P. Minervini et
als. #AutomatedReasoning #MachineLearning
+ [[http://www.pl-enthusiast.net/2018/07/24/teaching-programming-languages][Teaching programming languages]]. ~ Michael Hicks #Programming #Teaching
+ [[http://mathesaurus.sourceforge.net/matlab-python-xref.pdf][Reference comparing R, Python, and MATLAB syntax]]. #Python #Rstats #MatLAB
+ [[https://itsfoss.com/apt-get-linux-guide/][Using apt-get commands in Linux (complete beginners guide)]]. ~
A. Prakash #Linux
+ [[https://hal.inria.fr/hal-01828344/file/main.pdf][CoqTL: an internal DSL for model transformation in Coq]]. ~ M. Tisi,
Z. Cheng #ITP #Coq
+ [[https://hal.archives-ouvertes.fr/hal-01832031/file/RLR-Coq.pdf][Regular language representations in the constructive type theory of
Coq]]. ~ C. Doczkal, G. Smolka #ITP #Coq
+ [[https://xenaproject.wordpress.com/2018/07/25/quadratic-reciprocity-and-p2-1-8/][Quadratic reciprocity and (p^2-1)/8]]. ~ The Xena Project #ITP #Lean #Math
+ [[https://arxiv.org/pdf/1807.08588][Automating verification of state machines with reactive designs and
Isabelle/UTP]]. ~ S. Foster et als. #ITP #IsabelleHOL
+ [[https://tarski.cs.us.es/~jalonso/DAOconCoq/index.php/Demostraci%C3%B3n_Asistida_por_Ordenador_con_Coq][DAOconCoq: Demostración Asistida por Ordenador con Coq]]. #DAO #Coq
+ [[https://tarski.cs.us.es/~jalonso/DAOconCoq/index.php/Tema_1:_Programaci%C3%B3n_funcional_y_m%C3%A9todos_elementales_de_demostraci%C3%B3n_en_Coq][DAOconCoq: Programación funcional y métodos elementales de
demostración en Coq]]. #DAO #Coq
+ [[https://medium.com/@cdsmithus/patience-in-k-8-computer-science-5bc2eb9dc562][Patience in K-8 Computer Science]]. ~ Chris Smith #Teaching
#Programming #CodeWorld
+ [[https://www.springerprofessional.de/formally-verified-montgomery-multiplication/15968616][Formally verified Montgomery multiplication]]. ~ C. Walther #ITP
#VeriFun #Math
+ [[https://idus.us.es/xmlui/handle/11441/77572][Teoría de categorías y programación funcional]]. ~ Diego Pedraza
#Haskell #Matemáticas
+ [[https://www.forbes.com/sites/quora/2018/07/27/why-purely-functional-programming-is-a-great-idea-with-a-misleading-name][Why purely functional programming is a great idea with a misleading
name]]. ~ Tikhon Jelvis #FunctionalProgramming
+ [[https://arxiv.org/pdf/1807.09873][Formalizing the Cox-Ross-Rubinstein pricing of European derivatives in
Isabelle/HOL]]. ~ M. Echenim, H. Guiol, N. Peltier #ITP #IsabelleHOL
+ [[http://www.cs.swan.ac.uk/~csetzer/articles/PPDP18/PPDP18adelsbergerSetzerWalkingshawAccepted.pdf][Declarative GUIs: simple, consistent, and verified]]. ~ S. Adelsberger,
A. Setzer, E. Walkingshaw #Agda
+ [[http://andreipopescu.uk/pdf/bindings.pdf][Bindings are functors]]. ~ J.C. Blanchette, L. Gheri, A. Popescu,
D. Traytel #ITP #IsabelleHOL
+ [[https://medium.com/@cdsmithus/novices-and-motivation-when-learning-to-code-19a35a5ff851][Novices and motivation when learning to code]]. ~ Chris Smith
#Teaching #CodeWorld
+ [[https://terrytao.wordpress.com/2018/07/28/gamifying-propositional-logic-qed-an-interactive-textbook][Gamifying propositional logic: QED, an interactive textbook]]. ~ Terence
Tao #Teaching #Logic
+ [[http://www.math.ucla.edu/~tao/QED/QED.html][QED: a short interactive text in propositional logic arranged in the
format of a computer game]]. ~ Terence Tao #Teaching #Logic
+ [[https://www.lirmm.fr/~retore/PRESENTATIONS/UMjeudisRetoreLogique.pdf][Une histoire de la logique mathématique (de la philosophie à
l’informatique)]]. ~ Christian Retoré #Logic
+ [[https://www.cs.cornell.edu/courses/cs3110/2017fa/][Course: Data structures and functional programming]]. ~ Michael Clarkson
#FunctionalProgramming #OCaml #ITP #Coq
+ [[https://raywang.tech/2017/09/25/formal-reasoning-in-coq/][Formal reasoning in Coq: a beginner's guide]]. ~ Ray Wang
#ITP #Coq
+ [[https://github.com/readablesystems/cs260r-17/blob/master/naivecoq.md][Coq cheatsheet]]. ~ Eddie Kohler #ITP #Coq
+ [[https://www.i-programmer.info/news/216-python/11996-python-the-future-of-programming.html][Python the future of programming?]] ~ Mike James #Programming #Python
+ [[http://www.mgsloan.com/posts/ghcinception/][GHCinception: Running GHCi in GHCi]]. ~ Michael Sloan #Haskell
+ [[http://cadenaser.com/ser/2018/07/27/internacional/1532719014_366615.html][Un error informático envía información confidencial a 1.500 criminales]]. #Programación
+ [[https://en.wikipedia.org/wiki/List_of_software_bugs][List of software bugs]]. ~ Wikipedia #Programming
+ [[https://github.com/cpitclaudel/company-coq][Company-coq: A collection of extensions for Proof General's Coq mode]].
#Emacs #Coq
+ [[https://arxiv.org/pdf/1807.07892][Bridging the gap between programming languages and hardware weak
memory models]]. ~ A. Podkopaev, O. Lahav, V. Vafeiadis #ITP #Coq
+ [[https://ac1235.github.io/haskell.pdf][Haskell for JavaScript developers]]. ~ Anthony N Cipriano #Haskell
#JavaScript
+ [[https://vaibhavsagar.com/blog/2018/07/29/hamts-from-scratch/][HAMTs (Hash Array Mapped Tries) from scratch]]. ~ Vaibhav Sagar #Haskell
+ [[https://plus.maths.org/content/constructivists-expert][Constructivism: An expert's view]]. ~ Harvey Friedman #Logic #Math
+ [[http://www.enseignement.polytechnique.fr/informatique/INF551/][Computational logic: artificial intelligence in mathematical
reasoning]]. ~ S. Graham-Lengrand and R. Blanco #Course #Logic
#FunctionalProgramming #OCaml #ITP #Coq
+ [[http://www-sop.inria.fr/members/Yves.Bertot/courses/coq-master1-1.pdf][Verifying programs and proofs (Part I. describe algorithms)]]. ~ Yves
Bertot #ITP #Coq
+ [[https://team.inria.fr/marelle/en/coq-winter-school-2018/][Coq Winter School 2018]]. ~ Yves Bertot #Course #ITP #Coq
+ [[https://medium.freecodecamp.org/the-art-of-computer-programming-by-donald-knuth-82e275c8764f]["The art of computer programming" by Donald Knuth]]. ~ Carl Tashian
#Programming
+ [[https://tarski.cs.us.es/~jalonso/DAOconCoq/index.php/Tema_2:_Demostraciones_por_inducci%C3%B3n_sobre_los_n%C3%BAmeros_naturales_en_Coq][DAOconCoq T2: Demostraciones por inducción sobre los números naturales
en Coq]]. #ITP #Coq
+ [[http://cl-informatik.uibk.ac.at/users/swinkler/research/papers/ZWM14.pdf][Beyond polynomials and Peano arithmetic: automation of elementary and
ordinal interpretations]]. ~ H. Zankl, S. Winkler, A. Middeldorp #Logic
#Math #ATP
+ [[http://danghica.blogspot.com/2018/03/copying-vs-sharing-in-functional.html][Copying vs. sharing in functional languages]]. ~ Dan Ghica #FunctionalProgramming
+ [[https://doisinkidney.com/posts/2018-07-30-verified-avl.html][Verified AVL trees in Haskell and Agda]]. ~ Donnacha Oisín Kidney
#Haskell #Agda
+ [[http://danghica.blogspot.com/2018/07/haskell-if-monads-are-solution-what-is.html][Haskell: If monads are the solution, what is the problem?]] ~ Dan Ghica
#FunctionalProgramming #Haskell
+ [[https://bartoszmilewski.com/2018/07/30/free-monoid-from-free-algebra-part-1][Free Monoid from Free Algebra, Part 1: Free Algebras]]. ~ Bartosz
Milewski #Haskell #CategoryTheory
+ [[https://bartoszmilewski.com/2018/07/30/free-monoid-from-free-algebra-part-1][Free Monoid from Free Algebra, Part 2: Free Monoids]]. ~ Bartosz
Milewski #Haskell #CategoryTheory
+ [[https://grain-lang.org][Grain: a strongly-typed functional programming language built for the
modern web]]. #FunctionalProgramming
+ [[https://korban.net/posts/elm/2018-07-31-learning-elm-2018-comprehensive-list-resources][Learning Elm in 2018: comprehensive list of resources]]. #FunctionalProgramming
#Elm
** Agosto 2018
+ [[https://www.sciencedirect.com/science/article/pii/S0747717118300361][Formalization of the arithmetization of Euclidean plane geometry and
applications]]. ~ P. Boutry, G. Braun, J. Narboux #ITP #Coq #Math
+ [[https://arxiv.org/pdf/1807.11576][Formal probabilistic analysis of dynamic fault trees in HOL4]]. ~
Y. Elderhalli, W. Ahmad, O. Hasan, S. Tahar #ITP #HOL4
+ [[http://compcogscisydney.org/learning-statistics-with-r/][Learning statistics with R (A tutorial for psychology students and
other beginners)]]. ~ Danielle Navarro #Statistics #Rstats
+ [[http://blog.jpolak.org/?p=2000][Art vs. science in mathematical discovery]]. ~ J. Polak #Math
+ [[https://deliquus.com/posts/2018-07-30-imperative-programming-in-haskell.html][Making Haskell as fast as C: Imperative programming in Haskell]]. ~
Henri Verroken #Haskell
+ [[https://hackernoon.com/learn-functional-python-in-10-minutes-to-2d1651dece6f][Learn functional Python in 10 minutes]]. ~ Brandon Skerritt
#FunctionalProgramming #Python
+ [[https://github.com/tbanel/orgaggregate][Aggregates tables in Org mode]]. ~ Thierry Banel #Emacs #OrgMode
+ [[https://arxiv.org/pdf/1807.11399][Who needs category theory?]] ~ A. Blass, Y. Gurevich #CategoryTheory
+ [[https://github.com/tchajed/coq-tricks][Tricks in Coq: Some tips, tricks, and features in Coq that are hard to
discover]]. ~ Tej Chajed #ITP #Coq
+ [[http://ceur-ws.org/Vol-2149/paper2.pdf][An Answer Set Programming environment for high-level specification and
visualization of FCA]]. ~ L. Bourneuf #ASP #FCA
+ [[https://medium.freecodecamp.org/make-your-code-easier-to-read-with-functional-programming-94fb8cc69f9d][Make your code easier to read with Functional Programming]]. ~ Cristi
Salcescu #FunctionalProgramming #JavaScript
+ [[https://hackernoon.com/two-years-of-functional-programming-in-javascript-lessons-learned-1851667c726][Two years of functional programming in JavaScript: lessons learned]]. ~
Victor Nakoryakov #FunctionalProgramming #JavaScript
+ [[https://www.47deg.com/blog/science-behind-functional-programming/][The science behind functional programming]]. ~ Rafa Paradela
#FunctionalProgramming #CategoryTheory
+ [[https://itnext.io/pros-and-cons-of-functional-programming-32cdf527e1c2][Pros and cons of functional programming]]. ~ Iren Korkishko
#FunctionalProgramming
+ [[https://opensource.com/article/17/6/functional-javascript][An introduction to functional programming in JavaScript]]. ~ Matt Banz
#FunctionalProgramming #JavaScript
+ [[https://hal.archives-ouvertes.fr/hal-01830255/document][A Coq mechanised formal semantics for realistic SQL queries * Formally
reconciling SQL and bag relational algebra ~ V]]. Benzaken, É. Contejean
#ITP #Coq
+ [[http://www.lrdc.pitt.edu/Ashley/Mexico%20Talks/Ashley-Tutorial05.pdf][An introduction to artificial intelligence and law]]. ~ K. Ashley,
T. Gordon. #AI
+ [[https://hackernoon.com/top-10-roles-for-your-data-science-team-e7f05d90d961][Top 10 roles in AI and data science]]. ~ Cassie Kozyrkov #AI
#DataScience
+ [[https://www.typesofnote.com/dsss17-slack.html][Summarized Slack from Deepspec Summer School 2017]]. #DSSS17 #ITP #Coq
+ [[https://gilmi.me/blog/post/2018/07/24/pfgames][Purely functional games]]. ~ Gil Mizrahi #FunctionalProgramming #Haskell #Game
+ [[https://soupi.github.io/rfc/pfgames][Purely functional games (How I built a game in Haskell - pure
functional style)]]. Gil Mizrahi [Slides]
#FunctionalProgramming #Haskell #Game
+ [[https://blog.nyarlathotep.one/2018/07/ghc-one-compiler-to-rule-them-all][GHC, one compiler to RULE them all]]. ~ Alexandre Moine #Haskell
+ [[https://haskell-works.github.io/posts/2018-08-01-introduction-to-rank-select-bit-string.html][Introduction to the rank-select bit-string]]. ~ John Ky
#FunctionalProgramming #Haskell
+ [[https://dselsam.github.io/quickspec/][QuickSpec and the quest for good lemmas]]. ~ Daniel Selsam #Haskell
+ [[https://dl.acm.org/citation.cfm?id=3236763][Parametric polymorphism and operational improvement]]. ~ J. Hackett,
G. Hutton. #FunctionalProgramming #Haskell
+ [[https://dl.acm.org/citation.cfm?id=3236765][The simple essence of automatic differentiation]]. ~ Conal Elliott
#FunctionalProgramming #CategoryTheory #Haskell
+ [[https://dl.acm.org/citation.cfm?id=3236777][Teaching how to program using automated assessment and functional
glossy games (experience report)]]. ~ J. Bacelar Almeida et
als. #Teaching #FunctionalProgramming #Haskell
+ [[https://tarski.cs.us.es/~jalonso/DAOconCoq/index.php/Tema_3:_Datos_estructurados_en_Coq][DAOconCoq T3: Datos estructurados en Coq]]. #ITP #Coq
+ [[https://github.com/jaalonso/DAOconCoq/releases/download/v0.3/DAOconCoq.pdf][Demostración Asistida por Ordenador (3 primeros capítulos)]]. #DAOconCoq
#ITP #Coq
+ [[https://dl.acm.org/citation.cfm?id=3236767][Compositional soundness proofs of abstract interpreters]]. ~ S. Keidel,
C. Bach Poulsen, S. Erdweg. #Haskell
+ [[https://dl.acm.org/citation.cfm?id=3236770][Elaborating dependent (co)pattern matching]]. ~ J. Cockx, A. Abel. #Agda
+ [[https://dl.acm.org/citation.cfm?id=3236771][Capturing the future by replaying the past (functional pearl)]]. ~
J. Koppel, G. Scherer, A. Solar-Lezama. #FunctionalProgramming #SML
+ [[https://dl.acm.org/citation.cfm?id=3236772][MoSeL: a general, extensible modal framework for interactive proofs in
separation logic]]. ~ R. Krebbers et als. #ITP #Coq
+ [[https://dl.acm.org/citation.cfm?id=3236779][What you needa know about Yoneda: profunctor optics and the Yoneda
lemma (functional pearl)]]. ~ G. Boisseau,
J. Gibbons. #FunctionalProgramming #Haskell #CategoryTheory
+ [[https://dl.acm.org/citation.cfm?id=3236781][Relational algebra by way of adjunctions]]. ~ J. Gibbons et
als. #FunctionalProgramming #Haskell #CategoryTheory
+ [[https://dl.acm.org/citation.cfm?id=3236784][Ready, set, verify! applying hs-to-coq to real-world Haskell code
(experience report)]]. ~ J. Breitner et als. #Haskell #Coq
+ [[https://dl.acm.org/citation.cfm?id=3236785][A type and scope safe universe of syntaxes with binding: their
semantics and proofs]]. ~ G. Allais et als. #Agda
+ [[https://tarski.cs.us.es/~jalonso/DAOconCoq/index.php/Tema_4:_Polimorfismo_y_funciones_de_orden_superior_en_Coq][DAOconCoq T4: Polimorfismo y funciones de orden superior en Coq]]. #ITP #Coq
+ [[https://github.com/jaalonso/DAOconCoq/releases/download/v0.4/DAOconCoq.pdf][Demostración Asistida por Ordenador (4 primeros capítulos)]]. #DAOconCoq
#ITP #Coq
+ [[https://dl.acm.org/citation.cfm?id=3236788][Prototyping a functional language using higher-order logic
programming: a functional pearl on learning the ways of
λProlog/Makam]]. ~ A. Stampoulis, A. Chlipala. #Metaprogramming #Prolog
+ [[https://dl.acm.org/citation.cfm?id=3236787][Equivalences for free: univalent parametricity for effective
transport]]. ~ N. Tabareau, É. Tanter, M. Sozeau. #Coq #HoTT
+ [[https://dl.acm.org/citation.cfm?id=3236791][Fault tolerant functional reactive programming (functional pearl)]]. ~
I. Perez #FunctionalProgramming #Haskell #Idris
+ [[https://dl.acm.org/citation.cfm?id=3236795][Partially-static data as free extension of algebras]]. ~ J. Yallo et
als. #FunctionalProgramming #Haskell
+ [[https://www.sciencedirect.com/science/article/pii/S0167642318300273][Boolean constraints in SWI-Prolog: A comprehensive system description]].
~ Markus Triska #Prolog #CLP
+ [[http://iris-project.org/tutorial-pdfs/iris-lecture-notes.pdf][Lecture notes on Iris: Higher-order concurrent separation logic]]. ~
L. Birkedal, A. Bizjak #ITP #Coq #Logic
+ [[https://limperg.de/ghc-extensions/][A guide to GHC's extensions]]. ~ Jannis Limperg #Haskell
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell/releases/download/v.9.7.1/Examenes_de_PF_con_Haskell.pdf][Libro de exámenes de programación funcional con Haskell (versión del 4
de agosto de 2018)]]. #Haskell #I1M2017
+ [[https://archive.org/stream/MathematicalOlympiadInChinaProblemsAndSolutions/Mathematical_Olympiad_in_China-Problems_and_Solutions][Mathematical olympiad in China (problems and solutions)]]. #Math
+ [[http://www.math.wustl.edu/~sk/eolss.pdf][The history and concept of mathematical proof]]. ~ S. G. Krantz. #Math
+ [[https://en.wikipedia.org/wiki/Mathematical_proof][Mathematical proof]]. ~ Wikipedia #Math
+ [[https://mpg.is/papers/gissurarson2018suggesting-xp.pdf][Suggesting valid hole fits for typed-holes (Experience report)]]. ~
Matthías Páll Gissurarson #Haskell
+ [[https://github.com/noinia/hgeometry][hgeometry: A simple geometry library in Haskell]]. ~ Frank Staals
#Haskell #Math
+ [[http://mvaled.github.io/blog/html/2018/08/01/composing-iterator-returning-functions.html][Composing iterator-returning functions]]. ~ Manuel Vázquez Acosta
#Python #Haskell
+ [[https://global.handelsblatt.com/companies/lidl-software-flop-germany-digital-failure-950223][Lidl software disaster another example of Germany’s digital failure]]. ~
F. Kolf, C. Kerkmann #Sofware #Bug
+ [[https://openstax.org/subjects][OpenStax: openly licensed textbooks]]. #eBooks
+ [[https://arxiv.org/pdf/1807.11792][Computing integer sequences: Filtering vs generation (Functional pearl)]].
~ I. Salvo, A. Pacifico #FunctionalProgramming #Haskell
+ [[https://arxiv.org/pdf/1807.11267][Coherent explicit dictionary application for Haskell: Formalisation
and coherence proof]]. ~ T. Winant, D. Devriese #Haskell
+ [[https://www.cs.us.es/~jalonso/publicaciones/2018-DAOconIsabelleHOL.pdf][Demostración asistida por ordenador con Isabelle/HOL]]. #DAO #IsabelleHOL
+ [[https://sonatsuer.github.io/evangelism/2018/07/23/invitation.html][An invitation to functional programming (for mathematicians)]]. ~ Sonat
Süer #FunctionalProgramming #Haskell
+ [[https://danghica.blogspot.com/2018/07/haskell-aint-maths.html][Haskell ain't maths]]. ~ Dan Ghica #Haskell #Maths
+ [[https://sonatsuer.github.io/higher-algebra/2018/07/30/monoid-homomorphisms-1.html][Monoid homomorphisms (Part 1 of 2)]]. ~ Sonat Süer #CategoryTheory #Haskell
+ [[http://math.jhu.edu/~eriehl/arithmetic.pdf][Categorifying cardinal arithmetic]]. ~ Emily Riehl #Math #CategoryTheory
+ [[https://rjlipton.wordpress.com/2018/08/06/desperately-seeking-integers/][Desperately seeking integers (A few twists on Turing’s proof of
undecidability of predicate calculus)]]. ~ R.J. Lipton, K.W. Regan
#Logic #Math
+ [[http://semantic-domain.blogspot.com/2018/08/category-theory-in-pl-research.html ][Category theory in PL research]]. ~ N. Krishnaswami #CategoryTheory
#CompSci
+ [[https://medium.com/@jeremyjkun/habits-of-highly-mathematical-people-b719df12d15e][Habits of highly mathematical people]]. ~ Jeremy Kun #Math
+ [[https://www.quantamagazine.org/a-short-guide-to-hard-problems-20180716/][A short guide to hard problems]]. ~ Kevin Hartnett #Math #CompSci
+ [[http://www.openculture.com/?p=1034777][Discover “Unpaywall,” a new (and legal) browser extension that lets
you read millions of science articles normally locked up behind
paywalls]].
+ [[http://blog.poisson.chat/posts/2018-08-06-one-type-family.html][Haskell with only one type family]]. ~ Xia Li-yao #Haskell
+ [[https://mmhaskell.com/blog/2018/8/6/keeping-it-clean-haskell-code-formatters][Keeping it clean: Haskell code formatters]]. ~ James Bowen #Haskell
+ [[https://arxiv.org/pdf/1808.01270v2][Topological models of arithmetic]]. ~ A. Enayat, J.D. Hamkins, B. Wcisło
#Logic #Math
+ [[http://cl-informatik.uibk.ac.at/cek/submitted/ckkp-jar17.pdf][Semantics of Mizar as an Isabelle object logic]]. ~ C. Kaliszyk, K. Pąk
#ITP IsabelleHOL #Mizar #Logic
+ [[http://www.staff.science.uu.nl/~swier004/publications/2018-tyde.pdf][From algebra to abstract machine: a verified generic construction]]. ~
C.T. Cortiñas, W. Swierstra #FunctionalProgramming #ITP #Agda
+ [[https://www.mimuw.edu.pl/~lukaszcz/cicm2018.pdf]["Concrete semantics" with Coq and CoqHammer]]. ~ Ł. Czajka, B. Ekici,
C. Kaliszyk #ITP #Coq #IsabelleHOL
+ [[https://github.com/lukaszcz/COQ-IMP ][Coq version of (part of) the HOL-IMP theories accompanying the book
"Concrete Semantics with Isabelle/HOL"]]. Formalized using
CoqHammer. #ITP #Coq
+ [[http://www.mdpi.com/2224-2708/7/3/34/pdf][Enif-Lang: A specialized language for programming network functions on
commodity hardware]]. ~ N. Bonelli, S. Giordano, G. Procissi #Haskell
+ [[https://haskell-works.github.io/posts/2018-08-08-data-parallel-rank-select-bit-string-construction.html][Data-parallel rank-select bit-string construction]]. ~ John Ky #Haskell
+ [[https://sonatsuer.github.io/higher-algebra/2018/08/09/monoid-homomorphisms-2.html][Monoid homomorphisms (Part 2 of 2)]]. ~ Sonat Süer #CategoryTheory #Haskell
+ [[https://sras.me/haskell/miscellaneous-enlightenments.html][Learning Haskell: Miscellaneous enlightenments]]. ~ Sandeep C R #Haskell
+ [[https://markkarpov.com/tutorial/th.html][Template Haskell tutorial]]. ~ Mark Karpov #Haskell
+ [[https://www.onlineuniversities.com/blog/2009/07/100-best-websites-for-mathletes/][100 best websites for mathletes]]. #Math
+ [[https://www.dropbox.com/s/i0qgfoye6artcp8/untyped_lambda.pdf?dl=0][Lambda calculus - step by step]]. ~ Helmut Brandl #LambdaCalculus #Logic
#Math
+ [[https://leanpub.com/outsidefp][An outsider's guide to statically typed functional programming]]. ~
Brian Marick #FunctionalProgramming #Elm #PureScript
+ [[https://tarski.cs.us.es/~jalonso/DAOconCoq/index.php/Tema_5:_T%C3%A1cticas_b%C3%A1sicas_de_Coq][DAOconCoq T5: Tácticas básicas de Coq]]. #ITP #Coq
+ [[https://github.com/jaalonso/DAOconCoq/releases/download/v0.5/DAOconCoq.pdf][Demostración Asistida por Ordenador con Coq (5 primeros capítulos)]].
#DAOconCoq #ITP #Coq
+ [[https://www.johndcook.com/blog/2018/08/11/currying/][Currying in calculus, PDEs, programming, and categories]]. ~ J.D. Cook
#Math #FunctionalProgramming #Haskell #CategoryTheory
+ [[https://medium.com/@krystal.maughan/breaking-the-space-time-barrier-with-haskell-time-traveling-and-debugging-in-codeworld-a-google-e87894dd43d7][Breaking the space-time barrier with Haskell: Time-traveling and
debugging in CodeWorld]]. ~ Krystal Maughan #Haskell #CodeWorld
+ [[https://www.fceia.unr.edu.ar/~mauro/pubs/cm-conf.pdf][Improving typeclass relations by being open]]. ~ G. Martínez,
M. Jaskelioff, G. De Luca #Haskell
+ [[https://github.com/lortabac/versioning][Type-safe data versioning in Haskell]]. ~ Lorenzo Tabacchini #Haskell
+ [[https://www.fpcomplete.com/hubfs/Haskell-User-Survey-Results.pdf][State of Haskell 2018]]. ~ Aaron Contorer #Haskell
+ [[https://www.nature.com/news/paradox-at-the-heart-of-mathematics-makes-physics-problem-unanswerable-1.18983][Paradox at the heart of mathematics makes physics problem
unanswerable]]. ~ Davide Castelvecch #Logic #Math #Physics
+ [[https://abhinavsarkar.net/posts/fast-sudoku-solver-in-haskell-3/][Fast Sudoku solver in Haskell #3: Picking the right data structures]]. ~
Abhinav Sarkar #Haskell
+ [[http://matryoshka.gforge.inria.fr/pubs/deep_learning_article.pdf][A formal proof of the expressiveness of deep learning]]. ~ A. Bentkamp,
J.C. Blanchette, D. Klakow. #ITP #IsabelleHOL #DeepLearning
+ [[http://cattheory.com/extensibleTypeDirectedEditing.pdf][Extensible type-directed editing]]. ~ J. Korkut, D.T. Christiansen
#FunctionalProgramming #Idris
+ [[http://www.philipzucker.com/approximating-compiling-categories-using-typelevel-haskell-take-2/][Approximating compiling to categories using type-level Haskell: Take 2]].
~ Philip Zucker #FunctionalProgramming #Haskell
+ [[http://matryoshka.gforge.inria.fr/pubs/wagemaker_bsc_thesis.pdf][A formally verified proof of the Mason-Stothers theorem in Lean]]. ~
J. Wagemaker #ITP #Lean #Math
+ [[http://kataskeue.com/gdp.pdf][Ghosts of departed proofs (Functional pearl)]]. ~ Matt Noonan #Haskell
+ [[http://www.cse.chalmers.se/~patrikj/papers/TypeTheory4ModProg_preprint_2018-05-19.pdf][Type theory as a framework for modelling and programming]]. ~
C. Ionescu, P. Jansson, N. Botta. #FunctionalProgramming
+ [[https://plato.stanford.edu/entries/proof-theory/][Proof theory]]. ~ Michael Rathjen #Logic
+ [[https://divisbyzero.com/2010/08/18/mathematical-surprises/][Mathematical surprises]]. ~ Dave Richeson #Math
+ [[https://link.springer.com/article/10.1007/s10817-018-9455-7][A verified SAT solver framework with learn, forget, restart, and
incrementality]]. ~ J.C. Blanchette et als. #ITP #IsabelleHOL #SAT
+ [[https://towardsdatascience.com/newbies-guide-to-deep-learning-6bf601c5a98e][Newbie’s guide to Deep Learning (Taking baby steps when starting
DL)]]. ~ Arkar Min Aung #DeepLearning
+ [[https://www.isa-afp.org/entries/Minsky_Machines.html?utm_source=dlvr.it&utm_medium=twitter][Minsky machines in Isabelle/HOL]]. ~ Bertram Felgenhauer #ITP #IsabelleHOL
+ [[https://arxiv.org/pdf/1807.08416v1][Some fundamental theorems in Mathematics]]. ~ Oliver Knill #Math
+ [[https://medium.com/brandons-computer-science-notes/divide-and-conquer-algorithms-4e83d9999ffa][Divide and conquer algorithms]]. ~ Brandon Skerritt #Algorithms
+ [[https://mzabani.github.io/posts/2018-08-13.html][Typeclass induction and developing a QuickCheck-like library]]. ~
Marcelo Zabani #FunctionalProgramming #Haskell
+ [[https://patternsinfp.wordpress.com/2018/08/14/folds-on-lists/][Folds on lists]]. ~ Jeremy Gibbons #FunctionalProgramming #Haskell
+ [[https://github.com/sharkdp/cube-composer][Cube composer: A puzzle game inspired by functional programming]]. ~
David Peter #FunctionalProgramming #PureScript #Game
+ [[https://arxiv.org/pdf/1808.04251v1][Proof simplification and automated theorem proving]]. ~ Michael Kinyon
#ATP #Prover9
+ [[https://arxiv.org/pdf/1808.03810][The Boyer-Moore waterfall model revisited]]. ~ P. Papapanagiotou,
J. Fleuriot #ITP #HOL_Light
+ [[http://www.cse.chalmers.se/~algehed/blogpostsHTML/SAT.html][A very small SAT solver]]. ~ Maximilian Algehed #FunctionalProgramming
#Haskell #Logic #SAT
+ [[http://argo.matf.bg.ac.rs/publications/2018/2018-InformalToFormal.pdf][From informal to formal proofs in euclidean geometry]]. ~ S
Stojanovic-Ður #ATP #TPTP #Math
+ [[https://medium.com/@baseerhk/pearls-of-scala-functional-programming-part-i-ab4b76ba0b43][Pearls of Scala functional programming, Part I (1. Smallest free number:
array-based solution)]]. ~ Baseer Al-Obaidy #FunctionalProgramming #Scala
+ [[https://binx.io/blog/2018/08/09/functional-programming-in-python/][Functional programming in Python (Creating transformation pipelines in
Python)]]. ~ Dennis Vriend #FunctionalProgramming #Python
+ [[https://arxiv.org/pdf/1808.03274][Introducing computer science to high school students through logic
programming]]. ~ T.T. Yuen, M. Reyes, Y. Zhang. #LogicProgramming #ASP
#Teaching
+ [[https://journals.agh.edu.pl/csci/article/view/2863][Using Erlang in research and education in a technical university]]. ~
I. Petrov, A. Alexeyenko, G. Ivanova. #FunctionalProgramming #Erlang
#Teaching
+ [[https://julesh.com/2018/08/16/lenses-for-philosophers/][Lenses for philosophers]]. ~ Jules Hedges #CategoryTheory
+ [[https://www.johndcook.com/blog/2018/04/14/categorical-data-analysis/][Categorical data analysis]]. ~ John D. Cook #CategoryTheory
+ [[https://shiftordie.de/blog/2018/08/17/how-to-transform-camels-purescript-haskell/][How to turn a Dromedary camel into a Bactrian camel]]. ~ Alexander Klink
#FunctionalProgramming #Haskell
+ [[https://github.com/mchav/CourseraMachineLearning][Exercises and notes from the Coursera Machine Learning Course by
Andrew Ng]]. ~ Michael Chavinda #FunctionalProgramming
#Haskell #MachineLearning
+ [[https://opensource.googleblog.com/2018/08/zurihac-2018-haskell-hackathon-in.html][ZuriHac 2018: Haskell hackathon in Rapperswil]]. ~ Ivan Krišto.
#FunctionalProgramming #Haskell
+ [[https://medium.com/@maiavictor/solving-the-mystery-behind-abstract-algorithms-magical-optimizations-144225164b07][Solving the mystery behind Abstract Algorithm’s magical optimizations]].
~ Victor Maia #Haskell
+ [[https://julesh.com/2016/09/22/abusing-the-continuation-monad/][Abusing the continuation monad]]. ~ Jules Hedges #FunctionalProgramming #Haskell
+ [[http://www.cis.upenn.edu/~rrand/popl_2016/][Programs and proofs in the Coq proof assistant]]. ~ Arthur Azevedo de
Amorim and Robert Rand. #ITP #Coq
+ [[https://terrytao.wordpress.com/2018/08/18/qed-version-2-0-an-interactive-text-in-first-order-logic][QED version 2.0: an interactive text in first-order logic]]. ~ Terence
Tao #Teaching #Logic
+ [[https://medium.com/building-nubank/demystifying-functional-programming-in-a-real-company-e954a2591504][Demystifying functional programming (in a real company)]]. ~ Caio
Oliveira #FunctionalProgramming
+ [[https://medium.com/@sderosiaux/why-referential-transparency-matters-7c179424dab5][Why referential transparency matters?]] ~ Stéphane Derosiaux
#FunctionalProgramming
+ [[https://arxiv.org/pdf/1808.04289&hl][Eliminating unstable tests in floating-point programs]]. ~ L. Titolo,
C.A. Muñoz, M.A. Feliú, and M.M. Moscato. #FormalVerification #PVS
+ [[https://tarski.cs.us.es/~jalonso/DAOconCoq/index.php/Tema_6:_L%C3%B3gica_en_Coq][DAOconCoq T6: Lógica en Coq]]. #DAO #Coq #Lógica
+ [[https://github.com/jaalonso/DAOconCoq/releases/download/v0.6/DAOconCoq.pdf][Demostración Asistida por Ordenador con Coq (6 primeros
capítulos)]]. #DAOconCoq #DAO #Coq #ProgramaciónFuncional #Lógica
+ [[https://github.com/LeventErkok/sbvPlugin][SBVPlugin: Formally prove properties of Haskell programs using
SBV/SMT]]. ~ Levent Erkök #Haskell
+ [[http://www.scs.stanford.edu/11au-cs240h/notes/ghc-slides.htm][A Haskell compiler]]. ~ David Tereil #Haskell
+ [[https://bartoszmilewski.com/2018/08/20/recursion-schemes-for-higher-algebras/][Recursion schemes for higher algebras]]. ~ Bartosz Milewski
#FunctionalProgramming #Haskell #CategoryTheory
+ [[https://www.microsiervos.com/archivo/ia/etica-asistentes-inteligentes-filosofia.html][Sobre la ética de los asistentes inteligentes]]. ~ @Alvy #IA
+ [[https://philpapers.org/archive/DANTAE-2.pdf][Towards an ethics of AI assistants: An initial framework]]. ~ John
Danaher #AI
+ [[https://francis.naukas.com/2012/11/04/excelencia-universitaria-y-elitismo][Excelencia universitaria y elitismo]]. ~ Francisco R. Villatoro (#Universidad
+ [[http://www.usma.edu/eecs/SiteAssets/SitePages/Faculty%20Publication%20Documents/Okasaki/icfp99square.pdf][From fast exponentiation to square matrices: An adventure in types]]. ~
Chris Okasaki #FunctionalProgramming #Haskell
+ [[https://mathoverflow.net/questions/308797/what-programming-language-should-a-professional-mathematician-know][What programming language should a professional mathematician know?]]
#Math #Programming #CompSci
+ [[https://www.technologyreview.es/s/10458/esta-red-neuronal-aplica-leyes-fisicas-aprendidas-de-forma-automatica][Esta red neuronal aplica leyes físicas aprendidas de forma
automática]]. #IA #Física
+ [[https://arxiv.org/pdf/1807.10300][Discovering physical concepts with neural networks]]. ~ R. Iten et
als. #MachineLearning #Physics
+ [[https://functor.tokyo/blog/2018-08-21-machine-learning-for-haskellers][How to get into Machine Learning for a Haskeller]]. ~ Dennis Gosnell
#Haskell #MachineLearning
+ [[https://functional.works-hub.com/learn/water-jug-rewrite-with-haskell-part-i-4347a?utm_source=reddit&utm_campaign=Walkies&utm_content=Hask%2FBlog][Water jug rewrite with Haskell (Part I)]]. ~ Vignesh Sarma K #Haskell
+ [[http://ceur-ws.org/Vol-2162/paper-08.pdf][A verified simple prover for first-order logic]]. ~ J. Villadsen,
A. Schlichtkrull, A.H. From. #ITP #IsabelleHOL
+ [[https://arxiv.org/pdf/1808.05342][Formalisation of a frame stack semantics for a Java-like language]]. ~ A
Schubert, J. Chrząszcz. #ITP #Coq
+ [[http://haskell.cs.yale.edu/wp-content/uploads/2011/01/cs.pdf][The conception, evolution, and application of functional programming
languages]]. ~ Paul Hudak #FunctionalProgramming
+ [[http://goto.ucsd.edu/~nvazou/real_world_liquid.pdf][LiquidHaskell: Experience with refinement types in the real world]]. ~
N. Vazou, E.L. Seidel, R. Jhala #Haskell #LiquidHaskell
+ [[https://leanpub.com/fpmortals/read][Functional programming for mortals with Scalaz]]. ~ Sam Halliday
#FunctionalProgramming #Scala #Scalaz
+ [[https://github.com/fommil/fpmortals][Source and examples to “Functional Programming for Mortals with
Scalaz”]]. ~ Sam Halliday #FunctionalProgramming #Scala #Scalaz
+ [[http://andreipopescu.uk/pdf/cosmed.pdf][CoSMed: A confidentiality-verified social media platform]]. ~
T. Bauereiß et als. #ITP #IsabelleHOL
+ [[https://profsjt.blogspot.com/2018/08/review-of-cosmed-confidentiality.html][Review of: "CoSMed: a confidentiality-verified social media platform"]].
~ Simon Thompson #ITP #IsabelleHOL
+ [[http://www.egri-nagy.hu/pdf/Math_Liberal_Arts_Reader.pdf][Mathematics and programming - the easy languages to learn]]. ~
A. Egri-Nagy #Math #CompSci
+ [[http://downloads.hindawi.com/journals/mpe/aip/4982974.pdf][A new algebraic approach to decision making in a railway interlocking
system based on preprocess]]. A. Hernando, R. Maestre, E. Roanes-Lozano.
#Math #CompSci
+ [[https://arboldetintalibros.wordpress.com/2011/11/02/matematicos-y-acusmaticos/][Matemáticos y acusmáticos]]. ~ Lucio Fernando Ruíz #Matemáticas
+ [[https://w.pitula.me/2016/monad-proof/][The proof: Monad as a monoid in category of endofunctors]]. ~ Wojtek
Pituła #FunctionalProgramming #Scala
+ [[https://medium.com/@maiavictor/the-abstract-calculus-fe8c46bcf39c][The abstract calculus]]. ~ Victor Maia #FunctionalProgramming #Haskell
+ [[https://dev.to/allanmacgregor/you-should-learn-functional-programming-in-2018-4nff][You should learn functional programming in 2018]]. ~ Allan MacGregor
#FunctionalProgramming
+ [[https://phaazon.net/media/uploads/axelsson2013using.pdf][Using circular programs for higher-order syntax (Functional pearl)]]. ~
E. Axelsson, K. Claessen. #FunctionalProgramming #Haskell
+ [[https://purelyfunctional.org/slides/writing_fast_haskell.pdf][Writing fast Haskell (Elegance is not an excuse for bad performance)]].
~ Moritz Kiefer #FunctionalProgramming
#Haskell
+ [[https://qnikst.github.io/posts/2018-08-23-ht-no-more.html][Marrying Haskell and Hyper-Threading]]. ~ Alexander Vershilov #FunctionalProgramming #Haskell
+ [[https://towardsdatascience.com/what-is-tail-recursion-elimination-or-why-functional-programming-can-be-awesome-43091d76915e][How functional programming can be awesome: Tail recursion elimination]].
~ Luciano Strika #FunctionalProgramming #Python #Haskell
+ [[https://haskell-works.github.io/posts/2018-08-22-pdep-and-pext-bit-manipulation-functions.html][Bit-manipulation operations for high-performance succinct data-structures and
CSV parsing]]. ~ John Ky #FunctionalProgramming #Haskell
+ [[https://medium.com/@zaid.naom/exploring-folds-a-powerful-pattern-of-functional-programming-3036974205c8][Exploring folds: A powerful pattern of functional programming]]. ~ Zaid
Ajaj #FunctionalProgramming
+ [[https://speakerdeck.com/konn/the-great-power-of-newtypes][The great power of Newtypes.]] ~ Hiromi Ishii #FunctionalProgramming #Haskell
+ [[http://www.cs.tufts.edu/~kfisher/teaching.html][Some lectures on programming languages]]. ~ Kathleen Fisher #Programming
+ [[https://www.slideshare.net/StevePoling1/turing-goes-to-church][Turing goes to Church (What can a computer do?).]] ~ Steve Poling
#CompSci #FunctionalProgramming
+ [[https://ajknapp.github.io/2018/08/14/notomatic-differentiation.html][Not-o-matic differentiation]]. ~ Andrew Knapp #FunctionalProgramming #Haskell
+ [[http://www.cse.chalmers.se/~patrikj/papers/Janssonetal_DSLsofMathCourseExamplesResults_preprint_2018-08-17.pdf][Examples and results from a BSc-level course on domain specific
languages of mathematics ~ P.]] Jansson et als. #Haskell
#Math
+ [[https://arxiv.org/pdf/1808.07771][FMS: Functional programming as a modelling language]]. ~ I. Dasseville,
G. Janssens. #ASP
+ [[http://es.r4ds.hadley.nz/][R para Ciencia de Datos]]. ~ G. Grolemund, H. Wickham #Rstats #DataScience
+ [[http://jmc.stanford.edu/articles/lisp/lisp.pdf][History of Lisp]]. ~ John McCarthy #Lisp
+ [[https://github.com/utkarshkukreti/purescript-hedwi][Hedwig: a fast, type safe, declarative PureScript library for building
web applications]]. ~ Utkarsh Kukretig#examples #PureScript
+ [[https://youtu.be/NcUNN_tSmyE][Purely functional solutions to imperative problems (HaskellRank Ep.07)]].
#FunctionalProgramming #Haskell
+ [[https://marcinszamotulski.me/posts/finite-state-machines.html][Typed transitions, finite state machines and free categories]]. ~ Marcin
Szamotulski #FunctionalProgramming #Haskell
+ [[https://www.cicm-conference.org/2018/infproc/paper11.pdf][Towards Mac Lane’s comparison theorem for the (co)Kleisli construction in Coq]].
~ Burak Ekici. #ITP #Coq
+ [[https://www.cicm-conference.org/2018/infproc/paper2.pdf][Logic as a path to enlightenment (Work in progress report)]]. ~ Wolfgang
Schreiner #Logic #CompSci
+ [[https://www.cicm-conference.org/2018/infproc/paper13.pdf][Automatic proof-checking of ordinary mathematical texts]]. ~ S. Frerix,
P. Koepke. #ATP #ITP #Math
+ [[https://www.cicm-conference.org/2018/infproc/paper14.pdf][IsarMathLib: a formalized mathematics library for Isabelle/ZF]]. ~
S. Kołodyński. #ITP #IsabelleZF #Math
+ [[http://adam.chlipala.net/papers/FiatCryptoSP19][Simple high-level code for cryptographic arithmetic (with proofs,
without compromises)]]. ~ A. Erbsen, J. Philipoom, J. Gross, R. Sloan,
A. Chlipala. #ITP #Coq
+ [[http://homalg-project.github.io/CAP_project/][CAP (Categories, Algorithms, and Programming) project]]. ~ S. Gutsche,
S. Posur, M. Barakat, Ø. Skartsæterhagen. #CAS #CategoryTheory
+ [[https://www.cicm-conference.org/2018/infproc/paper21.pdf][On the syntax and semantics of CAP (Categories, Algorithms,
Programming) project]]. ~ S. Gutsche, S. Posur, Ø. Skartsæterhagen. #CAS
#CategoryTheory
+ [[http://unsworks.unsw.edu.au/fapi/datastream/unsworks:51703/SOURCE2][Automation for proof engineering (Machine-checked proofs at scale)]]. ~
D. Matichuk. #ITP #IsabelleHOL #PhD_Thesis
+ [[https://www.cicm-conference.org/2018/infproc/paper15.pdf][Progress in the formalization of Matiyasevich's theorem in the Mizar system]].
~ K. Pąk #ITP #Mizar #Math
+ [[http://philsci-archive.pitt.edu/14966/1/univalence-4.pdf][Univalent foundations as a foundation for mathematical practice]]. ~
H. Crane. #Logic #Math
+ [[https://locallycompact.gitlab.io/ANLGTH/][A nonlinear guide to Haskell]]. ~ Daniel Firth #FunctionalProgramming
#Haskell
+ [[http://stevelosh.com/blog/2018/08/a-road-to-common-lisp/][A road to Common Lisp]]. ~ Steve Losh #FunctionalProgramming #CommonLisp
+ [[http://stevelosh.com/blog/2018/05/fun-with-macros-gathering/][Fun with macros: Gathering]]. ~ Steve Losh #FunctionalProgramming #CommonLisp
+ [[http://stevelosh.com/blog/2018/07/fun-with-macros-if-let/][Fun with macros: If-let and when-let]]. ~ Steve Losh #FunctionalProgramming #CommonLisp
+ [[http://hal.inria.fr/inria-00076024/document][The calculus of constructions]]. ~ T. Coquand, G. Huet #Logic #Math
+ [[https://github.com/jaalonso/DAOconCoq/releases/download/v0.6.1/DAOconCoq.pdf][Demostración Asistida por Ordenador con Coq (6 primeros capítulos,
+ [[https://www.isa-afp.org/entries/Simplex.html][An incremental simplex algorithm with unsatisfiable core generation in
Isabelle/HOL]]. ~ Filip Marić #ITP #IsabelleHOL
+ [[http://cl-informatik.uibk.ac.at/users/mfaerber/documents/thesis.pdf][Learning proof search in proof assistants]]. ~ Michael Färber
#AutomatedTheoremProving #MachineLearning
+ [[https://github.com/passingcuriosity/talks/blob/master/homology][A computational sketch of homology]]. ~ Thomas Sutton
#FunctionalProgramming #Haskell #Math
+ [[https://arxiv.org/pdf/1808.07832][A simple methodology for computing families of algorithms]]. ~
D.N. Parikh et als. #Programming #CompSci
+ [[https://dspace.library.uu.nl/handle/1874/367810][Formalisation of cryptographic proofs in Agda]]. ~ A.M. Golov. #ITP #Agda
+ [[http://cl-informatik.uibk.ac.at/cek/coqhammer][CoqHammer: Automation for dependent type theory]]. ~ Ł. Czajka, C. Kaliszyk. #ITP #ATP #Coq
+ [[https://github.com/lukaszcz/coqhammer][CoqHammer: An automated reasoning hammer tool for Coq]]. ~ Łukasz Czajka
#ITP #ATP #Coq
+ [[https://arxiv.org/pdf/1711.10455][Backprop as functor: A compositional perspective on supervised
learning]]. ~ B. Fong, D.I. Spivak, R. Tuyéras. #Haskell
#MachineLearning
+ [[https://arxiv.org/pdf/1808.08652][Unique solutions of contractions, CCS, and their HOL formalisation]]. ~
C. Tian, D. Sangiorgi. #ITP #HOL4
+ [[https://dspace.library.uu.nl/handle/1874/367801][Verified tail-recursive folds through dissection]]. ~ C. Tomé
Cortiñas. #FunctionalProgramming #ITP #Agda
+ [[http://qfpl.io/share/talks/laws/slides.pdf][Laws!]] ~ George Wilson #FunctionalProgramming #Haskell
+ [[https://mikecroucher.github.io/MLPM_talk/][Is your research software correct?]] ~ Mike Croucher #Programming
+ [[https://softwarefoundations.cis.upenn.edu/qc-current/index.html][Software foundations Volume 4: QuickChick: Property-based testing in Coq]].
~ L. Lampropoulos, B.C. Pierce. #ITP #Coq
+ [[https://arxiv.org/abs/1707.09616v3][Owl: A general-purpose numerical library in OCaml]]. ~ L. Wang.
#FunctionalProgramming #OCaml
+ [[https://arxiv.org/pdf/1808.09701][Comparison of two theorem provers: Isabelle/HOL and Coq]]. ~
A. Yushkovskiy, S. Tripakis. #ITP #IsabelleHOL #Coq
+ [[https://qfpl.io/share/talks/appetite-for-dysfunction][Appetite for dysfunction]]. ~ Andrew McMiddlin
#FunctionalProgramming #Haskell #WordPress
+ [[https://github.com/caisah/emacs.dz][Awesome emacs config files]]. #Emacs
+ [[https://blog.computationalcomplexity.org/2018/08/what-is-data-science.html][What is Data Science?]] ~ Lance Fortnow #DataScience
+ [[https://simons.berkeley.edu/workshops/schedule/6680][Foundations of Data Science Boot Camp]]. #DataScience
+ [[https://link.springer.com/content/pdf/10.1007%2Fs10817-017-9440-6.pdf][The role of the Mizar Mathematical Library for interactive proof
development in Mizar]]. ~ G. Bancerek et als. #ITP #Mizar #Math
+ [[http://www.cs.nmsu.edu/~epontell/ALP/uploads/alp_Amelia_Harrison.pdf][Proving program correctness using the AG semantics: An example with
n-queens]]. ~ A. Harrison-18. #LogicProgramming #ASP
+ [[https://works.bepress.com/yuliya_lierler/80/download/][SMT-based constraint answer set solver EZSMT+ for non-tight
programs]]. ~ D. Shen, Y. Lierler #LogicProgramming
#ConstraintProgramming #ASP #SMT
+ [[https://www.techrepublic.com/article/is-julia-the-next-big-programming-language-mit-thinks-so-as-version-1-0-lands/][Is Julia the next big programming language? MIT thinks so, as version
1.0 lands]]. #Programming #Julia
+ [[https://github.com/mandubian/neurocat][From neural networks to the Category of composable supervised learning
algorithms in Scala]]. ~ P. Voitot #NeuralNetworks #CategoryTheory #Scala
** Septiembre 2018
+ [[https://alvinalexander.com/downloads/HelloScala-FreePreview.pdf][Hello, Scala (Learn Scala fast with small, easy lessons)]]. ~
A. Alexander. #eBook #FunctionalProgramming #Scala
+ [[https://tarski.cs.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-julio-de-2018][GLC: Resumen de lecturas compartidas durante julio de 2018]].
#FunctionalProgramming #ITP
+ [[https://tarski.cs.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-agosto-de-2018/][GLC: Resumen de lecturas compartidas durante agosto de 2018]].
#FunctionalProgramming #ITP
+ [[https://www.geekwire.com/2018/top-schools-ai-new-study-ranks-leading-u-s-artificial-intelligence-grad-programs/][Top schools for AI: New study ranks the leading U.S. artificial
intelligence grad programs]]. #AI
+ [[https://arxiv.org/pdf/1808.08329][When you should use lists in Haskell (mostly, you should not)]]. ~
J. Waldmann. #FunctionalProgramming #Haskell
+ [[http://www.imn.htwk-leipzig.de/~waldmann/talk/17/wflp/main.pdf][How I teach functional programming]]. ~ J. Waldmann. #FunctionalProgramming
#Haskell
+ [[https://www.imn.htwk-leipzig.de/~waldmann/etc/untutorial/data/][How do we store data, then?]] ~ J. Waldmann. #FunctionalProgramming
#Haskell
+ [[https://www.imn.htwk-leipzig.de/~waldmann/etc/untutorial/lens/][Introduction to the Lens Library]]. ~ J. Waldmann. #FunctionalProgramming
#Haskell
+ [[https://arxiv.org/pdf/1808.10690][On the formalization of higher inductive types and synthetic homotopy
theory]]. ~ F. van_Doorn. #ITP #Lean #HoTT
+ [[https://owickstrom.github.io/declarative-gtk-programming-in-haskell][Declarative GTK+ programming with Haskell]]. ~ O. Wickström
#FunctionalProgramming #Haskell
+ [[https://github.com/owickstrom/gi-gtk-declarative][Declarative GTK+ programming in Haskell]]. ~ O. Wickström
#FunctionalProgramming #Haskell
+ [[http://www.scipy-lectures.org][Scipy Lecture Notes (One document to learn numerics, science, and data
with Python)]]. #Programming #Python
+ [[https://haskell-containers.readthedocs.io/en/latest/index.html][Introduction and overview of the main features of the containers
package]]. #FunctionalProgramming #Haskell
+ [[http://www.unirioja.es/cu/jodivaso/publications/2018/AISC_2018.pdf][REGULAR-MT: A formal proof of the computation of Hermite normal form
in a general setting]]. ~ J. Divasón, J. Aransay. #ITP #IsabelleHOL
#Math #Vestigium
+ [[https://karl-voit.at/2017/09/23/orgmode-as-markup-only/][Org-Mode is one of the most reasonable markup languages to use for
text]]. ~ Karl Voit. #Emacs #OrgMode
+ [[https://ambrevar.xyz/blog-architecture][A blog in pure Org/Lisp (A pamphlet for hackable website systems)]]. ~
Pierre Neidhardt #Emacs #OrgMode
+ [[https://mmhaskell.com/blog/2018/8/20/making-the-jump-ii-using-more-monads][Making the jump II: Using more monads]]. ~ James Bowen
#FunctionalProgramming #Haskell
+ [[http://kenta.blogspot.com/2018/09/fanlevif-cbc-encryption-and-decryption.html][The CBC (Cipher Block Chaining) encryption and decryption]]. ~ Ken T
Takusagawa #FunctionalProgramming #Haskell
+ [[http://fun.cs.tufts.edu/stream-fusion.pdf][Stream fusion (from lists to streams to nothing at all)]]. ~ D. Coutts,
R. Leshchinskiy, D. Stewart. #FunctionalProgramming #Haskell
+ [[https://www.isa-afp.org/entries/Budan_Fourier.html][The Budan-Fourier theorem and counting real roots with multiplicity in
Isabelle/HOL]]. ~ W. Li. #ITP #IsabelleHOL #Math
+ [[https://jaspervdj.be/posts/2018-09-04-binomial-heaps-101.html][Dependent types in Haskell: Binomial heaps 101]]. ~ Jasper Van der Jeugt
#FunctionalProgramming #Haskell
+ [[https://chrispenner.ca/posts/update-monad][Update monads: Variation on state monads]]. ~ Chris Penner
#FunctionalProgramming #Haskell
+ [[http://www.well-typed.com/blog/2018/09/compositional-zooming/][Compositional zooming for StateT and ReaderT using lens]]. ~ Edsko de
Vries. #FunctionalProgramming #Haskell
+ [[http://h2.jaguarpaw.co.uk/posts/demystifying-dlist/][Demystifying DList]]. #FunctionalProgramming #Haskell
+ [[https://arxiv.org/abs/1809.00508][A logic-algebraic tool for reasoning with Knowledge-Based Systems]]. ~
J.A. Alonso, G.A. Aranda, J. Borrego, M.M. Fernández, M.J. Hidalgo
#Logic #Math #CompSci
+ [[https://enablingmaths.files.wordpress.com/2017/12/bundy_enabling_mathematical_cultures_v3.pdf][Automated reasoning in the age of the Internet]]. ~ A. Bundy. #ATP
+ [[https://www.glc.us.es/~jalonso/vestigium/resena-a-formal-proof-of-the-computation-of-hermite-normal-form-in-a-general-setting/][Vestigium: A formal proof of the computation of Hermite normal form in
a general setting]] by J. Divasón and J. Aransay. #ITP #IsabelleHOL
#Math
+ [[http://matt.might.net/articles/books-papers-materials-for-graduate-students/][Reading for graduate students]]. Matt Might #CompSci
+ [[http://blog.jpolak.org/?p=2028][My top nine favourite math texts]]. ~ Jason Polak #Math
+ [[https://plato.stanford.edu/entries/logic-intuitionistic/][Intuitionistic logic]]. ~ Joan Moschovakis #Logic
+ [[https://hal.inria.fr/hal-01866271/file/main.pdf][Formal verification of a geometry algorithm: A quest for abstract
views and symmetry in Coq proofs]]. ~ Y. Bertot. #ITP #Coq #Math #Vestigium
+ [[https://arxiv.org/pdf/1809.00738][Categories of optics]]. ~ M. Riley. #CategoryTheory #Haskell
+ [[https://github.com/minad/paripari][Fast parser combinator library for Haskell with two strategies (Fast
acceptor and slower reporter with decent error messages)]]. ~
D. Mendler. #FunctionalProgramming #Haskell
+ [[http://blog.jpolak.org/?p=1927][A very quick tour of R]]. ~ Jason Polak #Rstats
+ [[http://blog.jpolak.org/?p=2027][On reasonably sure proofs]]. ~ Jason Polak #Math
+ [[https://arxiv.org/pdf/math/9301202][Theorems for a price: Tomorrow's semi-rigorous mathematical culture]]. ~
D. Zeilberger #Math
+ [[https://arxiv.org/pdf/1808.01520.pdf][Branching processes for QuickCheck generators]]. ~ A. Mista, A. Russo,
J. Hughes. #Haskell
+ [[https://www.glc.us.es/~jalonso/vestigium/resena-comparison-of-two-theorem-provers-isabelle-hol-and-coq/][Vestigium: Comparison of two theorem provers: Isabelle/HOL and Coq]].
#ITP #IsabelleHOL #Coq
+ [[https://argumatronic.com/posts/2018-09-02-effective-metaphor.html][The unreasonable effectiveness of metaphor]]. ~ Julie Moronuki
#Math #Haskell #Linguistics
+ [[https://surface.syr.edu/cgi/viewcontent.cgi%3Farticle%3D1181%26context%3Deecs_techreports][A formally verified heap allocator]]. ~ A. Sahebolamri, S.J. Chapin,
S.D. Constable #ITP #IsabelleHOL
+ [[https://uwspace.uwaterloo.ca/bitstream/handle/10012/13697/Arteca_Ellen.pdf][Formal semantics and mechanized soundness proof for fast gradually
typed JavaScript]]. ~ E. Arteca. #ITP #Coq #JavaScript
+ [[http://ojs.bibsys.no/index.php/NIK/article/view/512/436][The pocket reasoner (automatic reasoning on small devices)]]. ~ J. Otten
#ATP #Prolog
+ [[https://arxiv.org/pdf/1806.03476.pdf][Type variables in patterns]]. ~ Richard A. Eisenberg, Joachim Breitner,
Simon Peyton Jones. #Haskell
+ [[http://blog.jpolak.org/?p=1523][12 tips for reading math books]]. ~ Jason Polak #Math
+ [[https://www.gaussianos.com/el-yin-yang-y-el-numero-aureo][El yin-yang y el número áureo]]. ~ M.A. Morales. #Matemáticas
+ [[https://plato.stanford.edu/entries/logical-truth/][Logical truth]]. ~ M. Gómez #Logic
+ [[https://plato.stanford.edu/entries/technology/][Philosophy of technology]]. ~ M. Franssen et als. #Logic
+ [[https://web.math.unifi.it/~maggesi/papers/2017-quaternions/gabrielli-maggesi-quaternions-itp-2017.pdf][Formalizing basic quaternionic analysis]]. ~ A. Gabrielli, M. Maggesi
#ITP #HOL_Light #Math
+ [[https://www.isa-afp.org/entries/Quaternions.html][Quaternions in Isabelle/HOL]]. ~ L.C. Paulson. #ITP #IsabelleHOL #Math
+ [[https://www.era.lib.ed.ac.uk/bitstream/handle/1842/17863/Papapanagiotou2014.pdf][A formal verification approach to process modelling and composition]]. ~
P. Papapanagiotou. #PhD_Thesis #ITP #HOL_Light
+ [[https://arxiv.org/pdf/1808.05490][Correct-by-construction process composition using classical linear
logic inference]]. ~ P. Papapanagiotou, J. Fleuriot. #ITP #HOL_Light
+ [[http://slides.com/shersh/picnic][Picnic: put containers into a backpack]]. ~ D. Kovanikov. #FunctionalProgramming
#Haskell
+ [[https://money.cnn.com/2018/09/07/technology/darpa-artificial-intelligence/index.html][The Pentagon is investing $2 billion into artificial intelligence]]. ~
Matt McFarland #AI
+ [[https://hotair.tech/blog/goodbye-vscode/][Goodbye VSCode, hello Emacs (again)]]. ~ Bryan Willson Berry
#Emacs #VSCode #JavaScript
+ [[https://youtu.be/44fb3tI2Cak][Grandes ideas de la Filosofía: Lógica]]. #Lógica
+ [[http://ceur-ws.org/Vol-2194/schmid.pdf][Inductive programming as approach to comprehensible machine learning]]. ~ Ute Schmid #ILP #MachineLearnig
+ [[http://metatheorem.org/includes/pubs/GraMSec18.pdf][On linear logic, functional programming, and attack trees]]. ~ Harley
Eades III, Jiaming Jiang, and Aubrey Bryant #Haskell
+ [[https://github.com/MonoidalAttackTrees/ATLL-Formalization][The formalization of the semantics of the attack tree linear logic]]. ~
Harley D. Eades III #Agda
+ [[http://iltp.de/ARQNL-2018/download/ARQNL2018_CEUR_Proceedings.pdf][Automated reasoning in quantified non-classical logics]]. #AutomatedReasoning
+ [[http://ceur-ws.org/Vol-2095/invited1.pdf ][Implementations of natural logics]]. ~ Lawrence S. Moss #Logic #Sage
+ [[http://ceur-ws.org/Vol-2095/invited2.pdf][Some thoughts about FOL-translations in Vampire]]. ~ Giles Reger
#AutomatedTheoremProving #Vampire
+ [[https://hexagoxel.de/postsforpublish/posts/2018-09-09-cont-part-one.html][Forking and ContT]]. ~ Lennart Spitzner #FunctionalProgramming #Haskell
+ [[http://davidchristiansen.dk/tutorials/nbe/][Checking dependent types with normalization by evaluation: a
tutorial]]. ~ David Thrane Christiansen #FunctionalProgramming #Racket
+ [[https://www.theverge.com/platform/amp/2018/9/5/17822562/google-dataset-search-service-scholar-scientific-journal-open-data-access][Google launches new search engine to help scientists find the datasets
they need]]. ~ James Vincent #DataScience
+ [[http://willcrichton.net/notes/systems-programming/][What is systems programming, really?]] ~ Will Crichton
#Programming
+ [[https://www.glc.us.es/~jalonso/vestigium/hammer-for-coq-automation-for-dependent-type-theory/][Vestigium: Hammer for Coq (automation for dependent type theory)]]. #ITP #Coq
+ [[https://arxiv.org/pdf/1809.02193][Logical rule induction and theory learning using neural theorem proving]].
~ A. Campero et als. #MachineLearnig #AutomatedTheoremProving
+ [[https://mmhaskell.com/blog/2018/8/27/common-but-not-so-common-monads][Common (but not so common) monads]]. ~ James Bowen
#FunctionalProgramming #Haskell
+ [[https://bitbucket.org/robertmassaioli/range][range: An efficient and versatile range library]]. ~ Robert Massaioli
#FunctionalProgramming #Haskell
+ [[http://cl-informatik.uibk.ac.at/teaching/ss18/satsmt/content.php][Course: SAT/SMT solving]]. ~ S. Winkler #Logic #ATP #SAT #SMT
+ [[http://cl-informatik.uibk.ac.at/users/mfaerber/documents/thesis.pdf][Learning proof search in proof assistants]]. ~ M. Färber #PhD_Thesis
#ITP #ATP #MachineLearning
+ [[http://cl-informatik.uibk.ac.at/workspace/publications/JN_phdthesis_17.pdf][Mechanizing confluence: Automated and certified analysis of first- and
higher-order rewrite systems]]. ~ J. Nagele #PhD_Thesis #ITP
#IsabelleHOL
+ [[https://upcommons.upc.edu/bitstream/handle/2117/120914/134218.pdf][Automatic inductive equational reasoning]]. ~ J. Mas Rovira #Haskell
#Logic #ATP
+ [[http://cl-informatik.uibk.ac.at/cek/docs/18/jpck-itp18.pdf][Towards formal foundations for game theory]]. ~ J. Parsert and
C. Kaliszyk. #ITP #IsabelleHOL #Math
+ [[https://cah6.github.io/technology/nix-haskell-1/][Exploring Nix & Haskell (Part 1: project setup)]]. ~ Christian Henry
#FunctionalProgramming #Haskell #Nix
+ [[http://ceur-ws.org/Vol-2199/paper3.pdf][Towards Coq formalisation of {log} set constraints resolution]]. ~
C. Dubois and S. Weppe. #ITP #Coq
+ [[https://research.chalmers.se/publication/504640/file/504640_Fulltext.pdf][Automated theorem proving with extensions of first-order logic]]. ~
E. Kotelnikov #PhD_Thesis #ATP #Vampire #Logic
+ [[https://scholarsbank.uoregon.edu/xmlui/bitstream/handle/1794/23832/Sullivan_oregon_0171N_12267.pdf][The essence of codata and its implementations]]. ~ Z. Sullivan
#MsC_Thesis #Haskell
+ [[https://rodrigogribeiro.github.io/files/regexvm-paper.pdf][Towards certified virtual machine-based regular expression parsing]]. ~
T.A. Delfino and R. Ribeiro. #FunctionalProgramming
#Haskell #QuickCheck
+ [[https://github.com/rodrigogribeiro/regexvm][An operational semantics for greedy regular expression parsing]]. ~
R. Ribeiro. #FunctionalProgramming #Haskell
#QuickCheck #ITP #Coq
+ [[https://github.com/rodrigogribeiro/coqcourse/raw/master/slides/01_propositionsastypes.pdf][O isomorfismo de Curry-Howard (Ou sobre a similaridade entre provas e
programas)]]. ~ R. Ribeiro. #Logic #CompSci
+ [[https://github.com/rodrigogribeiro/coqcourse][Curso: Uma introdução ao
assistente de provas Coq]]. ~ R. Ribeiro. #ITP #Coq #Logic
+ [[https://rodrigogribeiro.github.io/talks/2014-04-01-agda-talk][Programação
com tipos dependentes em Agda]]. ~ R. Ribeiro. #FunctionalProgramming #Agda
+ [[https://github.com/rodrigogribeiro/agda-software-foundations][A translation of Pierce's Coq book "Software foundations" to Agda]]. ~
R. Ribeiro. #ITP #Agda
+ [[http://cl-informatik.uibk.ac.at/cek/docs/17/tgck-jsc17.pdf][Aligning concepts across proof assistant libraries]]. T. Gauthier and
C. Kaliszyk. #ITP #MachineLearning
+ [[http://rodrigogribeiro.github.io/files/unify.pdf][A mechanized textbook proof of a type unification algorithm]]. ~
R. Ribeiro and C. Camarão. #ITP #Coq
+ [[https://github.com/josephcmac/Folklore-and-miscellaneous-results-in-number-theory][Formal verification of folklore and miscellaneous results in number
theory]]. ~ José Manuel Rodríguez Caballero #ITP #IsabelleHOL #Math
+ [[https://cacm.acm.org/news/231002-darpa-announces-2-billion-in-funding-for-ai-next-campaign/fulltext][DARPA announces $2 billion in funding for 'AI next' campaign]]. #AI
+ [[https://kenta.blogspot.com/2018/09/rufudqzr-verifying-compositeness-of.html][Verifying the compositeness of the 20th Fermat number]]. ~ Ken T
Takusagawa. #Math #CompSci
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell/releases/download/v.9.8.1/Examenes_de_PF_con_Haskell.pdf][Libro de exámenes de programación funcional con Haskell (versión del
13 de septiembre de 2018)]]. #ProgramacionFuncional #Haskell #I1M2017
+ [[https://prateekvjoshi.com/2014/10/25/a-beginners-look-at-lambda-calculus/][A beginner’s look at lambda calculus]]. ~ Prateek Joshi
#LambdaCalculus
+ [[https://blog.wuct.me/fun-with-typed-type-level-programming-in-purescript-5f8af42cfec5][Fun with typed type-level programming in PureScript]]. ~ CT Wu
#FunctionalProgramming #PureScript
+ [[http://cl-informatik.uibk.ac.at/cek/docs/17/ckkp-macis17.pdf][Isabelle formalization of set theoretic structures and set comprehensions]].
~ C. Kaliszyk and K. Pąk. #ITP #IsabelleHOL #Math
+ [[https://github.com/zziz/pwc][Papers with code: list of research papers with links to the source
code, updated weekly]]. ~ Zaur Fataliyev. #MachineLearning
+ [[http://bibliotecadigital.ilce.edu.mx/Colecciones/ReinaCiencias/_docs/Introduccion_filosofia_ciencia.pdf][Una introducción a la filosofía de la ciencia]]. ~ R. Carnap #Filosofía
#Ciencia
+ [[http://bibliotecadigital.ilce.edu.mx/Colecciones/ReinaCiencias/_docs/rudolfcarnapylosfundamentos.pdf][Rudolf Carnap y los fundamentos de la lógica y las matemáticas]]. ~
A. Church. #Filosofía #Ciencia
+ [[http://www.thibaultgauthier.fr/tactictoe_jv.pdf][TacticToe: Learning to prove with tactics]]. ~ T. Gauthier et als. #ITP
#HOL4 #MachineLearning
+ [[https://medium.com/@cdsmithus/the-ups-and-downs-of-stem-standards-f72df0fb6daa][The ups and downs of STEM standards]]. ~ Chris Smith
#Teaching #CompSci
+ [[https://dr.library.brocku.ca/bitstream/handle/10464/13646/Thesis%20Paper%2020180904.pdf][Modal and relevance logics for qualitative spatial reasoning]]. ~ Pranab
Kumar Ghosh. #Msc_Thesis #ITP #Coq #Logic
+ [[http://marmsoler.com/docs/Interactive_Verification_ADP.pdf][A framework for interactive verification of architectural design
patterns in Isabelle/HOL]]. ~ D. Marmsoler. #ITP #IsabelleHOL
+ [[http://jssst.or.jp/files/user/taikai/2018/PPL/ppl2-2.pdf][Experimenting with monadic equational reasoning in Coq]]. ~ R. Affeldt
and D. Nowak. #ITP #Coq
+ [[http://jssst.or.jp/files/user/taikai/2018/PPL/ppl3-3.pdf][Proving tree algorithms for succinct data structures]]. ~ R. Affeldt,
J. Garrigue, X. Qi, Kazunari Tanaka. #ITP #Coq #Vestigium
+ [[http://www.haskellforall.com/2014/03/introductions-to-advanced-haskell-topics.html][Introductions
to advanced Haskell topics]]. ~ G. Gonzalez. #FunctionalProgramming #Haskell
+ [[http://blog.sigfpe.com/2006/08/you-could-have-invented-monads-and.html][You could have invented Monads! (and maybe you already have)]]. ~ Dan
Piponi #FunctionalProgramming #Haskell
+ [[https://page.mi.fu-berlin.de/scravy/realworldhaskell/materialien/monad-transformers-step-by-step.pdf][Monad transformers step by step]]. ~ Martin Grabmüller. #FunctionalProgramming
#Haskell
+ [[http://www.cs.nott.ac.uk/~pszgmh/pearl.pdf][Functional pearls: Monadic parsing in Haskell]]. ~ G. Hutton,
E. Meijer. #FunctionalProgramming #Haskell
+ [[http://www.haskellforall.com/2012/06/you-could-have-invented-free-monads.html][Why free monads matter]]. ~ G. Gonzalez. #FunctionalProgramming
#Haskell
+ [[https://web.cecs.pdx.edu/~mpj/pubs/springschool95.pdf][Functional programming with overloading and higher-order
polymorphism]]. M.P. Jones. #FunctionalProgramming #Haskell
+ [[https://www.glc.us.es/~jalonso/vestigium/concrete-semantics-with-coq-and-coqhammer][Vestigium: "Concrete semantics" with Coq and CoqHammer]]. #ITP #Coq
#IsabelleHOL
+ [[https://www.isa-afp.org/entries/Octonions.html][Octonions in Isabelle/HOL]]. ~ Angeliki Koutsoukou-Argyraki. #ITP
#IsabelleHOL #Math
+ [[https://twanvl.nl/blog/haskell/cps-functional-references][CPS based functional references]]. ~ Twan van Laarhoven
#FunctionalProgramming #Haskell
+ [[http://matt.might.net/articles/compiling-up-to-lambda-calculus/][Compiling
to lambda-calculus: Turtles all the way down]]. ~ Matt
Might. #FunctionalProgramming #LambdaCalculus
+ [[https://www.gaussianos.com/extensa-coleccion-de-libros-de-matematicas/][Extensa
colección de libros de matemáticas]]. ~ M.A. Morales. #Matemáticas
+ [[http://www.e-booksdirectory.com/mathematics.php][Free mathematics books]]. #eBooks #Math
+ [[https://www.gaussianos.com/diez-formas-de-pensar-como-un-matematico/][Diez
formas de pensar como un matemático]]. ~ M.A. Morales. #Matemáticas
+ [[https://www.glc.us.es/~jalonso/vestigium/resena-formal-verification-of-a-geometry-algorithm-a-quest-for-abstract-views-and-symmetry-in-coq-proofs][Vestigium: Formal verification of a geometry algorithm (A quest for
abstract views and symmetry in Coq proofs)]]. #ITP #Coq #Math
+ [[https://www.isa-afp.org/entries/Aggregation_Algebras.html][Aggregation algebras in Isabelle/HOL]]. ~ Walter Guttmann. #ITP
#IsabelleHOL #Math
+ [[https://medium.com/@cdsmithus/codeworld-update-september-17-2018-5db971ca03df][CodeWorld update — September 17, 2018]]. ~ Chris Smith
#FunctionalProgramming #haskell #CodeWorld
+ [[https://www.mattkeeter.com/projects/constraints][Numeric constraint solving
in Haskell]]. ~ Matt Keeter. #FunctionalProgramming #Haskell
+ [[https://www-sop.inria.fr/members/Yves.Bertot/videos-coq/index.html][Cours vidéo de Coq]]. ~ Y. Bertot. #ITP #Coq
+ [[https://www.glc.us.es/~jalonso/vestigium/resena-proving-tree-algorithms-for-succinct-data-structures][#Vestigium: Proving tree algorithms for succinct data structures]]. #ITP
#Coq
+ [[https://github.com/jaycech3n/Isabelle-HoTT][Isabelle/HoTT: An experimental implementation of HoTT in the
interactive theorem prover Isabelle]]. ~ Josh Chen. #ITP
#Isabelle #IsabelleHoTT
+ [[https://staff.aist.go.jp/reynald.affeldt/documents/coqws-reals.pdf][Classical analysis with Coq]]. ~ R. Affeldt, C. Cohen, A. Mahboubi,
D. Rouhling, P.Y. Strub. #ITP #Coq #Math
+ [[https://perso.crans.org/cohen/CoqWS2018.pdf][Classical analysis with Coq (Slides)]]. ~ R. Affeldt, C. Cohen,
A. Mahboubi, D. Rouhling, P.Y. Strub. #ITP #Coq #Math
+ [[https://coqworkshop2018.inria.fr/files/2018/08/180708-coq-workshop.pdf][Verifying distributed systems (slides)]]. ~ Zachary Tatlock. #ITP #Coq
+ [[https://homes.cs.washington.edu/~ztatlock/pubs/diesel-sergey-popl18.pdf][Programming and proving with distributed protocols]]. ~ I. Sergey, J.R. Wilcox, Z. Tatlock. #ITP #Coq
+ [[https://coqworkshop2018.inria.fr/files/2018/07/main-34.pdf][A Coq mechanised formal semantics for real life SQL queries: Formally
reconciling SQL and (extended) relational algebra (slides)]]. ~
Véronique Benzaken and Évelyne Contejean. #ITP #Coq
+ [[https://hal.archives-ouvertes.fr/hal-01830255/document][A Coq mechanised formal semantics for realistic SQL queries: Formally
reconciling SQL and bag relational algebra]]. ~ V. Benzaken,
É. Contejean #ITP #Coq
+ [[https://homes.cs.washington.edu/~ztatlock/pubs/reincarnate-nandi-icfp18.pdf][Functional programming for compiling and decompiling computer-aided
design]]. ~ C. Nandi, J.R. Wilcox, P. Panchekha, T. Blau, D. Grossman,
Z. Tatlock. #FunctionalProgramming #OCaml
+ [[http://gallium.inria.fr/~agueneau/publis/gueneau-chargueraud-pottier-coq-bigO.pdf][A fistful of dollars: Formalizing asymptotic complexity claims via
deductive program verification]]. ~ A. Guéneau, A. Charguéraud,
F. Pottier. #ITP #Coq
+ [[https://coqworkshop2018.inria.fr/files/2018/07/slides-3.pdf][Procrastination: A proof engineering technique (slides)]]. ~
A. Guéneau. #ITP #Coq
+ [[https://www.cs.nmsu.edu/wp/wp-content/uploads/2014/10/TR-CS-NMSU-2014-10-24.pdf][Exploring life through logic programming: Logic programming in
bioinformatics]]. ~ A. Dal Palù, A. Dovier, A. Formisano,
E. Pontelli. #LogicProgramming #ASP #Bioinformatics
+ [[http://thomaspietrzak.com/download.php?f=CoursCOQ.pdf][Introduction to Coq (slides)]]. ~ T. Pietrzak. #ITP #Coq #Logic
+ [[https://github.com/affeldt/coq-lille2016/raw/master/logique-cours.pdf][Le raisonnement logique dans l’assistant de preuve Coq]]. ~ R. Affeldt
#ITP #Coq #Logic
+ [[https://coqworkshop2018.inria.fr/files/2018/07/coq2018_talk_boulme.pdf][What is the foreign function interface of the Coq programming
language? (slides)]]. ~ S. Boulmé. #ITP #Coq
+ [[https://coqworkshop2018.inria.fr/files/2018/07/yalla_web.pdf][Preliminary report on the Yalla library: Yet Another deep embedding of
linear logic in Coq (slides)]]. ~ O. Laurent. #ITP #Coq #Logic
+ [[https://coqworkshop2018.inria.fr/files/2018/07/main-35.pdf][ComplCoq: Rewrite Hint construction with completion procedures
(slides)]]. ~ M. Ikebuchi, K. Nakano. #ITP #Coq
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_862.pdf][ComplCoq: Rewrite Hint construction with completion procedures]]. ~
M. Ikebuchi, K. Nakano. #ITP #Coq
+ [[https://coqworkshop2018.inria.fr/files/2018/07/slides-4.pdf][From guarded to well-founded: Formalizing Coq’s guard condition
(slides)]]. ~ C. Mangin, M. Sozeau. #ITP #Coq
+ [[https://arxiv.org/pdf/1809.05923][What is applied category theory?]] ~ Tai-Danae Bradley. #CategoryTheory
+ [[https://code.fb.com/security/fighting-spam-with-haskell/][Fighting spam with Haskell]]. ~ Simon Marlow
#FunctionalProgramming #Haskell
+ [[https://thibaultmarin.github.io/blog/posts/2016-11-13-Personal_website_in_org.html][Personal website in org]]. ~ Thibault Marin. #Emacs #OrgMode
+ [[https://theoremprover-museum.github.io][The Theorem Prover Museum]]. #ATP #ITP #AutomatedReasoning
+ [[https://www.isa-afp.org/entries/Signature_Groebner.html][Signature-based Gröbner basis algorithms]]. ~ A. Maletzky. #ITP
#IsabelleHOL #Math
+ [[https://www.math.nagoya-u.ac.jp/~garrigue/papers/JIP-26_54.pdf][Safe low-level code generation in Coq using monomorphization and
monadification]]. ~ A. Tanaka, R. Affeldt, and J. Garrigue. #ITP #Coq
+ [[https://hub.packtpub.com/what-makes-functional-programming-a-viable-choice-for-artificial-intelligence-projects][What makes functional programming a viable choice for artificial
intelligence projects?]] ~ Prasad Ramesh. #FunctionalProgramming #AI
+ [[http://philsci-archive.pitt.edu/15034/1/Univalent_Foundations_and_the_UniMath_library.pdf][Univalent foundations and the UniMath library (The architecture of mathematics)]]. ~ A. Bordg. #Logic
#Math #HoTT #ITP #Coq
+ [[https://twanvl.nl/blog/haskell/simple-reflection-of-expressions][Simple reflection of expressions]]. ~ Twan van Laarhoven
#FunctionalProgramming #Haskell
+ [[https://www.isa-afp.org/entries/Prime_Number_Theorem.html][The prime number theorem]]. ~ M. Eberl and L.C. Paulson. #ITP
#IsabelleHOL #Math
+ [[https://doisinkidney.com/posts/2018-09-20-agda-tips.html][Agda tips]]. ~ Donnacha Oisín Kidney #ITP #Agda
+ [[https://dl.acm.org/citation.cfm?id=3242754][The Thoralf plugin: for your fancy type needs]]. ~ D. Otwani,
R.A. Eisenberg. #FunctionalProgramming #Haskell #ATP #SMT #Z3
+ [[https://github.com/Divesh-Otwani/the-thoralf-plugin][the-thoralf-plugin: a type-checker plugin to rule all type checker
plugins involving type-equality reasoning using SMT solvers]]. ~ Divesh
Otwani. #FunctionalProgramming #Haskell #ATP #SMT #Z3
+ [[https://sras.me/haskell/what-the-heck-is-typeable.html][What the heck is Typeable!?]]. ~ Sandeep.C.R #FunctionalProgramming
#Haskell
+ [[https://github.com/snowleopard/alga][Alga: a library for algebraic construction and manipulation of graphs
in Haskell]]. ~ Andrey Mokhov. #Haskell
+ [[https://mmhaskell.com/blog/2018/9/17/simple-web-routing-with-spock][Simple Web Routing with Spock!]]. ~ James Bowen
#FunctionalProgramming #Haskell
+ [[https://www.westpoint.edu/eecs/SiteAssets/SitePages/Faculty%20Publication%20Documents/Okasaki/jfp98sixth.pdf][Functional pearls: Even higher-order functions for parsing or why
would anyone ever want to use a sixth-order function?]]. ~ Chris
Okasaki. #FunctionalProgramming #SML
+ [[https://bitbucket.org/josh-hs-ko/MetamorphismsInAgda/raw/master/MetamorphismsInAgda.pdf][Programming metamorphic algorithms in Agda (Functional pearl)]]. ~
Hsiang-Shang Ko. #FunctionalProgramming #ITP #Agda
+ [[https://dl.acm.org/citation.cfm?id=3242745][Generic programming of all kinds]]. ~ A. Serrano, V.C. Miraldo.
#FunctionalProgramming #Haskell
+ [[http://www.staff.science.uu.nl/~swier004/publications/2018-tyde.pdf][From algebra to abstract machine: a verified generic construction]]. ~
C. Tomé Cortiñas, W. Swierstra. #FunctionalProgramming #ITP #Agda
+ [[https://dl.acm.org/citation.cfm?id=3242746][Deriving via (or, how to turn hand-written instances into an
anti-pattern)]]. ~ B. Blöndal, A. Löh, R. Scott. #FunctionalProgramming
#Haskell
+ [[https://dl.acm.org/citation.cfm?id=3241656][Garnishing Parsec with Parsley]]. ~ J. Willis, N. Wu. #FunctionalProgramming
#Scala
+ [[https://xenaproject.wordpress.com/2018/09/22/formalising-mathematics-a-mathematicians-personal-viewpoint][Formalising mathematics: a mathematician’s personal viewpoint]]. ~ Kevin
Buzzard #ITP #Lean #Math
+ [[https://dl.acm.org/citation.cfm?id=3264739][HELIX: a case study of a formal verification of high performance
program generation]]. ~ V. Zaliva, F. Franchetti. #ITP #Coq
+ [[https://arxiv.org/pdf/1809.08062][Machine-assisted proofs (ICM 2018 Panel)]]. ~ J. Davenport et als. #ITP
#Math
+ [[https://dl.acm.org/citation.cfm?id=3242752][Coherent explicit dictionary application for Haskell]]. ~ T. Winant,
D. Devriese. #FunctionalProgramming #Haskell
+ [[https://www.maa.org/sites/default/files/images/images/upload_library/22/Ford/Guy697-712.pdf][The strong law of small numbers]]. ~ R.K. Guy. #Math
+ [[http://shmish111.github.io/2018/09/23/freer-than-free/][Freer than free]]. ~ David Smith. #FunctionalProgramming #Haskell
+ [[https://github.com/typeclasses/assoc-list][assoc-list: An association list
conceptually signifies a mapping, but is represented as a list (of key-value
pairs)]]. ~ Chris Martin. #FunctionalProgramming #Haskell
+ [[https://tel.archives-ouvertes.fr/tel-01874620/document][Certified algorithms for program slicing]]. J.C. Léchenet. #PhD_Thesis
#ITP #Coq #Why3
+ [[https://arxiv.org/pdf/1809.08304][onlineSPARC: a programming environment for Answer Set Programming]]. ~
E. Marcopoulos, Y. Zhang. #LogicProgramming #ASP
+ [[https://plato.stanford.edu/entries/turing-machine]["Turing machines", The Stanford Encyclopedia of Philosophy]]. ~ Liesbeth
De Mol. #CompSci
+ [[https://rmonat.fr/data/pubs/2018/fmcad18.pdf][A verified certificate checker for finite-precision error bounds in
Coq and HOL4]]. ~ H. Becker et als. #ITP #Coq #HOL4
+ [[https://kowainik.github.io/posts/2018-09-25-co-log][co-log: Composable contravariant combinatorial comonadic configurable
convenient logging]]. ~ Dmitrii Kovanikov #FunctionalProgramming
#Haskell
+ [[https://arxiv.org/pdf/1809.09550][A revised and verified proof of the Scalable Commutativity Rule]]. ~ L. Tsai,
E. Kohler, M.F. Kaashoek, N. Zeldovich. #ITP #Coq
+ [[http://staffwww.dcs.shef.ac.uk/people/G.Struth/mgs2015/ISA.html][Course: Building verification tools with Isabelle]]. ~ Georg Struth. #ITP
#IsabelleHOL
+ [[https://www.isa-afp.org/entries/Symmetric_Polynomials.html][Symmetric polynomials in Isabelle/HOL]]. ~ Manuel Eberl. #ITP
#IsabelleHOL #Math
+ [[https://jjoekoullas.github.io/posts/2018-09-22-type-tetris-toolbox.html][The Type Tetris Toolbox]]. ~ J.J. Koullas #FunctionalProgramming
#Haskell
+ [[https://rjlipton.wordpress.com/2018/09/26/reading-into-atiyahs-proof/][Reading into Atiyah’s proof]]. ~ R.J. Lipton, K.W. Regan. #Math
+ [[https://skemman.is/bitstream/1946/28736/1/msc-bjarki-2017-skemman.pdf][Formalizing the translation method in Agda]]. ~ Bjarki Ágúst Guðmundsson. #ITP
#Agda
+ [[https://github.com/SuprDewd/agda-translation-method][Translate: An Agda library for turning equations into bijections using the
translation method]]. ~ Bjarki Ágúst Guðmundsson. #ITP #Agda
+ [[https://wiki.algo.is][AlgoWiki: a wiki dedicated to competitive programming]]. ~ Bjarki Ágúst
Guðmundsson. #Programming #Algorithms
+ [[http://dev.stephendiehl.com/rewrite.pdf][Rewrite combinators]]. ~ Stephen Diehl. #FunctionalProgramming
#Haskell
+ [[https://github.com/cohomolo-gy/haskell-resources][A list of foundational Haskell papers]]. ~ Emily Pillmore
#FunctionalProgramming #Haskell
+ [[https://engineering.itpro.tv/2018/09/28/haskell-in-production-a-ghc-upgrade-success-story/][Haskell
in production: A GHC upgrade success story]]. ~ Trevis
Elser. #FunctionalProgramming #Haskell
+ [[https://owickstrom.github.io/komposition/][Komposition: The video editor built for screencasters]]. ~ Oskar
Wickström. #Haskell
+ [[https://github.com/SuprDewd/T-414-AFLV][T-414-ÁFLV: A competitive programming course]]. ~ Bjarki Ágúst
Guðmundsson. #Programming #Algorithms
+ [[https://aperiodical.com/2018/09/atiyah-riemann-hypothesis-proof-final-thoughts/][Atiyah Riemann Hypothesis proof: final thoughts]]. ~ K. Steckles,
C. Lawson-Perfect. #Math
+ [[http://orbit.dtu.dk/files/153818480/paper_9.pdf][Formalization of first-order syntactic unification]]. ~ K.F. Brandt,
A. Schlichtkrull, J. Villadsen. #ITP #IsabelleHOL
+ [[https://chrispenner.ca/posts/mock-effects-with-data-kinds][Mocking effects using constraints and phantom data kinds]]. ~ Chris
Penner. #FunctionalProgramming #Haskell
+ [[http://blog.poisson.chat/posts/2018-09-29-overloaded-families.html][Overloaded type families]]. ~ Xia Li-yao #FunctionalProgramming #Haskell
+ [[http://www.cs.us.es/~fsancho/?e=207][Metaheurísticas de búsquedas y optimización (Parte 1)]]. ~
F. Sancho. #Algoritmos #IA
+ [[http://www.cs.us.es/~fsancho/?e=208][Metaheurísticas de búsquedas y optimización (Parte 2)]]. ~
F. Sancho. #Algoritmos #IA
+ [[https://ts.data61.csiro.au/publications/csiro_full_text//Klein_AKMHF_toappear.pdf][Formally verified software in the real world]]. ~ G. Klein et
als. #FormalVerification #ITP #IsabelleHOL
+ [[https://enlightened-digital.com/90-years-of-ai-in-the-movies-whats-changed-and-what-hasnt/][90 Years of AI in the movies: what’s changed (and what hasn’t)]]. #AI
+ [[https://enlightened-digital.com/ai-goes-to-the-movies-a-history-of-artificial-intelligence-in-film/][AI goes to the movies: A history of Artificial Intelligence in film]]. #AI
+ [[https://towardsdatascience.com/essential-math-for-data-science-why-and-how-e88271367fbd][Essential Math for Data Science: 'Why' and 'How']]. ~ Tirthajyoti Sarkar
#DataScience
** Octubre 2018
+ [[https://dl.acm.org/citation.cfm?id=3241787][From algebra to abstract machine: a verified generic construction]]. ~
C. Tomé Cortiñas, W. Swierstra. #FunctionalProgramming #ITP #Agda
+ [[http://ctp.di.fct.unl.pt/~btoninho/depk_draft.pdf][Refinement kinds (A theory of type-safe meta-programming)]]. ~
L. Caires, B. Toninho. #FunctionalProgramming #Haskell
+ [[https://dl.acm.org/citation.cfm?id=3242766][Typing the wild in Erlang]]. ~ N. Valliappan,
J. Hughes. #FunctionalProgramming #Erlang
+ [[https://arxiv.org/abs/1809.10756][An introduction to probabilistic programming]]. ~ J.W. van de Meent,
B. Paige, H. Yang, F. Wood. #FunctionalProgramming #Lisp #Clojure
#FOPPL
+ [[https://gitlab.com/jgkamat/rmsbolt][RMSbolt: A supercharged implementation of the godbolt
compiler-explorer for Emacs]]. ~ Jay Kamat. #Programming
#Emacs
+ [[https://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-septiembre-de-2018/][Resumen de lecturas compartidas durante septiembre de 2018]].
+ [[https://www.isa-afp.org/entries/Pi_Transcendental.html][The transcendence of π in Isabelle/HOL]]. ~ M. Eberl. #ITP #isabelleHOL
#Math
+ [[http://orbit.dtu.dk/files/154035749/paper7.pdf][Proving in the Isabelle proof assistant that the set of real numbers
is not countable]]. ~ J. Villadsen. #ITP #isabelleHOL #Math
+ [[http://orbit.dtu.dk/files/154035393/paper6.pdf][Students' Proof Assistant (SPA)]]. ~ A. Schlichtkrull, J. Villadsen,
A.H. From. #ITP #IsabelleHOL #Logic
+ [[https://blog.jle.im/entry/introduction-to-singletons-3.html][Introduction to Singletons (Part 3)]]. ~ Justin Le. #Haskell
+ [[https://alasconnect.github.io/blog/posts/2018-10-02-introducing-haskell-to-a-company.html][Introducing Haskell to a company]]. ~ Brian Jones.
#FunctionalProgramming #Haskell
+ [[http://matryoshka.gforge.inria.fr/pubs/schlichtkrull_phd_thesis.pdf][Formalization of logic in the Isabelle proof assistant]]. ~
A. Schlichtkrull. #PhD_Thesis #ITP #IsabelleHOL #Logic
+ [[https://annals-csis.org/proceedings/2018/drp/pdf/88.pdf][Representation matters: An unexpected property of polynomial rings and
its consequences for formalizing abstract field theory]]. ~
C. Schwarzweller. #ITP #Mizar #Math
+ [[https://arxiv.org/pdf/1810.01109][AI benchmark: Running deep neural networks on Android smartphones]]. ~
A. Ignatov et als. #AI #DeepLearning
+ [[http://prl.korea.ac.kr/~pronto/home/papers/oopsla18-fixml.pdf][Automatic diagnosis and correction of logical errors for functional
programming assignments]]. ~ J. Lee et als. #FunctionalProgramming
#OCaml
+ [[https://repository.upenn.edu/edissertations/2879/][Random testing for language design]]. ~ L. Lampropoulos. #PhD_Thesis
#ITP #Coq #QuickChick
+ [[https://alasconnect.github.io/blog/posts/2018-10-04-productive-haskell-in-enterprise.html][Productive Haskell in enterprise]]. ~ Brian Jones. #FunctionalProgramming
#Haskell
+ [[https://blog.nyarlathotep.one/2018/09/rewrite-rules-and-a-specific-fold/][Rewrite rules and a specific fold: use optimization techniques from
GHC.Base]]. ~ Alexandre Moine. #FunctionalProgramming #Haskell
+ [[https://github.com/soupi/haskell-study-plan][Haskell study plan (an opinionated list of resources for learning
Haskell)]]. ~ Gil Mizrahi. #FunctionalProgramming #Haskell
+ [[https://arxiv.org/pdf/1810.00445][An application of ASP theories of intentions to understanding
restaurant scenarios: insights and narrative corpus]]. ~ Q. Zhang,
C. Benton, D. Inclezan. #LogicProgramming #ASP
+ [[https://arxiv.org/pdf/1810.00453][anthem: Transforming gringo programs into first-order theories
(preliminary report)]]. ~ V. Lifschitz, P. Lühne,
T. Schaub. #LogicProgramming #ASP #ATP
+ [[https://jiggerwit.wordpress.com/2018/09/18/a-review-of-the-lean-theorem-prover/][A review of the Lean theorem prover]]. ~ Thomas Hales. #ITP #LeanTheoremProver
+ [[https://madiot.fr/coq100/][Formalizing 100 theorems in Coq]]. #ITP #Coq #Math
+ [[https://www.tweag.io/posts/2018-10-04-capability.html][capability: the ReaderT pattern without boilerplate]]. ~ A. Herrmann,
A. Spiwack. #FunctionalProgramming #Haskell
+ [[https://github.com/erkmos/haskell-companies][A gently curated list of companies using Haskell in industry]].
~ Erik Mossberg #FunctionalProgramming #Haskell
+ [[https://www.fpcomplete.com/blog/2012/09/ten-things-you-should-know-about-haskell-syntax][Ten things you should know about Haskell syntax]]. ~ Bartosz Milewski
#FunctionalProgramming #Haskell
+ [[https://www.makeuseof.com/tag/python-programming-language-downsides/][4 reasons why Python isn’t the programming language for you]]. ~ Ian Buckley
#Programming #Python
+ [[https://xenaproject.wordpress.com/2018/10/07/what-is-the-xena-project/][What is the Xena Project?]] ~ Kevin Buzzard #ITP #LeanTheoremProver #Math
+ [[https://byorgey.wordpress.com/2018/10/06/counting-inversions-with-monoidal-sparks/][Counting inversions with monoidal sparks]]. ~ Brent Yorgey
#FunctionalProgramming #Haskell #Math
+ [[http://www.parsonsmatt.org/2018/10/02/small_types.html][Keep your types small ... and your bugs smaller]]. ~ Matt
Parsons. #FunctionalProgramming #Haskell
+ [[http://daniberg.com/2018/10/02/monads-for-fp-in-scala.html][Monads for functional programming in Scala]]. ~ Daniel Berg
#FunctionalProgramming #Scala
+ [[http://downloads.hindawi.com/journals/mpe/2018/4982974.pdf][A new algebraic approach to decision making in a railway interlocking
system based on preprocess]]. ~ A. Hernando, R. Maestre,
E. Roanes-Lozano. #Math #CompSci
+ [[https://mml-book.com][Companion webpage to the book "Mathematics for Machine Learning"]]. ~
Marc Peter Deisenroth, A Aldo Faisal, and Cheng Soon Ong. #eBook
#MachineLearning #Math
+ [[http://www.haskellforall.com/2018/10/detailed-walkthrough-for-beginner.html][Detailed walkthrough for a beginner Haskell program]]. ~
G. Gonzalez. #FunctionalProgramming #Haskell
+ [[https://lptk.github.io/programming/2018/10/04/comprehending-monoids-with-class.html][Comprehending Monoids with Class]]. ~ Lionel Parreaux
#FunctionalProgramming #Haskell
+ [[https://mmhaskell.com/blog/2018/10/8/deeper-stack-knowledge][Deeper Stack knowledge]]. ~ James Bowen. #FunctionalProgramming #Haskell
+ [[http://www.newthinktank.com/2015/08/learn-haskell-one-video/][Learn Haskell in one video]]. ~ Derek Banas.
#FunctionalProgramming #Haskell
+ [[http://www.philipzucker.com/division-of-polynomials-in-haskell][Division of polynomials in Haskell]]. ~ Philip Zucker.
#FunctionalProgramming #Haskell #Math
+ [[https://arxiv.org/abs/1810.02688][Wikistat 2.0: Educational resources for Artificial Intelligence]]. ~
P. Besse, B. Guillouet, B. Laurent #AI
+ [[https://github.com/wikistat/][Wikistat 2.0: Tutoriels (calepins jupyter) d'auto-apprentissage en
Science des Données & Intelligence artificielle]]. #DataScience #AI
+ [[http://scholar.rose-hulman.edu/cgi/viewcontent.cgi?article=1217&context=rhumj][Fractals and the Weierstrass-Mandelbrot function]]. ~ A. Zaleski #Math
+ [[http://www.ijpe-online.com/attachments/article/1515/02-IJPE-09-02.pdf][Formal verification of helicopter automatic landing control algorithm
in theorem prover Coq]]. ~ X. Chen, G. Chen. #ITP #Coq
+ [[https://www.mpg.is/papers/gissurarson2018suggesting-msc.pdf][Suggesting valid hole fits for typed-holes in Haskell]]. ~ Matthías Páll
Gissurarson. #Msc_Thesis #FunctionalProgramming #Haskell
+ [[https://arxiv.org/pdf/1810.02142][Propositional logic with short-circuit evaluation: a non-commutative
and a commutative variant]]. ~ J.A. Bergstra, A. Ponse,
D.J.C. Staudt. #Logic #ATP #Prover9
+ [[https://whatthefunctional.wordpress.com/2018/10/10/making-a-haskell-interface-for-the-rosie-pattern-language/][Making a Haskell interface for the Rosie Pattern Language]]. ~ Laurence
Emms. #FunctionalProgramming #Haskell
+ [[https://arxiv.org/pdf/1810.04314][The fundamental theorem of algebra in ACL2]]. ~ R. Gamboa,
J. Cowles. #ITP #ACL2 #Math
+ [[https://arxiv.org/pdf/1810.04312][Using ACL2 in the design of efficient, verifiable data structures for
high-assurance systems]]. ~ D. Hardin, K. Slind. #ITP #ACL2
+ [[https://samcgardner.github.io/2018/10/06/linear-regression-in-haskell.html][An introduction to linear regression using Haskell]]. ~ Sam Gardner.
#FunctionalProgramming #Haskell
+ [[https://andrewgelman.com/2018/10/11/functional-programming-languages-popular-programming-languages-community/][Why are functional programming languages so popular in the programming
languages community?]] #FunctionalProgramming
+ [[https://mitpress.mit.edu/books/art-prolog-second-edition][The art of Prolog, second edition (Advanced programming techniques)]]. ~
L.S. Sterling, E.Y. Shapiro. #Open #eBook #LogicProgramming #Prolog
+ [[https://arxiv.org/pdf/1810.04315][Real vector spaces and the Cauchy-Schwarz inequality in ACL2(r)]]. ~
C. Kwan, M.R. Greenstreet. #ITP #ACL2 #Math
+ [[https://www.ideals.illinois.edu/bitstream/handle/2142/100116/K-semantics-tech-report.pdf][IsaK: a complete semantics of K]]. ~ L. Li, E.L. Gunter. #ITP
#IsabelleHOL
+ [[https://haskanything.com][Hask Anything!: a website aimed at collecting and organizing the
collective knowledge of the Haskell community]]. #FunctionalProgramming
#Haskell
+ [[https://wiki.haskell.org/Functional_programming][Functional programming]]. #FunctionalProgramming #Haskell
+ [[https://www.technologyreview.com/s/612263/the-us-military-wants-to-teach-ai-some-basic-common-sense][The US military wants to teach AI some basic common sense]]. ~ Will
Knight. #AI
+ [[https://joshchen.io/pdfs/implementation-hott-isabelle.pdf][An implementation of Homotopy Type Theory in Isabelle/Pure]]. ~
J. Chen. #Msc_Thesis #ITP #Isabelle #HoTT
+ [[https://github.com/jaycech3n/Isabelle-HoTT][Isabelle/HoTT: An experimental implementation of HoTT in the
interactive proof assistant Isabelle]]. J. Chen. #ITP
#Isabelle #HoTT
+ [[https://eprint.iacr.org/2018/941.pdf][A tutorial introduction to CryptHOL]]. ~ A. Lochbihler,
S.R. Sefidgar. #ITP #IsabelleHOL #CryptHOL
+ [[https://arxiv.org/pdf/1810.04309][Formalising filesystems in the ACL2 theorem prover: an Application to
FAT32]]. ~ Mihir Parang Mehta. #ITP #ACL2
+ [[https://www.ahri.net/practical-haskell-programs-from-scratch/][Practical Haskell programs from scratch (a quick and easy guide)]].
#FunctionalProgramming #Haskell
+ [[https://drive.google.com/file/d/1qexG1WABkK56G9XJsw9McRCdPVbGBJBj/view][Headfirst into Haskell]]. ~ Abby Sassel. #FunctionalProgramming
#Haskell
+ [[http://ranjitjhala.github.io/static/ctfp-ccs18.pdf][Towards verified, constant-time floating point operations]]. ~
M. Andrysco et als. #FunctionalProgramming #Haskell #SMT
+ [[https://jaspervdj.be/posts/2018-09-04-binomial-heaps-101.html][Dependent types in Haskell: Binomial heaps 101 (Who put binary numbers
in my type system?)]]. ~ Jasper Van der Jeugt.
#FunctionalProgramming #Haskell
+ [[https://arxiv.org/pdf/1810.04311][Incremental SAT library integration in ACL2 using abstract stobjs]]. ~
Sol Swords. #ITP #ACL2 #SAT
+ [[http://blog.ezyang.com/2018/09/hiw18-lets-go-mainstream-with-eta/][#HIW18: Let’s go mainstream with Eta!]]. ~ Rahul
Muttineni. #FunctionalProgramming #Haskell #Eta
+ [[https://icfp18.sigplan.org/event/hiw-2018-papers-corespec-verifying-ghc-with-hs-to-coq][CoreSpec: Verifying GHC with hs-to-coq]]. ~ Antal Spector-Zabusky et
als. #FunctionalProgramming #Haskell #ITP #Coq
+ [[https://icfp18.sigplan.org/event/hiw-2018-papers-coercion-quantification][Coercion quantification]]. ~ N. Xie, R.A. Eisenberg. #FunctionalProgramming
#Haskell
+ [[https://guide.aelve.com/haskell][Aelve Guide: Wiki for the Haskell ecosystem]]. #Haskell
+ [[https://github.com/ajlopez/AprendiendoDeepLearning][Enlaces y recursos sobre redes neuronales y deep learning]]. ~ @ajlopez
#AI #NeuralNetworks #DeepLearning
+ [[https://arxiv.org/pdf/1810.04316][Convex functions in ACL2(r)]]. ~ C. Kwan, M.R. Greenstreet. #ITP #ACL2 #Math
+ [[https://github.com/RKlompUU/SCRIPTWriter][ESCRIPT: a human readable language for programming Bitcoin scripts]]. ~
Rick Klomp. #FunctionalProgramming #Haskell
+ [[https://github.com/RKlompUU/SCRIPTAnalyser][SCRIPT Analyser: Symbolic verification of Bitcoin's output scripts]]. ~
Rick Klomp. #FunctionalProgramming #Haskell
+ [[https://medium.com/@cdsmithus/fixpoints-in-haskell-294096a9fc10][Fixpoints in Haskell]]. ~ Chris Smith. #FunctionalProgramming
#Haskell
+ [[https://typeclasses.com/javascript/monoidal-folds][A JavaScript WAT and monoidal folds]]. ~ Julie Moronuki
and Chris Martin. #JavaScript #Haskell
#FunctionalProgramming
+ [[https://github.com/volhovM/orgstat][Orgstat: a statistics visualizer tool for org-mode]]. ~ Mikhail
Volkhov. #Haskell #Emacs #OrgMode
+ [[https://github.com/orome/crypto-enigma-hs][A Haskell Enigma machine simulator with rich display and machine state
details]]. #FunctionalProgramming #Haskell
+ [[https://wiki.haskell.org/index.php?title=Haskell_in_industry][Haskell in industry]]. #FunctionalProgramming #Haskell
+ [[https://openlibra.com/es/book/learn-programming][Learn programming]]. ~ A. Salonen. #eBook #Programming #OpenLibra
+ [[https://arxiv.org/pdf/1810.05315][Learning to reason (Theorem proving at first order via reinforcement
learning)]]. ~ Brian Groenke. #Logic #ATP #MachineLearning
+ [[https://twobithistory.org/2018/10/14/lisp.html][How Lisp became God's own programming language]]. ~ Sinclair
Target. #Programming #Lisp
+ [[https://arxiv.org/pdf/1810.05666][DefunT: A tool for automating termination proofs by using the
community books]]. ~ Matt Kaufmann. #ITP #ACL2
+ [[https://github.com/MaiaVictor/cedille-core][Cedille-Core: A minimal (600 LOC) programming language capable of
proving theorems about its own terms]]. #ITP #Logic
#FunctionalProgramming #Haskell
+ [[https://github.com/maiavictor/formality][Formality: An efficient programming language and proof assistant]]. #ITP
#Cedille
+ [[https://github.com/nkarag/haskell-DBFunctor][DBFunctor: Functional data management (type safe ETL/ELT in Haskell)]].
~ Nikos Karagiannidis. #FunctionalProgramming #Haskell
+ [[https://anthonybonato.com/2018/10/17/problem-solving-vs-proving/][Problem solving vs proving]]. ~ Anthony Bonato #Math
+ [[https://www.isa-afp.org/entries/Factored_Transition_System_Bounding.html][Upper bounding diameters of state spaces of factored transition
systems in Isabelle/HOL]]. F. Kurz and M. Abdulaziz. #ITP #IsabelleHOL
+ [[https://github.com/granule-project/granule][Granule: a statically typed functional language with graded modal
types for fine-grained program reasoning via types]]. ~ Dominic Orchard
#FunctionalProgramming #Haskell
+ [[http://homepages.inf.ed.ac.uk/wadler/papers/sbmf/sbmf.pdf][Programming language foundations in Agda]]. ~ P. Wadler. #ITP #Agda #Coq
+ [[https://plfa.github.io][Programming language foundations in Agda]]. ~ P. Wadler,
W. Kokke. #eBook #ITP #Agda #Coq
+ [[http://ilyasergey.net/papers/temporal-isola18.pdf][Temporal properties of smart contracts]]. ~ I. Sergey, A. Kumar,
A. Hobor. #ITP #Coq
+ [[https://perso.telecom-paristech.fr/bloch/OptionIA/Logics-SymbolicAI.html][Logics and symbolic Artificial Intelligence]]. ~ Isabelle Bloch, Natalia
Díaz Rodríguez. #AI #Logic
+ [[https://www.isa-afp.org/entries/Randomised_BSTs.html][Randomised binary search trees in Isabelle/HOL]]. ~ M. Eberl #ITP
#IsabelleHOL
+ [[https://diogocastro.com/blog/2018/10/17/haskells-kind-system-a-primer/][Haskell's kind system (a primer)]]. ~ D. Castro. #Haskell
+ [[http://blog.ploeh.dk/2018/10/15/an-applicative-password-list][An applicative password list]]. ~ M. Seemann. #FunctionalProgramming #Haskell
+ [[https://chame.co/writeups/sum_and_product/post.html][Sigma, Pi, Sum, Product]]. ~ Samuel Breese. #FunctionalProgramming #Haskell
+ [[https://diginomica.com/2018/06/04/ai-curve-fitting-not-intelligence][AI today and tomorrow is mostly about curve fitting, not intelligence]].
~ Kurt Marko. #AI #DeepLearning
+ [[https://elpais.com/tecnologia/2018/03/16/actualidad/1521204836_317670.html][Máquinas listas, pero sin sentido común]]. ~ Ramon López de Mántaras. #IA
+ [[http://www.mit.edu/~tomeru/papers/machines_that_think.pdf][Building machines that learn and thinlike people]]. ~ B.M. Lake, T.D. Ullman,
J.B. Tenenbaum, S.J. Gershman. #AI
+ [[http://binaire.blog.lemonde.fr/2018/10/20/algorithmes-a-la-recherche-de-luniversalite-perdue/][Algorithmes: à la recherche de l’universalité perdue]]. ~ Rachid
Guerraoui #CompSci
+ [[http://verse.systems/blog/post/2018-10-02-Proofs-And-Side-Effects/][Proofs and side effects (Understanding the promise and the fine print
of formal methods for security)]]. ~ Toby Murray. #ITP
+ [[https://people.eng.unimelb.edu.au/tobym/papers/secdev2018.pdf][BP: Formal proofs, the fine print and side effects]]. ~ T. Murray,
P.C. van Oorscho. #ITP
+ [[http://blog.sigfpe.com/2018/10/running-from-past.html][Running from the past]]. ~ Dan Piponi. #FunctionalProgramming
#Haskell
+ [[https://blog.plover.com/prog/haskell/traversable.html][Mark Dominus: I struggle to understand Traversable]]. #FunctionalProgramming
#Haskell
+ [[https://wiki.haskell.org/Cookbook][The Haskell Cookbook]]. #FunctionalProgramming #Haskell
+ [[https://babbagefiles.xyz/next_browser-common_lisp/][Browsing the Web with Common Lisp]]. #Lisp #CommonLisp #Web #NextBrowser
+ [[http://next.atlas.engineer][Next: a keyboard-oriented, extensible web-browser inspired by Emacs
and designed for power users]]. #Lisp #CommonLisp #Web #NextBrowser
+ [[https://arxiv.org/pdf/1810.08380][Formalizing computability theory via partial recursive functions]]. ~
M. Carneiro. #ITP #Lean
+ [[https://gmalecha.github.io/reflections/2018/denotational-imp][A denotational
semantics for an imperative language]]. ~ G. Malecha. #ITP #Coq
+ [[https://www.isa-afp.org/entries/Lambda_Free_EPO.html][Formalization of the embedding path order for lambda-free higher-order
terms]]. ~ A. Bentkamp. #ITP #IsabelleHOL
+ [[https://vadosware.io/post/rest-ish-services-in-haskell-part-1/][REST-ish services in Haskell (Part 1)]]. ~ @vadosware #FunctionalProgramming
#Haskell
+ [[https://github.com/javpelle/ComputerAlgebra][Some computer algebra algorithms in Haskell]]. ~ J. Pellejero.
#FunctionalProgramming #Haskell #Math
+ [[https://chalkdustmagazine.com/features/an-invitation-to-category-theory/][An invitation to category theory]]. ~ Tai-Danae Bradley. #CategoryTheory
+ [[https://link.springer.com/content/pdf/10.1007%2F978-3-030-02508-3_10.pdf][Layer systems for confluence — formalized]]. ~ B. Felgenhauer, F. Rapp
#ITP #IsabelleHOL
+ [[https://www.isa-afp.org/entries/Prime_Number_Theorem.html][The prime number theorem in Isabelle/HOL]]. ~ M. Eberl, L. Paulson. #ITP
#IsabelleHOL #Math
+ [[https://mmhaskell.com/blog/2018/11/12/elm-more-functional-frontend][Elm: Functional frontend!]] ~ James Bowen.
#FunctionalProgramming #Elm
+ [[https://blog.jle.im/entry/introduction-to-singletons-4.html][Introduction to Singletons (Part 4)]]. ~ Justin Le. #Haskell
#FunctionalProgramming
+ [[http://www.iro.umontreal.ca/~monnier/hopl-4-emacs-lisp.pdf][Evolution of Emacs Lisp]]. ~ S. Monnier, M. Sperber. #Emacs #Lisp
+ [[https://www.csc.kth.se/~jsannemo/slask/main.pdf][Principles of algorithmic problem solving]]. ~ J. Sannemo. #eBook
#Algorithms #Programming #CompSci
+ [[http://knowledge.wharton.upenn.edu/article/student-loan-debt-crisis/][The student debt crisis: Could it slow the U.S. economy?]]
+ [[https://hal.inria.fr/hal-01897468/document][Deriving proved equality tests in Coq-elpi (Stronger induction
principles for containers in Coq)]]. ~ E. Tassi. #ITP #Coq
+ [[https://www.quantamagazine.org/in-computers-we-trust-20130222/][In computers we trust? (As math grows ever more complex, will
computers reign?)]] #Math #CompSci #ITP
+ [[http://web.eecs.umich.edu/~cpeikert/pubs/alchemy.pdf][Alchemy: A Language and Compiler for Homomorphic Encryption Made easY]].
~ E. Crockett, C. Peikert, C. Sharp. #Haskell #FunctionalProgramming
+ [[https://dimjasevic.net/marko/2018/10/23/typed-functional-programming-and-software-correctness][Typed functional programming and software correctness]]. ~ Marko
Dimjašević. #FunctionalProgramming
+ [[https://blog.softwaremill.com/algebraic-data-types-in-four-languages-858788043d4e][Algebraic Data Types in four languages (A comparison)]]. ~ #Haskell
#Scala #Rust #TypeScript
+ [[https://medium.com/@scott_jones/third-wave-ai-the-coming-revolution-in-artificial-intelligence-1ffd4784b79e][Third wave AI: The coming revolution in Artificial Intelligence]]. ~
Scott Jones. #AI
+ [[https://www.darpa.mil/about-us/darpa-perspective-on-ai][A DARPA perspective on Artificial Intelligence]]. ~ John Launchbury. #AI
+ [[https://www.bbc.com/news/business-44466213][Can we trust AI if we don't know how it works?]] ~ Marianne Lehnis. #AI
+ [[https://www.youtube.com/watch?v=T6ohwZNL0RQ][Assuring AI]]. ~ John Launchbury. #AI
+ [[https://code.world/doc.html?shelf=help/codeworld.shelf&path=help/GuideUnit1.md#13][CodeWorld guide]]. ~ Chris Smith. #Haskell #CodeWorld
#FunctionalProgramming
+ [[https://youtu.be/P8fgFCSAqYs][Solving russian calendar problems in Haskell (HaskellRank Ep.08)]]. ~
Alexey Kutepov. #FunctionalProgramming #Haskell
+ [[http://bit.ly/2Pm3Sxc][Los cuadrados y la factorización]]. ~ Juan Arias de Reyna. #Matematicas
#Computacion
+ [[https://www.ams.org/journals/notices/199612/pomerance.pdf][A tale of two sieves]]. ~ C. Pomerance. #Math #CompSci
+ [[https://cacm.acm.org/magazines/2018/11/232193-ai-explain-yourself/fulltext][AI, explain yourself]]. ~ Don Monroe. #AI #XAI
+ [[https://www.teslarati.com/darpa-us-defense-ai-common-sense-machine-learning/][US Department of Defense commits $2B to training AI to have “common
sense”]]. #AI
+ [[https://www.ciodive.com/news/ai-talent-pipeline-clogged-by-education-programs-slow-or-unable-to-change/540497/][AI talent pipeline clogged by education programs slow or unable to
change]]. #AI
+ [[https://francis.naukas.com/2011/07/13/para-que-sirven-las-matematicas/][Para qué sirven las matemáticas]]. ~ Francisco R. Villatoro
#Matemáticas
+ [[https://www3.math.tu-berlin.de/combi/wp_henk/wp-content/uploads/2011/08/475166a-The+unplanned+impact+of+mathematics.pdf][The unplanned impact of mathematics]]. ~ P. Rowlett. #Math
+ [[https://es.slideshare.net/AlejandroMena6/build-your-own-monads][Build your own monads]]. ~ A. Serrano. #FunctionalProgramming
#Haskell
+ [[https://anchpop.github.io/wise_mans_haskell][Wise man’s Haskell (Free book for learning Haskell)]]. ~ Andre
Popovitch. #eBook #FunctionalProgramming #Haskell
+ [[https://drive.google.com/file/d/1ikKuK6T2xccLynvdAVjGGZ029zjQlGAX/view][Headfirst into Haskell]]. ~ Abby Sassel. #FunctionalProgramming
#Haskell
+ [[https://www.slideshare.net/LukaJacobowitz/testing-in-the-world-of-functional-programming][Testing
in the World of Functional Programming]]. ~ Luka
Jacobowitz. #FunctionalProgramming #Scala
+ [[https://theconversation.com/statistics-and-data-science-degrees-overhyped-or-the-real-deal-102958][Statistics and data science degrees: Overhyped or the real deal?]] ~
P. Richard Hahn #DataScience
+ [[http://cleilaclo2018.mackenzie.br/docs/SIESC/182774.pdf][A functional paradigm using the C language for teaching Programming
for Engineers]]. ~ V. Theoktisto. #Teaching #Programming
#FunctionalProgramming
+ [[https://www.researchgate.net/profile/George_Baryannis/publication/328282705_Legal_Representation_and_Reasoning_in_Practice_A_Critical_Comparison/links/5bc9cb06a6fdcc03c7941e70/Legal-Representation-and-Reasoning-in-Practice-A-Critical-Comparison.pdf][Legal representation and reasoning in practice: a critical
comparison]]. ~ S. Batsakis et als. #KRR #ASP #Logic #AI
+ [[https://stratos.seas.harvard.edu/files/stratos/files/periodictabledatastructures.pdf][The periodic table of data structures]]. ~ S. Idreos et als. #Algorithmic
+ [[https://arxiv.org/pdf/1808.02066.pdf][The internals of the data calculator]]. ~ S. Idreos et als. #Algorithmic
+ [[https://www.isa-afp.org/entries/Epistemic_Logic.html][Epistemic logic in Isabelle/HOL]]. ~ Andreas Halkjær From. #ITP #IsabelleHOL
#Logic
+ [[https://ptival.github.io/card-game-04][Creating a card game in Haskell (part 4)]]. ~ Valentin Robert
#FunctionalProgramming #Haskell
+ [[http://bit.ly/2RnL3qv][Fourier, Cantor, las series trigonométricas y la teoría de conjuntos]]. ~ Pedro J. Paúl #Matemáticas
+ [[https://dimjasevic.net/marko/2018/10/23/typed-functional-programming-and-software-correctness/][Typed functional programming and software correctness]]. ~ Marko
Dimjašević. #FunctionalProgramming #Haskell #Agda
+ [[http://qfpl.io/posts/intro-to-state-machine-testing-1][Introduction to state machine testing: part 1]]. ~ Andrew McMiddlin
#FunctionalProgramming #Haskell
+ [[http://nickseagull.github.io/lw-eta-2018][Pragmatic development in Eta]]. ~ Nick Tchayka.
#FunctionalProgramming #Haskell #Eta
+ [[http://www.cis.syr.edu/~sueo/cis252][Course CIS 252: Introduction to Computer Science]]. ~ Susan Older
#FunctionalProgramming #Haskell
+ [[https://dl.acm.org/citation.cfm?id=3276946][A trustworthy mechanized formalization of R]]. ~ M. Bodin, T. Diaz,
É. Tanter. #ITP #Coq #RStat
+ [[https://arxiv.org/pdf/1803.06494][Attack trees in Isabelle]]. ~ F. Kammüller. #ITP #IsabelleHOL
+ [[https://hal.inria.fr/hal-01903752/document][A generic Coq proof of typical worst-case analysis]]. ~ P. Fradet,
M. Lesourd, J.F. Monin, S. Quinton. #ITP #Coq
+ [[https://github.com/ivanperez-keera/simple-affine-space][A simple implementation of affine spaces and vector spaces in Haskell]].
#FunctionalProgramming #Haskell #Math
+ [[https://www.hindawi.com/journals/tswj/2014/834237][The laws of natural deduction in inference by DNA computer]]. ~
Ł. Rogowski, P. Sosík. #Logic #DNAcomputing
** Noviembre 2018
+ [[https://www.glc.us.es/~jalonso/vestigium/resumen-de-lecturas-compartidas-durante-octubre-de-2018][Resumen de lecturas compartidas durante octubre de 2018]].
#FunctionalProgramming #Haskell #ITP #IsabelleHOL #Coq #Agda
+ [[https://www.isa-afp.org/entries/GewirthPGCProof.html][Formalisation and evaluation of Alan Gewirth's proof for the principle
of generic consistency in Isabelle/HOL]]. ~ D. Fuenmayo. #ITP
#IsabelleHOL #Logic
+ [[http://orbilu.uni.lu/bitstream/10993/37013/1/IOlogic-farjami.pdf][I/O logic in HOL]]. ~ A. Farjami, P. Meder, X. Parent,
C. Benzmüller. #ITP #IsabelleHOL
+ [[http://orbilu.uni.lu/bitstream/10993/37014/1/Aqvist-farjami.pdf][Åqvist’s dyadic deontic logic E in HOL]]. ~ C. Benzmüller, A. Farjami,
X. Parent. #ITP #IsabelleHOL #Logic
+ [[https://arxiv.org/pdf/1810.11979][Formal proofs of Tarjan's algorithm in Why3, Coq, and Isabelle]]. ~
R. Chen, C. Cohen, J.J. Levy, S. Merz, L. Thery. #ITP #Why3 #Coq
#IsabelleHOL
+ [[https://arxiv.org/pdf/1811.00796][Automated theorem proving in intuitionistic propositional logic by
deep reinforcement learning]]. ~ M. Kusumoto, K. Yahata, M. Sakai. #ATP
#DeepLearning
+ [[https://dev.to/supermanitu/haskell-by-example---the-birthday-bar-12m7][Haskell by example: The birthday bar]]. ~ Jan van Brügge
#FunctionalProgramming #Haskell
+ [[https://pl-rants.net/posts/haskell-opt-journey/][Haskell: journey from 144 min to 17 min]]. ~ Denis. #FunctionalProgramming
#Haskell
+ [[https://vanemden.wordpress.com/2018/10/29/history-of-structured-programming/][History of "Structured programming"]]. ~ Maarten van Emden. #Programming
+ [[https://medium.com/@stites/hasktorch-v0-0-1-28d9ab270f3f][Hasktorch: a library for tensors and neural networks in Haskell]]. ~ Sam
Stites. #FunctionalProgramming #Haskell #DeepLearning
+ [[http://matryoshka.gforge.inria.fr/pubs/metathy_paper.pdf][Formalizing the metatheory of logical calculi and automatic provers in
Isabelle/HOL]]. ~ J.C. Blanchette. #ITP #IsabelleHOL #Logic
+ [[https://www.sciencedirect.com/science/article/pii/S157106611830080X/pdf%3Fmd5%3D9ea092c87333b6b917921a1ae9f85aa7%26pid%3D1-s2.0-S157106611830080X-main.pdf][Mechanizing focused linear logic in Coq]]. ~ B. Xavier, C. Olarte,
G. Reis, V. Nigam. #ITP #Coq #Logic
+ [[http://bit.ly/2yUuSKK][Formalization of universal algebra in Agda]]. ~ E. Gunther, A. Gadea,
M. Pagano. #ITP #Agda
+ [[http://www.cse.chalmers.se/~patrikj/papers/TypeTheory4ModProg_preprint_2018-05-19.pdf][Type theory as a framework for modelling and programming]]. ~
C. Ionescu, P. Jansson, N. Botta. #FunctionalProgramming #TypeTheory
+ [[https://competition.isabelle.systems/competitions][Proving for Fun]]: proving competitions and learning material for
Interactive Proof Assistants such as Isabelle. #ITP #IsabelleHOL
+ [[https://vaibhavsagar.com/blog/2018/11/03/moving-towards-dialogue/][Moving towards dialogue]]. ~ Vaibhav Sagar. #FunctionalProgramming
#Haskell #Idris
+ [[https://mmhaskell.com/blog/2018/11/5/elm-iii-building-a-bridge-adding-effects][Elm III: adding effects]]. ~ James Bowen. #FunctionalProgramming #Elm
+ [[http://bit.ly/2OrSjja][Graphics programming in Elm develops Math knowledge & social
cohesion]]. ~ J. Zhang et als. #Teaching #Math #FunctionalProgramming
#Elm
+ [[https://hal.archives-ouvertes.fr/hal-01563373/document][A Lisp way to type theory and formal proofs]]. ~ Frédéric
Peschanski. #ITP #LaTTe #Clojure #FunctionalProgramming
+ [[https://github.com/latte-central/LaTTe][LaTTe: a Laboratory for Type Theory experiments (in Clojure)]]. ~
Frederic Peschanski. #ITP #LaTTe #Clojure #FunctionalProgramming
+ [[https://european-lisp-symposium.org/static/proceedings/2018.pdf][Proceedings of the 11 th European Lisp Symposium (April 16-17,
2018)]]. #Lisp #FunctionalProgramming
+ [[http://dailynous.com/2018/11/07/new-free-open-source-multi-purpose-multi-system-logic-software/][Carnap: a new free open-source multi-purpose multi-system logic software]]. ~
Graham Leach-Krouse. #Logic #Haskell #FunctionalProgramming
+ [[https://github.com/gleachkr/Carnap][Carnap: A formal logic framework that runs in the browser]]. ~ Graham
Leach-Krouse. #Logic #Haskell #FunctionalProgramming
+ [[https://carnap.io][Carnap.io: A formal logic framework for Haskell]]. ~ Graham
Leach-Krouse. #Logic #Haskell #FunctionalProgramming
+ [[https://dev.to/supermanitu/haskell-by-example---utopian-tree-1da2][Haskell by example: Utopian tree]]. ~ Jan van Brügge. #Haskell
#FunctionalProgramming
+ [[http://technocrat.rbind.io/2018/11/07/r-and-haskell-meant-for-each-other/][R and Haskell, meant for each other?]]. ~ Richard Careaga. #Rstats #Haskell
+ [[https://tweag.github.io/HaskellR/][HaskellR: Programming R in Haskell]]. #Rstats #Haskell
+ [[http://bit.ly/2RHnl8T][Why is functional programming gaining traction? Why now?]] ~ Eric
Normand. #FunctionalProgramming
+ [[https://arxiv.org/pdf/1811.03176][SAT-based explicit LTLf satisfiability checking]]. ~ J. Li, K.Y. Rozier,
G. Pu, Y. Zhang, M.Y. Vardi. #Logic #SAT #ATP
+ [[https://robertwpearce.com/hakyll-pt-1-setup-and-initial-customization.html][Hakyll Pt. 1: Setup & initial customization]]. ~ Robert Pearce. #Haskell
#Hakyll #FunctionalProgramming
+ [[https://tech.finn.no/2018/10/18/haskell-at-finn-no/][Haskell at FINN.no]]. ~ Sjur Millidahl. #Haskell #FunctionalProgramming
+ [[https://serokell.io/blog/2018/11/05/signal-processing][Signal processing in Haskell]]. ~ Rinat Stryungis. #Haskell
#FunctionalProgramming
+ [[https://qfpl.io/posts/waargonaut-the-jsoner/][Waargonaut the JSONer]]. ~ Sean Chalmers. #Haskell #FunctionalProgramming
+ [[https://github.com/pcarbonn/H-Calc][So, you want to write a DSL interpreter ]]... H-Calc!. #Haskell #DSL
#FunctionalProgramming
+ [[https://dl.acm.org/citation.cfm?id=3264832][On the naturalness of proofs]]. ~ V.J. Hellendoorn, P.T. Devanbu,
M.A. Alipour. #ITP #HOL_Light #Coq
+ [[https://www.logicmatters.net/2018/11/05/tarski-on-truth-very-briefly][Tarski on truth: a thumbnail sketch]]. ~ Peter Smith. #Logic
+ [[https://kevinlynagh.com/notes/shipping-puzzle/][Exploring a shipping puzzle]]. ~ Kevin Lynagh. #Clojure
#Alloy #FunctionalProgramming
+ [[https://arxiv.org/abs/1810.13430][Exceptionally monadic error handling (Looking at bind and squinting really
hard)]]. ~ J. Malakhovski. #Haskell #FunctionalProgramming
+ [[http://robertylewis.com/padics/padics.pdf][A formal proof of Hensel's lemma over the p-adic integers]]. ~
R.Y. Lewis. #ITP #Lean #Math
+ [[https://doisinkidney.com/posts/2018-11-10-a-very-simple-prime-sieve.html][A very simple prime sieve in Haskell]]. ~ Donnacha Oisín Kidney
#Haskell #FunctionalProgramming
+ [[https://markkarpov.com/post/existential-quantification.html][Existential quantification]]. ~ Mark Karpov. #Haskell
#FunctionalProgramming
+ [[https://danieljharvey.github.io/posts/2018-11-11-typeclasses-show.html][Typeclasses: Show]]. ~ Daniel J. Harvey #Haskell
+ [[https://omegaup.com/img/libropre3.pdf][Problemas y algoritmos]]. ~ Luis Vargas. #Libro #Algoritmos
#Programacion #Cpp
+ [[http://pier.guillen.com.mx/algoritmos.htm][Algoritmos]]. ~ Pier Paolo Guillen Hernandez. #Algoritmos
+ [[http://www.unirioja.es/cu/joheras/papers/immiia.pdf][Informática para las Matemáticas, Matemáticas para la Informática,
Informática aplicada]]. ~ J. Aransay et als. #Matematicas #Informatica
+ [[http://binaire.blog.lemonde.fr/2018/11/12/a-la-recherche-du-logiciel-parfait][À la recherche du logiciel parfait]]. ~ Xavier Leroy. #ITP
+ [[https://dev.to/eddroid/teaching-functional-programming-two-big-picture-approaches-3nli][Teaching Functional Programming: two big picture approaches]]. ~ Ed
Toro. #FunctionalProgramming
+ [[https://mmhaskell.com/blog/2018/11/12/elm-iv-navigation][Elm IV: navigation!]] ~ James Bowen. #FunctionalProgramming
#Elm
+ [[https://github.com/jrclogic/SMCDEL][SMCDEL: A symbolic model checker for Dynamic Epistemic Logic]]. ~ Malvin
Gattinger. #Logic #Haskell #FunctionalProgramming
+ [[https://github.com/jrclogic/SMCDEL/raw/master/SMCDEL.pdf][SMCDEL: an implementation of symbolic model checking for Dynamic
Epistemic Logic with Binary Decision Diagrams]]. ~ Malvin
Gattinger. #Logic #Haskell #FunctionalProgramming
+ [[https://malv.in/2018/funcproglog/][Course: Functional programming for logicians]]. ~ Malvin Gattinger and
Jana Wagemaker. #Logic #Haskell #FunctionalProgramming
+ [[https://homepages.cwi.nl/~jve/papers/15/html][Davis, Putnam, Logemann, Loveland (DPLL) theorem proving in Haskell]]. ~
Jan van Eijck. #Logic #Haskell #FunctionalProgramming #ATP
+ [[https://malv.in/posts/2016-11-16-why-io-input-types-are-confusing.html][Why IO input types are confusing]]. ~ Malvin Gattinger. #Haskell
#FunctionalProgramming
+ [[https://cse.iitk.ac.in/users/spramod/papers/memocode18.pdf][UCLID5: Integrating modeling, verification, synthesis, and learning]]. ~
S.A. Seshia, P. Subramanyam. #FormalVerification #ITP
+ [[https://mathscholar.org/2018/09/simple-proofs-of-great-theorems][Simple proofs of great theorems]]. #Math
+ [[https://mathscholar.org/2018/09/simple-proofs-the-irrationality-of-pi/][Simple proofs: The irrationality of pi]]. #Math
+ [[https://mathscholar.org/2018/09/simple-proofs-the-fundamental-theorem-of-algebra/][Simple proofs: The fundamental theorem of algebra]]. #Math
+ [[https://mathscholar.org/2018/09/simple-proofs-the-impossibility-of-trisection/][Simple proofs: The impossibility of trisection]]. #Math
+ [[http://qfpl.io/posts/intro-to-state-machine-testing-2/][Introduction to state machine testing: part 2]]. ~ Andrew McMiddlin
#Haskell #FunctionalProgramming
+ [[http://www.philipzucker.com/a-touch-of-topological-quantum-computation-in-haskell-pt-i][A touch of topological quantum computation in Haskell pt. I]]. ~ Philip
Zucker. #Haskell #FunctionalProgramming
+ [[https://arxiv.org/pdf/1811.05094][A SAT+CAS approach to finding good matrices: new examples and
counterexamples]]. ~ C. Bright et als. #SAT #CAS
+ [[https://arxiv.org/pdf/1811.05116v1][Programs as the language of science]]. ~ G. Pantelis. #CompSci
+ [[https://github.com/jaalonso/Examenes_de_PF_con_Haskell/releases/download/v10.1/Examenes_de_PF_con_Haskell.pdf][Libro de exámenes de programación funcional con Haskell (versión del
14 de noviembre de 2018)]]. #ProgramacionFuncional #Haskell #I1M2018
+ [[http://flint.cs.yale.edu/flint/publications/sacc.pdf][An abstract stack based approach to verified compositional compilation
to machine code]]. ~ P. Wilke, Y. Wang, Z. Shao. #ITP #Coq
+ [[http://adam.chlipala.net/papers/FiatCryptoSP19/][Simple high-level code for cryptographic arithmetic (with proofs,
without compromises)]]. ~ A. Erbsen, J. Philipoom, J. Gross, R. Sloan,
A. Chlipala. #ITP #Coq
+ [[https://dl.acm.org/citation.cfm?doid=3243631.3236784][Ready, set, verify! applying hs-to-coq to real-world Haskell code
(experience report)]]. ~ J. Breitner, A. Spector-Zabusky, Y. Li,
C. Rizkallah, J. Wiegley, S. Weirich. #ITP #Coq #Haskell
+ [[https://functor.tokyo/blog/2018-11-15-termonad][Termonad: A terminal emulator configurable in Haskell]]. ~ Dennis
Gosnell. #Haskell #FunctionalProgramming
+ [[http://www.cis.upenn.edu/~bcpierce/courses/670Fall04/GreatWorksInPL.shtml][Great works in programming languages]]. ~ Benjamin C. Pierce. #CompSci
+ [[https://alternativebit.fr/posts/haskell/ex-hack-alpha/][Ex-Hack: a Haskell example-based documentation]]. ~ @ninjatrappeur #Haskell
+ [[https://youtu.be/Xfu-Mt4YDWQ][GTK+ programming with Haskell]]. ~ Oskar Wickström. #Haskell
+ [[https://octopi.chalmers.se/2018/11/08/typed-holes/][Typed-holes and valid hole fits]]. ~ Matthías Páll Gissurarson. #Haskell
#FunctionalProgramming
+ [[https://mpg.is/papers/gissurarson2018suggesting.pdf][Suggesting valid hole fits for typed-holes (experience report)]]. ~
Matthías Páll Gissurarson. #Haskell #FunctionalProgramming
+ [[https://haskellweekly.news/issues/133.html][Haskell Weekly 133: News from the Haskell community (November 15 2018)]].
#Haskell
+ [[https://sketis.net/2018/isabelle-mmt-export-of-isabelle-theories-and-import-as-omdoc-content][Isabelle/MMT: export of Isabelle theories and import as OMDoc
content]]. ~ Makarius Wenzel. #ITP #IsabelleHOL #MMT
+ [[http://www.macs.hw.ac.uk/~ek19/pddl-verification.pdf][Proof-carrying plans]]. ~ C. Schwaab et als. #ITP #Agda IA #Planning
+ [[https://www.ps.uni-saarland.de/Publications/documents/ForsterEtAl_2018_On-Synthetic-Undecidability.pdf][On synthetic undecidability in Coq, with an application to the
Entscheidungsproblem]]. ~ Y. Forster, D. Kirst, G. Smolka. #ITP #Coq
#Logic
+ [[https://members.loria.fr/DLarchey/files/papers/BFE_CPP19.pdf][Breadth-first extraction: lessons from a small exercice in algorithm
certification]]. ~ D. Larchey-Wendling, R. Matthes. #ITP #Coq #Algorithms
+ [[https://members.loria.fr/DLarchey/files/papers/UNDEC_CPP19.pdf][Certified undecidability of intuitionistic linear logic via binary
stack machines and Minsky machines]]. ~ Y. Forster, D. Larchey-Wendling.
#ITP #Coq #Logic
+ [[https://books.google.es/books?id=jI15DwAAQBAJ&lpg=PP1&hl=es&pg=PP][Practical Web Development with Haskell (Master the essential skills to
build fast and scalable Web applications)]]. ~ Ecky Putrady. #Haskell
+ [[https://robertwpearce.com/hakyll-pt-2-generating-a-sitemap-xml-file.html][Hakyll Pt. 2: Generating a sitemap XML file]]. ~ Robert Pearce. #Haskell
#Hakyll #FunctionalProgramming
+ [[https://plato.stanford.edu/entries/logic-firstorder-emergence][The emergence of first-order logic]]. ~ William Ewald. #Logic
+ [[https://arxiv.org/pdf/1405.7615][Formal verification of control systems properties with theorem proving]].
~ D. Araiza-Illan, K. Eder, A. Richards. #ITP
+ [[https://taylor.fausak.me/2018/11/18/2018-state-of-haskell-survey-results][2018 state of Haskell survey results]]. ~ Taylor Fausak. #Haskell
+ [[https://itnext.io/pros-and-cons-of-functional-programming-32cdf527e1c2][Pros and cons of functional programming]]. ~ Iren Korkishko.
#FunctionalProgramming
+ [[https://www.math3ma.com/blog/the-tensor-product-demystified][The tensor product, demystified]]. ~ Tai-Danae Bradley. #Math
+ [[https://www.isa-afp.org/entries/Matroids.html][Matroids in Isabelle/HOL]]. ~ Jonas Keinholz. #ITP #IsabelleHOL #Math
+ [[https://arxiv.org/abs/1810.05806.pdf][Human-competitive patches in automatic program repair with Repairnator]].
~ M. Monperrus et als. #Programming
+ [[http://bit.ly/2Q4jNAD][Creative Maths Challenge]]. #Math
+ [[https://www.johndcook.com/blog/2018/11/20/curry-howard-lambek][Curry-Howard-Lambek correspondence]]. ~ John D. Cook. #CompSci
+ [[https://doisinkidney.com/posts/2018-11-20-fast-verified-structures.html][Keeping formal verification in bounds]]. ~ Donnacha Oisín Kidney. #Haskell #Agda
+ [[https://upcommons.upc.edu/handle/2117/113325][Analysis and solution of a collection of algorithmic problems]]. ~
R.E. López. #Algorithms #Programming #Cpp
+ [[https://www.isa-afp.org/entries/Generic_Deriving.html][Deriving generic class instances for datatypes in Isabelle/HOL]]. ~
Jonas Rädle, Lars Hupel. #ITP #IsabelleHOL
+ [[http://dld.bz/hftr9][What is elementary geometry?]] ~ Alfred Tarski #Math #Logic #History
+ [[https://github.com/BartoszMilewski/Publications/raw/master/Oredev.pdf][Programming with Math]]. ~ Bartosz Milewski. #Logic
#Math #Programming #Haskell
+ [[https://www.codementor.io/harshittyagi/high-performance-mathematical-paradigms-in-python-pjc5yocqm][High-performance mathematical paradigms in Python]]. ~ Harshit Tyagi
#Python #Math
+ [[http://www.ps.uni-saarland.de/~kirst/bachelor.php][Formalised set theory: well-orderings and the axiom of choice]]. ~
Dominik Kirst. #ITP #Coq #Math
+ [[https://www.ps.uni-saarland.de/extras/types15/][Axiomaticl set theory in type theory]]. ~ Gert Smolka. #ITP #Coq #Math
+ [[http://irreal.org/blog/?p=7632][Writing a Thesis with Org Mode]]. #Emacs #OrgMode
+ [[https://write.as/dani/writing-a-phd-thesis-with-org-mode][Writing a PhD thesis with Org Mode]]. ~ Daniel Gómez. #Emacs #OrgMode
+ [[https://write.as/dani/an-emacs-library-for-frictionless-blogging][An Emacs Library for frictionless Blogging]]. ~ Daniel Gómez. #Emacs #OrgMode
+ [[http://bit.ly/2Qg7nFD][Producto de Euler y ceros]]. ~ Juan Arias de Reyna. #Matemáticas
+ [[https://courses.ps.uni-saarland.de/icl_18/2/Resources][Course: Introduction to computational logic]]. ~ Gert Smolka. #ITP #Coq
#Logic
+ [[https://dimjasevic.net/marko/2018/11/20/function-totality-abstraction-tool-in-programming/][Function totality: Abstraction tool in programming]]. ~ Marko
Dimjašević. #Haskell #FunctionalProgramming
+ [[https://kowainik.github.io/posts/2018-11-18-state-pattern-matching][State monad comes to help sequential pattern matching]]. ~ Dmitrii
Kovanikov. #Haskell #FunctionalProgramming
+ [[https://arxiv.org/abs/1608.02644.pdf][Holophrasm: a neural automated theorem prover for higher-order logic]].
~ D. Whalen. #ITP #NeuralNetworks
+ [[https://www.cs.kent.ac.uk/people/staff/dat/miranda/whyfp90.pdf][Why functional programming matters]]. ~ J. Hughes. #FunctionalProgramming
+ [[https://github.com/sandrolovnicki/pLam][pLam: command line interpreter for learning and exploring pure λ-calculus]].
~ Sandro Lovnički. #Haskell #LambdaCalculus
+ [[https://www.i-programmer.info/news/204-challenges/12323-new-site-for-googles-coding-competitions-.html][New site for Google's coding competitions]]. ~ Sue Gee. #CompetitiveProgramming
+ [[http://matt.might.net/articles/quick-quickcheck/][An introduction to QuickCheck by example: Number theory and Okasaki's
red-black trees]]. ~ Matt Might. #Haskell #QuickCheck
#FunctionalProgramming
+ [[https://github.com/hmemcpy/milewski-ctfp-pdf/releases/download/v1.1-rc/category-theory-for-programmers-scala.pdf][Category theory for programmers. (Scala edition)]]. ~ B. Milewski,
I. Tabachnik. #CategoryTheory #Haskell #Scala #FunctionalProgramming
+ [[https://tech.kinja.com/haskell-for-scala-developers-1581854668][Haskell for Scala developers]]. ~ Claire Neveu. #Haskell
#Scala #FunctionalProgramming
+ [[https://john.cs.olemiss.edu/~hcc/csci450/ELIFP/ExploringLanguages.html][Exploring languages with interpreters and functional programming]]. ~
H. Conrad Cunningham. #CompSci #Programming #FunctionalProgramming
#Haskell
+ [[https://www.wisdomandwonder.com/article/10805/emacsorg-mode-choosing-the-best-writing-and-publishing-software][(Emacs+Org-Mode) Choosing the best writing and publishing software]].
#Emacs #OrgMode
+ [[https://dev.to/leandrotk_/functional-programming-principles-in-javascript-26g7][Functional programming principles in Javascript]]. ~ @leandrotk_
#FunctionalProgramming #JavaScript
+ [[http://blog.poisson.chat/posts/2018-11-26-type-surgery.html][Surgery for data types]]. ~ Xia Li-yao. #Haskell #FunctionalProgramming
+ [[http://settheory.net/links][Directory of links on logic and foundations of mathematics]]. ~ Sylvain
Poirier. #Logic #Math
+ [[https://mmhaskell.com/blog/2018/10/15/getting-started-with-purescript][Getting started with Purescript!]] ~ James Bowen. #Purescript #Haskell #FunctionalProgramming
+ [[https://www.fpcomplete.com/blog/2018/10/is-rust-functional][Is Rust functional?]] ~ M. Snoyman. #Rust #FunctionalProgramming
+ [[https://www.fpcomplete.com/blog/2018/11/haskell-and-rust][Haskell and Rust]]. ~ Chris Allen. #Haskell #Rust
#FunctionalProgramming
+ [[https://dl.acm.org/citation.cfm?id=361612][Computer programming as an art]]. ~ Donald Knuth. #Programming #CompSci
+ [[https://arxiv.org/abs/1811.11093][Counting polynomial roots in Isabelle/HOL: A formal proof of the
Budan-Fourier theorem]]. ~ W.Li, L.C. Paulson. #ITP #IsabelleHOL #Math
+ [[https://www.isa-afp.org/entries/Graph_Saturation.html][Graph saturation in Isabelle/HOL]]. ~ S.J.C. Joosten. #ITP #IsabelleHOL
+ [[http://www.cis.upenn.edu/~bcpierce/papers/deepweb-overview.pdf][From C to interaction trees: Specifying, verifying, and testing a networked
server]]. ~ N. Koh et als. #ITP #Coq
+ [[https://arxiv.org/abs/1811.10818][Experience report on formally verifying parts of OpenJDK's API with KeY]].
~ A. Knüppel, T. Thüm, C. Pardylla, I. Schaefer. #ATP #KeY
+ [[https://arxiv.org/abs/1811.10814][Lightweight interactive proving inside an automatic program verifier]].
~ S. Dailler, C. Marché, Y. Moy. #ITP #ATP
+ [[https://github.com/bor0/gidti][Gentle introduction to dependent types with Idris]]. ~ Boro
Sitnikovski. #Idris #FunctionalProgramming #ITP
+ [[https://arxiv.org/abs/1811.10819][Isabelle/jEdit as IDE for domain-specific formal languages and
informal text documents]]. ~ M. Wenzel. #ITP #IsabelleHOL
+ [[http://www.cs.utexas.edu/users/EWD/ewd06xx/EWD697.PDF][Some beautiful arguments using mathematical induction]]. ~
E.W. Dijkstra. #Math #CompSci
+ [[https://users.soe.ucsc.edu/~cschuster/phd/phd_thesis.pdf][Towards live programming environments for statically verified
JavaScript]]. ~ C. Schuster. #PhD_Thesis #ITP #LeanProver #JavaScript
+ [[https://github.com/levjj/esverify-theory/][Formalism and proofs for esverify]]. ~ C. Schuster. #IPT #LeanProver
#JavaScript
+ [[https://esverify.org][esverify: Program verification for ECMAScript/JavaScript]]. ~
C. Schuster. #IPT #LeanProver #JavaScript
+ [[https://github.com/hide-kawabata/traf][Traf: A proof tree viewer that works with Coq through Proof General]]. ~
Hideyuki Kawabata. #ITP #Coq
+ [[https://bitbucket.org/nadiapolikarpova/synquid/][Synquid: synthesizes programs from refinement types]]. ~ Nadia
Polikarpova. #Haskell #FunctionalProgramming
+ [[http://www-kb.is.s.u-tokyo.ac.jp/~koba/papers/aplas18-long.pdf][Automated synthesis of functional programs with auxiliary functions]]. ~
S. Eguchi, N. Kobayashi, T. Tsukada. #Haskell #FunctionalProgramming
+ [[https://www.isa-afp.org/entries/Auto2_HOL.html][Auto2 prover]]. ~ B. Zhan. #ITP #IsabelleHOL
+ [[https://www.isa-afp.org/entries/Functional_Ordered_Resolution_Prover.html][A verified functional implementation of Bachmair and Ganzinger's
ordered resolution prover]]. ~ A. Schlichtkrull, J.C. Blanchette,
D. Traytel. #ITP #IsabelleHOL
+ [[https://blockstream.com/2018/11/28/simplicity-github][Simplicity: High-assurance smart contracting]]. ~ R. Oconnor,
A. Poelstra. #Haskell #Coq #ITP #FunctionalProgramming #Blockchain
+ [[https://github.com/ElementsProject/simplicity][Simplicity: a blockchain programming language designed as an
alternative to Bitcoin script]]. ~ R. Oconnor. #Haskell #Coq #ITP
#FunctionalProgramming #Blockchain
+ [[https://youtu.be/HnOix9TFy1A][Type-driven program synthesis]]. ~ N. Polikarpova #Haskell
#FunctionalProgramming
** Diciembre 2018
+ [[https://arxiv.org/abs/1803.05998][|{Math, Philosophy, Programming, Writing}| = 1]]. ~ Attila
Egri-Nagy. #Math #Philosophy #Programming
+ [[https://pdfs.semanticscholar.org/7454/9e68cca4d929fd008c259a2dc18667e0efe7.pdf][Certifying the true error: Machine learning in Coq with verified
generalization guarantees]]. ~ A. Bagnall, G. Stewart. #ITP #Cop #MachineLearnig
+ [[https://www.ideals.illinois.edu/bitstream/handle/2142/102075/casper-report.pdf][Verification of Casper in the Coq proof assistant]]. ~ K. Palmskog et
als. #ITP #Coq #Blockchain
+ [[http://www.lsv.fr/~fthire/research/sttforall/paper/sttforall.pdf][Sharing a library between proof assistants: reaching out to the HOL family]].
~ F. Thiré. #ITP #Dedukti #Coq #Matita #OpenTheory #LeanProver #PVS
+ [[https://hal.inria.fr/hal-01668246/file/presentation.pdf][Interoperability between arithmetic proofs using Dedukti]]. ~ F. Thiré
#ITP #Dedukti #Coq #Matita #OpenTheory #LeanProver #PVS
+ [[https://github.com/Deducteam/Logipedia][Logipedia: an arithmetic library that is shared between several proof
systems]]. ~ F. Thiré. #ITP #Dedukti #Coq #Matita #OpenTheory #LeanProver #PVS
+ [[https://arxiv.org/abs/1811.09840][Three Euler’s sieves and a fast prime generator (Functional pearl)]]. ~
I. Salvo, A. Pacifico. #Haskell #FunctionalProgramming #Math
+ [[http://www.st.cs.uni-saarland.de/edu/seminare/2005/advanced-fp/slides/meiser.pdf][QuickCheck (a lightweight tool for random testing of Haskell
programs)]]. ~ K. Claessen, J. Hughes. #Haskell #QuickCheck
+ [[https://www.lri.fr/%7Empereira/thesis.pdf][Tools and techniques for the verification of modular stateful code]]. ~
M.J. Parreira. #ITP #Why3
+ [[http://wadler.blogspot.com/2018/12/programming-language-foundations-in-agda.html][Programming language foundations in Agda]]. ~ Philip Wadler. #ITP #Agda
+ [[https://youtu.be/NGBsSOOXv1A][Histoire des mathématiques dans l'humanité]]. ~ Cedric Villani. #Math
+ [[https://plfa.github.io][Programming language foundations in Agda]]. ~ Philip Wadler, Wen Kokke. #ITP
#Agda
+ [[https://arxiv.org/abs/1811.11317][Adventures in formalisation: Financial contracts, modules, and two-level type
theory]]. ~ Danil Annenkov. #PhD_Thesis #ITP #Coq #Agda #Lean
+ [[http://cs.lmu.edu/~ray/notes/introhaskell][Introduction to Haskell]]. ~ Ray Toal #Haskell #FunctionalProgramming
+ [[http://cs.lmu.edu/~ray/classes/pl/][Course: Programming languages]]. ~ Ray Toal #Programming
+ [[https://github.com/ekmett/guanxi][guanxi: An exploration of relational programming in Haskell]]. ~ Edward
Kmett #Haskell #FunctionalProgramming
+ [[http://www.isle.org/~langley/papers/integrative.eaai19.pdf][An integrative framework for artificial intelligence education]]. ~
P. Langley. #Teaching #AI
+ [[https://thealmarty.com/2018/12/04/programming-with-lenses-in-haskell-and-ocaml/][Programming with Lenses in Haskell and OCaml]]. #Haskell #OCaml
#FunctionalProgramming
+ [[https://www.parsonsmatt.org/2018/12/04/laziness_quiz.html][Laziness Quiz]]. ~ Matt Parsons. #Haskell #FunctionalProgramming
+ [[https://gitlab.com/danielhones/pycategories][Pycategories: Python library implementing ideas from category theory]]. ~
Daniel Hones. #Python #Haskell #CategoryTheory
+ [[https://blog.jle.im/entry/alchemical-groups.html][Alchemical groups: Advent of code with free groups and group homomorphisms]].
~ Justin Le. #Haskell #FunctionalProgramming
+ [[http://gallium.inria.fr/blog/fixin-your-automata/][Fixin' your automata]]. ~ François Pottier. #OCaml #FunctionalProgramming
+ [[https://bor0.wordpress.com/2018/12/05/dependently-typed-lambda-calculus-in-haskell/][Dependently typed lambda calculus in Haskell]]. ~ Boro Sitnikovski. #Haskell
#FunctionalProgramming
+ [[https://medium.com/@ertu.ctn/why-clojure-seriously-why-9f5e6f24dc29][Why Clojure? I’ll tell you why ...]] ~ Ertuğrul Çetin. #Clojure
#FunctionalProgramming
+ [[https://medium.freecodecamp.org/a-behind-the-scenes-look-at-map-filter-and-reduce-in-swift-1991f5c7bc80][A behind the scenes look at Map, Filter, and Reduce in Swift]]. ~
Boudhayan Biswas. #Swift #FunctionalProgramming
+ [[https://dev.to/leandrotk_/functional-programming-principles-in-javascript-26g7][Functional programming principles in Javascript]]. ~ @leandrotk_
#FunctionalProgramming #JavaScript
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_123.pdf][Verified analysis of random binary tree structures]]. ~ M. Eberl,
M.W. Haslbeck, T. Nipkow. #ITP #IsabelleHOL
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_325.pdf][Automated theorem proving in a chat environment]]. ~ R. Zhumagambetov,
M. Sterling. #ITP #Coq
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_4.pdf][Automating the diagram method to prove correctness of program
transformations]]. ~ D. Sabel. #Haskell #FunctionalProgramming
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_13.pdf][A simple functional presentation and an inductive correctness proof of
the Horn algorithm]]. ~ A. Ravara. #Logic #SAT
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_322.pdf][Implementing a proof assistant using focusing and logic programming]]. ~
T. Libal. #ITP #LogicProgramming #Prolog
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_287.pdf][Shaving with Occam's razor: deriving minimalist theorem provers for
minimal logic]]. ~ P. Tarau. #Logic #ATP #Prolog #LogicProgramming
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_755.pdf][Rating of geometric automated theorem provers]]. ~ N. Baeta,
P. Quaresma. #ATP #Geometry
+ [[https://qfpl.io/posts/intro-to-state-machine-testing-3/][Introduction to state machine testing: part 3]]. ~ Andrew McMiddlin.
#Haskell #FunctionalProgramming
+ [[https://lens-by-example.chrispenner.ca/articles/traversals/writing-traversals][Lens by example: Writing traversals]]. ~ Chris Penner. #Haskell
#FunctionalProgramming
+ [[https://docs.perl6.org/language/haskell-to-p6][Haskell to Perl 6: nutshell (Learning Perl 6 from Haskell, in a
nutshell)]]. #Haskell #Perl
+ [[http://cl-informatik.uibk.ac.at/users/griff/publications/Lochmann-Sternagel-CPP19.pdf][Certified ACKBO]]. ~ A. Lochmann, C. Sternagel. #ITP #IsabelleHOL
+ [[http://t-news.cn/Floc2018/FLoC2018-pages/proceedings_paper_761.pdf][Towards intuitive reasoning in axiomatic geometry]]. ~ M. Doré,
K. Broda. #ITP #ELFE #Haskell #Math
+ [[https://www.onikudaki.net/blog/archives/196][Binding to a C++ CORBA interface in Haskell]]. ~ Michael Oswald. #Haskell #Cpp
+ [[http://matryoshka.gforge.inria.fr/pubs/metathy_paper.pdf][Formalizing the metatheory of logical calculi and automatic provers in
Isabelle/HOL]]. ~ J.C. Blanchette. #ITP #IsabelleHOL #Logic #ATP
+ [[https://bitbucket.org/isafol/isafol/wiki/Home][IsaFoL: Isabelle Formalization of Logic]]. #ITP #IsabelleHOL #Logic
+ [[https://www21.in.tum.de/~haslbema/documents/provingcontests_draft18.pdf][Competitive proving for fun]]. ~ M.P.L. Haslbeck, S. Wimmer. #ITP #IsabelleHOL
+ [[https://github.com/ProofSystem/Encyclopedia/blob/master/main.pdf][Towards an encyclopaedia of proof systems]]. #Logic
+ [[http://ps.uni-saarland.de/Publications/documents/Schneider_2018_PhDThesis.pdf][A verified compiler for a linear imperative/functional intermediate
language]]. ~ S. Schneider. #PhD_Thesis #ITP #Coq
+ [[https://dspace.library.uu.nl/bitstream/handle/1874/369181/Thesis-Tomas-Ehrencron.pdf][Techniques behind SMT solvers]]. ~ T. Ehrencron. #SMT #LiquidHaskell #ATP
+ [[https://interestingengineering.com/15-of-the-most-important-algorithms-that-helped-define-mathematics-computing-and-physics ][15 of the most important algorithms that helped define Mathematics,
Computing, and Physics]]. ~ C. McFadden. #Algorithms #Math #CompSci
#Physics
+ [[https://medium.com/syncedreview/2018-in-review-10-ai-failures-c18faadf5983][2018 in review: 10 AI failures]]. #AI
+ [[https://arxiv.org/abs/1812.03624][Formalization of metatheory of the Quipper quantum programming
language in a linear logic]]. ~ M.Y. Mahmoud, A.P. Felty. #ITP #Coq
+ [[https://github.com/jeremydaw/idt][Intuitionistic dual tableaux in HOL]]. ~ Jeremy E. Dawson. #ITP #HOL #Logic
+ [[https://blogs.ncl.ac.uk/andreymokhov/united-monoids/][United monoids]]. ~ A. Mokhov. #Haskell #FunctionalProgramming #Math
+ [[https://blog.jle.im/entry/shifting-the-stars.html][Shifting the stars: Advent of code with galilean optimization]]. ~ Justin Le. #Haskell #FunctionalProgramming
+ [[https://www.tweag.io/posts/2018-12-12-benchgraph.html][DIY benchmark history with Criterion and Shiny]]. ~ Théophane Hufschmitt. #Haskell #FunctionalProgramming
+ [[https://medium.com/@fommil/why-not-both-8adadb71a5ed][Why not both? (Build Haskell projects with either cabal or stack)]]. ~ Sam Halliday. #Haskell
+ [[https://nokomprendo.frama.io/tuto_fonctionnel/posts/tuto_fonctionnel_25/2018-08-25-en-README.html][A webcam server in 35 lines of Haskell]]. #Haskell
+ [[http://sagebook.gforge.inria.fr/english.html][Computational mathematics with SageMath]]. ~ Paul Zimmermann et als. #eBook
#SageMath
+ [[https://link.springer.com/article/10.1007/s10817-018-09504-w][A verified implementation of algebraic numbers in Isabelle/HOL]]. ~
S.J.C. Joosten, R. Thiemann, A. Yamada. #ITP #IsabelleHOL #Haskell #Math
+ [[http://www.lix.polytechnique.fr/Labo/Dale.Miller/blanco-phd-draft.pdf][Applications of foundational proof certificates in theorem proving]]. ~
M. Roberto. #PhD_Thesis #FPC #ATP
+ [[https://www.lri.fr/~mpereira/thesis.pdf][Tools and techniques for the verification of modular stateful code]]. ~
M.J. Pereira. #PhD_Thesis #ITP #Why3
+ [[https://plus.maths.org/content/will-machine-learning-replace-mathematicians][Will machine learning replace mathematicians?]] ~ Chris Budd. #Math #AI
#ITP
+ [[https://github.com/isovector/thinking-with-types][Thinking with types: Type-level programming in Haskell]]. ~ Sandy
Maguire. #Haskell #FunctionalProgramming
+ [[https://thescipub.com/pdf/10.3844/jmssp.2018.209.218][Formalizing probability concepts in a type theory]]. ~ F. Kachapova. #ITP #Coq
#Math
+ [[https://arxiv.org/abs/1712.07474][Can one design a geometry engine? On the (un)decidability of affine Euclidean
geometries]]. ~ J.A. Makowsky. #Logic #Math #ATP
+ [[https://arxiv.org/abs/1812.03318][A verified Timsort C implementation in Isabelle/HOL]]. ~ Y. Zhang,
Y. Zhao, D. Sanan. #ITP #IsabelleHOL #Algorithms
+ [[https://arxiv.org/abs/1812.05878][In praise of sequence (co-)algebra and its implementation in
Haskell]]. ~ K. Clenaghan. #Haskell #FunctionalProgramming #Math
+ [[https://www.nytimes.com/2018/12/17/science/donald-knuth-computers-algorithms-programming.html][The Yoda of Silicon Valley]]. ~ S. Roberts. #CompSci
+ [[https://serokell.io/blog/2018/12/17/why-dependent-haskell][Why dependent Haskell is the future of software development]]. ~ V. Zavialov.
#Haskell #FunctionalProgramming
+ [[https://hal.archives-ouvertes.fr/hal-01830255v2/document][A Coq mechanised formal semantics for realistic SQL queries (Formally
reconciling SQL and bag relational algebra)]]. ~ V. Benzaken, É. Contejean.
#ITP #Coq
+ [[http://matryoshka.gforge.inria.fr/pubs/overbeek_msc_thesis.pdf][Formalizing the semantics of concurrent revisions]]. ~ R. Overbeek.
#Msc_Thesis #ITP #IsabelleHOL
+ [[https://www.isa-afp.org/entries/Order_Lattice_Props.html][Properties of orderings and lattices]]. ~ G. Struth. #ITP #IsabelleHOL #Math
+ [[https://www.isa-afp.org/entries/Constructive_Cryptography.html][Constructive cryptography in HOL]]. ~ A. Lochbihler, S.R. Sefidgar. #ITP
#IsabelleHOL
+ [[https://serokell.io/blog/2018/11/14/logical-background][Constructive and non-constructive proofs in Agda (Part 1): Logical
background]]. ~ Danya Rogozin #ITP #Agda #Logic
+ [[https://serokell.io/blog/2018/11/26/agda-in-nutshell][Constructive and non-constructive proofs in Agda (Part 2): Agda in a
nutshell]]. ~ Danya Rogozin. #ITP #Agda #Logic
+ [[https://serokell.io/blog/2018/11/30/playing-with-negation][Constructive and non-constructive proofs in Agda (Part 3): Playing
with negation]]. ~ Danya Rogozin #ITP #Agda #Logic
+ [[https://doisinkidney.com/posts/2018-12-14-primes-in-agda.html][Prime sieves in Agda]]. ~ Donnacha Oisín Kidney. #ITP #Agda
+ [[https://serokell.io/blog/2018/11/05/signal-processing][Signal processing in Haskell]]. ~ Rinat Stryungis. #Haskell
#FunctionalProgramming
+ [[https://doisinkidney.com/posts/2018-12-18-traversing-graphs.html][Pure & lazy breadth-first traversals of graphs in Haskell]]. ~ Donnacha
Oisín Kidney. #Haskell #FunctionalProgramming
+ [[https://mmhaskell.com/blog/2018/10/22/purescript-ii-typeclasses-and-monads][Purescript II: Typeclasses and Monads]]. ~ James Bowen.
#Purescript #Haskell #FunctionalProgramming
+ [[https://mmhaskell.com/blog/2018/10/29/purescript-iii-web-pages-with-react][Purescript III: Making a Web Page with Purescript and React!]] ~ James
Bowen. #Purescript #Haskell #FunctionalProgramming
+ [[https://mmhaskell.com/blog/2018/11/5/purescript-iv-building-a-bridge][Purescript IV: Routing and navigation!]] ~ James Bowen.
#Purescript #Haskell #FunctionalProgramming
+ [[https://link.springer.com/article/10.1007/s10817-012-9260-7][Proof pearl: A mechanized proof of GHC’s mergesort]]. ~
C. Sternagel. #ITP #IsabelleHOL #Haskell #Algorithms
+ [[https://cvlad.info/clasical-logic-in-haskell][Classical logic in Haskell]]. ~ Vladimir Ciobanu. #Haskell
#FunctionalProgramming #Logic
+ [[http://www.cs.umd.edu/~rrand/thesis.pdf][Formally verified quantum programming]]. ~ R. Rand. #PhD_Thesis #ITP #Coq
+ [[https://doisinkidney.com/posts/2018-12-21-balancing-scans.html][Balancing scans]]. ~ Donnacha Oisín Kidney. #Haskell #Agda
+ [[https://bartoszmilewski.com/2018/12/20/open-season-on-hylomorphisms][Open season on hylomorphisms]]. ~ B. Milewski. #Haskell
#FunctionalProgramming
+ [[https://github.com/probcomp/metaprob][Metaprob: A language for probabilistic programming and
metaprogramming, embedded in Clojure]]. #Clojure #FunctionalProgramming
+ [[https://hackernoon.com/clojure-functional-programming-38cc6a9298f5][Clojure & functional programming]]. ~ @leandrotk_ #Clojure
#FunctionalProgramming
+ [[https://www.gaussianos.com/el-yin-yang-y-el-numero-aureo][El yin-yang y el número áureo]]. ~ M.A. Morales. #Matemáticas
+ [[https://brianmckenna.org/blog/higher_kinded_parametricity][Higher kinded parametricity]]. ~ Brian McKenna. #Haskell
#FunctionalProgramming
+ [[https://www21.in.tum.de/~eberlm/linrec.pdf][Verified solving and asymptotics of linear recurrences]]. ~
M. Eberl. #ITP #IsabelleHOL #Math #Algorithmic
+ [[https://hal.inria.fr/hal-01962912/document][Verifying a security hypervisor model by infinite symbolic execution and
invariant strengthening]]. ~ V. Rusu, G. Grimaud, M. Hauspie. #ITP #Coq
+ [[http://images.math.cnrs.fr/Decomposer-et-iterer-pour-resoudre-un-probleme.html][Décomposer et itérer pour résoudre un problème]]. ~ G. Legendre,
J. Salomon. #Algorithms #Math
+ [[https://ocharles.org.uk/blog/posts/2018-12-25-fast-downward.html][Solving planning problems with Fast Downward and Haskell]]. ~ @acid2
#Haskell #FunctionalProgramming
+ [[https://alhassy.github.io/PathCat][Graphs are to categories as lists are to monoids]]. ~ Musa
Al-hassy. #CategoryTheory #Agda #Haskell
+ [[https://github.com/alhassy/CatsCheatSheet][A listing of common theorems in elementary category theory]]. ~ Musa
Al-hassy. #CategoryTheory #Agda
+ [[https://github.com/alhassy/CoqCheatSheet][Reference sheet for the Coq language]]. ~ Musa Al-hassy. #ITP #Coq
+ [[https://alhassy.github.io/literate/][Literate Agda with Org-mode]]. ~ Musa Al-hassy. #ITP #Agda #Emacs #OrgMode
+ [[http://cl-informatik.uibk.ac.at/users/thiemann/paper/LPAR18_LLL.pdf][A verified efficient implementation of the LLL basis reduction algorithm]].
~ R. Bottesch, M.W. Haslbeck, R. Thiemann. #ITP #IsabelleHOL
+ [[http://www.philipzucker.com/compiling-to-categories-3-a-bit-cuter][Compiling to categories 3: A bit cuter]]. ~ Philip Zucker.
#Haskell #FunctionalProgramming
+ [[http://bit.ly/2RjX3x1][Essential logic for computer science]]. ~ R. Page, R. Gamboa. #Logic
#ITP #ACL2
+ [[https://dodisturb.me/posts/2018-12-25-The-Essence-of-Datalog.html][The essence of Datalog]]. #Haskell #FunctionalProgramming #LogicProgramming
+ [[https://www.researchgate.net/profile/Jerzy_Karczmarczuk/publication/2437746_Functional_Programming_and_Mathematical_Objects/links/549467c80cf29b94481ea108.pdf][Functional programming and mathematical objects]]. ~
J. Karczmarczuk. #Haskell #FunctionalProgramming #Math
+ [[https://nextjournal.com/zampino/latte-cantor][Proving Cantor's theorem in Clojure using LaTTe]]. ~ Andrea
Amantini. #ITP #LaTTe #Clojure
+ [[http://math.ucr.edu/home/baez/books.html][How to learn Math and Physics]]. ~ John Carlos Baez.
#Math #Physics
+ [[http://www3.risc.jku.at/publications/download/risc_5814/Paper.pdf][Gröbner bases and Macaulay matrices in Isabelle/HOL]]. ~ A. Maletzky.
#ITP #IsabelleHOL #Math
+ [[http://www3.risc.jku.at/publications/download/risc_5815/Paper.pdf][A generic and executable formalization of signature-based Gröbner
basis algorithms]]. A. Maletzky. #ITP #IsabelleHOL #Math
+ [[http://algorithms.wtf][Algorithms]]. ~ Jeff Erickson. #eBook #Algorithms
+ [[http://mfleck.cs.illinois.edu/building-blocks][Building blocks for theoretical computer science]]. ~ M.M. Fleck. #eBook
#CompSci
+ [[http://opendatastructures.org][Open data structures (An open content textbook)]]. P. Morin. #eBook
#Algorithms #CompSci
+ [[https://arxiv.org/abs/1812.11108][Towards a constructive formalization of Perfect Graph Theorems]]. ~
A.K. Singh, R. Natarajan. #ITP #Coq
+ [[https://github.com/friguzzi/aleph][Port of Aleph (an Inductive Logic Programming system) to SWI-Prolog]]. ~
Fabrizio Riguzzi. #ILP #Prolog
+ [[https://www.johndcook.com/blog/2018/12/30/groups-2019/][Groups of order 2019]]. ~ John D. Cook. #Math #Python
+ [[http://hojaynumeros.blogspot.com/2018/12/resumen-de-calculos-sobre-el-ano-2019.html][Resumen de cálculos sobre el año 2019]]. ~ Antonio Roldán. #Matemáticas
+ [[http://yoda.guillaume.pagesperso-orange.fr/N1000/N2019.htm][Nombre 2019, deux-mille-dix-neuf]]. ~ Gérard Villemin. #Maths
+ [[https://xenaproject.wordpress.com/2018/12/30/learning-lean-by-example][Learning Lean by example]]. ~ Kevin Buzzard. #ITP #LeanTheoremProver #Math
* Lecturas del año 2017
** Enero 2017
+ [[https://www.researchgate.net/profile/Wolfgang_Bibel/publication/311509743_Advances_in_Connection-Based_Automated_Theorem_Proving/links/584d67f308aed95c25011f8c.pdf][Advances in connection-based automated theorem proving]]. ~ J. Otten & W. Bibel
#Logic #ATP #Prolog
+ [[http://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.1001745][Best practices for scientific computing]]. ~ G. Wilson et als.
#Programming
+ [[https://www.researchgate.net/profile/Andreas_Prlic/publication/233870994_Ten_Simple_Rules_for_the_Open_Development_of_Scientific_Software/links/00b7d51daf837601a1000000.pdf][Ten simple rules for the open development of scientific software]]. ~ A. Prlić
& J.B. Procter #Programming
+ [[http://weijr-note.blogspot.com/2017/01/2017-is-not-just-another-prime-number.html][2017 is not just another prime number]]. ~ T.J. Wei #Matemáticas
+ [[https://github.com/jaalonso/Lecturas_GLC][Lecturas sobre lógica computacional, programación funcional y razonamiento
automático del 2016]]. ~ J.A. Alonso #GLC
+ [[https://www.isa-afp.org/entries/Twelvefold_Way.shtml][The Twelvefold Way]]. ~ Lukas Bulwahn #IsabelleHOL #Math #AFP
+ [[http://www.glc.us.es/~jalonso/exercitium/ternas-coprimas][Exercitium: "Ternas coprimas"]]. #Haskell #I1M2016
+ [[http://kseo.github.io/posts/2016-12-28-lazy-vs-strict-state-monad.html][Lazy vs strict state monad]]. ~ Kwang Yul Seo. #Haskell
+ [[http://kseo.github.io/posts/2016-12-30-write-you-an-interpreter.html][Write you an interpreter]]. ~ Kwang Yul Seo. #Haskell
+ [[https://arxiv.org/pdf/1612.09375v1][Basic category theory]]. ~ Tom Leinster #Math #eBook
+ [[https://within-parens.blogspot.com.es/2016/12/rcreational-common-lisp.html][(R)creational Common Lisp]]. ~ Marco Antoniotti #Lisp #Rstats
+ [[http://kseo.github.io//posts/2016-12-21-foldl-vs-foldl'.html][foldl vs foldl']]. ~ Kwang Yul Seo. #Haskell
+ [[http://www.dc.fi.udc.es/~cabalar/igpl16.pdf][Verification for ASP denotational semantics: a case study using the PVS
theorem prover]]. ~ F. Aguado et als. #PVS #ASP
+ [[http://www.snoyman.com/blog/2017/01/functors-applicatives-and-monads][Functors, applicatives, and monads]]. ~ M. Snoyman. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/numeros-super-pandigitales][Exercitium: "Números super pandigitales"]]. #Haskell #I1M2016
+ [[https://github.com/Gabriel439/haskell-nix][Nix and Haskell in production]]. ~ G. Gonzalez. #Haskell #Nix
+ [[https://www.gitbook.com/book/wizardforcel/sicp-in-python/details][SICP (Structure and Interpretation of Computer Programs) in Python]]. ~ GitBook
#eBook #Python
+ [[http://raganwald.com/2016/12/27/recursive-data-structures.html][Why recursive data structures?]]. ~ Reginald Braithwaite #Algorithms
#JavaScript
+ [[http://www.cs.princeton.edu/~appel/papers/certicoq-coqpl.pdf][CertiCoq: A verified compiler for Coq]]. ~ A.W. Appel et als. #Coq
+ [[https://wiki.haskell.org/Typeclassopedia][Typeclassopedia]]. ~ Brent Yorgey #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/minima-suma-de-las-ramas-de-un-arbol][Exercitium: "Mínima suma de las ramas de un árbol"]]. ~ #Haskell
#I1M2016
#Haskell #I1M2016
+ [[http://www.math.upenn.edu/~wilf/website/CombinatorialAlgorithms.pdf][Combinatorial algorithms (for computers and calculators)]]. ~ A. Nijenhuis &
H.S. Wilf #eBook #Math
+ [[https://github.com/unisonweb/unison/tree/cac3ab3a6bddd8b91bf17cd9e1b45950ab1a6c71/yaks/easytest][EasyTest: a Haskell simple testing toolkit]]. ~ Paul Chiusano. #Haskell
+ [[https://www.isa-afp.org/entries/FOL_Harrison.shtml][First-order logic according to Harrison]]. ~ A.B. Jensen, A. Schlichtkrull & J. Villadsen #IsabelleHOL #Logic #AFP
+ [[https://www.stackbuilders.com/tutorials/haskell/ghc-optimization-and-fusion][GHC optimization and fusion]]. ~ Mark Karpov #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/numeros-de-perrin][Exercitium: "Números de Perrin"]]. #Haskell #I1M2016
+ [[https://www.technologyreview.com/s/603216/5-big-predictions-for-artificial-intelligence-in-2017][5 big predictions for Artificial Intelligence in 2017]]. ~ Will Knight #AI
+ [[http://kseo.github.io//posts/2017-01-03-writing-an-interpreter-using-fold.html][Writing an interpreter using fold]]. ~ Kwang Yul Seo. #Haskell
+ [[http://ren.zone/articles/opaleye-sot][Opaleye’s sugar on top]]. ~ Renzo Carbonara #Haskell
+ [[https://github.com/takenobu-hs/haskell-ghc-illustrated][GHC (STG,Cmm,asm) illustrated for hardware persons (exploring some mental
models and implementations)]]. ~ Takenobu Tani #Haskell
+ [[http://www.corecursion.net/post/2017-01-01-Formalizing_Eventsourcing][Formalizing eventsourcing]]. ~ @yoeight #Haskell
+ [[https://www.isa-afp.org/entries/Concurrent_Ref_Alg.shtml][Concurrent refinement algebra and rely quotients in Isabelle/HOL]]. ~ J. Fell,
I. Hayes, A. Velykis #IsabelleHOL
+ [[http://www.glc.us.es/~jalonso/exercitium/segmentos-comunes-maximales][Exercitium: "Segmentos comunes maximales"]]. #Haskell #I1M2016
+ [[https://github.com/jaalonso/Pensamientos][Recopilación de pensamientos]].
+ [[https://www.isa-afp.org/entries/Password_Authentication_Protocol.shtml][Verification of a Diffie-Hellman password-based authentication protocol]]. ~
P. Noce #IsabelleHOL
+ [[http://jakewheat.github.io/intro_to_parsing][Intro to Parsing with Parsec in Haskell]]. ~ Jake Wheat #Haskell
+ [[http://approximateinference.org/accepted/ScibiorGhahramani2016.pdf][Modular construction of Bayesian inference algorithms]]. ~ A Scibior, Z
Ghahramani #Haskell
+ [[https://medium.com/@cscalfani/goodbye-object-oriented-programming-a59cda4c0e53#.4tm9wspww][Goodbye, Object Oriented Programming]]. ~ Charles Scalfani. #Programming
+ [[https://medium.com/@cscalfani/so-you-want-to-be-a-functional-programmer-part-6-db502830403#.rrilnbd5l][So you want to be a functional programmer]]. ~ Charles Scalfani. #Programming
#FP
+ [[http://kseo.github.io/posts/2017-01-04-type-defaulting-in-haskell.html][Type defaulting in Haskell]]. ~ Kwang Yul Seo. #Haskell
+ [[http://kseo.github.io/posts/2017-01-05-implementing-a-call-by-value-interpreter-in-haskell.html][Implementing a call-by-value interpreter in Haskell]]. ~ Kwang Yul Seo.
#Haskell
+ [[http://lorepub.com/post/2016-12-17-Haskell-Pitfalls][Haskell pitfalls]]. ~ Chris Allen, Mark Wotton #Haskell
+ [[http://www.scottaaronson.com/papers/pnp.pdf][P =? NP: A survey]]. ~ Scott Aaronson #Math #CompSci #History
+ [[http://www.elconfidencial.com/tecnologia/2016-12-04/software-libre-informatica-open-source-linux-github_1298849/][3.000 millones de archivos: así es la mayor biblioteca de código abierto del
mundo]]. ~ José Manuel Blanco. #Programación
+ [[https://www.softwareheritage.org/archive][The Software Heritage archive]].
+ [[https://kseo.github.io//posts/2017-01-08-visible-type-application-ghc8.html][Visible type application in GHC 8]]. ~ Kwang Yul Seo. #Haskell
+ [[http://www.haskellforall.com/2015/10/polymorphism-for-dummies.html][Polymorphism for dummies]]. ~ G. Gonzalez. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/terminaciones-de-fibonacci][Exercitium: "Terminaciones de Fibonacci"]]. #Haskell #I1M2016
+ [[http://kseo.github.io/posts/2017-01-09-continuation-passing-style-interpreter.html][Continuation passing style interpreter]]. ~ Kwang Yul Seo. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/estratificacion-de-un-arbol][Exercitium: "Estratificación de un árbol"]]. #Haskell #I1M2016
+ [[https://gist.github.com/mikehaertl/3258427][Learn you a Haskell - In a nutshell]]. ~ Michael Härtl #Haskell
+ [[http://blogs.ams.org/matheducation/2017/01/09/integrating-computer-science-in-math-the-potential-is-great-but-so-are-the-risks/][Integrating Computer Science in Math: The potential is great, but so are the risks]]. ~ E. Schanzer #Math #CompSci
+ [[https://mail.haskell.org/pipermail/haskell-cafe/2017-January/125907.html][Call for interest: Haskell in middle school math education]]. ~ Chris Smith
#Haskell #Math
+ [[https://www.isa-afp.org/entries/UPF_Firewall.shtml][Formal network models and their application to firewall policies]]. ~
A.D. Brucker, L. Brügger & B. Wolff #IsabelleHOL
+ [[http://michaeljflynn.net/2017/01/09/simple-rna-folding-in-130-lines-of-haskell][Simple RNA folding in 130 lines of Haskell]]. ~ Michael J. Flynn #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/familias-de-numeros-con-algun-digito-en-comun][Exercitium: "Familias de números con algún dígito en
común"]]. #Haskell #I1M2016
+ [[http://m.bib.oxfordjournals.org/content/early/2016/12/31/bib.bbw130.full][How the strengths of Lisp-family languages facilitate building complex and
flexible bioinformatics applications]]. ~ B.B. Khomtchouk et als. #Lisp
+ [[https://blog.grakn.ai/grakn-ai-and-haskell-c166c7cc1d23#.j4zri5fzw][GRAKN.AI and Haskell: Data processing using Haskell and the Grakn knowledge
graph]]. ~ Felix Chapman #Haskell
+ [[https://www.codementor.io/codementorteam/tutorials/cheat-sheet-python-for-data-science-xe3m6wy4q][Cheat sheet: Python for Data Science]]. ~ Martijn #Python #DataScience
+ [[https://github.com/rgleichman/glance/blob/master/README.md][Glance, a visual Haskell]]. ~ Robbie Gleichman #Haskell
+ [[http://edsko.net/2017/01/08/linearity-in-haskell][Linearity, uniqueness, and Haskell]]. ~ Edsko de Vries. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/sucesion-de-cuadrados-reducidos][Exercitium: "Sucesión de cuadrados reducidos"]]. #Haskell
#I1M2016
+ [[http://eta-lang.org][Eta: a pure, lazy, strongly typed functional programming language on the
JVM]]. #Haskell #Eta
+ [[http://www.cs.ox.ac.uk/jeremy.gibbons/publications/iterator.pdf][The essence of the iterator pattern]]. ~ J Gibbons, BCS Oliveira #Haskell
+ [[http://www.corecursion.net/post/2017-01-12-Why_Traversable_is_the_real_deal][Why Traversable is the real deal]]. ~ @yoeight #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-representacion-grafica-de-funciones-en-haskell][I1M2016: Representación gráfica de funciones en Haskell]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-manejo-de-ficheros-en-haskell][I1M2016: Manejo de ficheros en Haskell]]. #Haskell
+ [[http://chrisdone.com/posts/fast-haskell-c-parsing-xml][Fast Haskell: Competing with C at parsing XML]]. ~ Chris Done.
#Haskell
+ [[https://arxiv.org/pdf/1701.03320v1][An introduction to Liquid Haskell]]. ~ Ricardo Peña #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/numeros-dorados][Exercitium: "Números dorados"]]. #Haskell #I1M2016
ordenadas"]]. #Haskell #I1M2016
+ [[http://www.bbenson.co/post/refactoring-with-applicatives-in-haskell][Refactoring with Applicatives in Haskell]]. ~ Brendan Benson #Haskell
+ [[https://medium.freecodecamp.com/programming-mental-models-47ccc65eb334#.5ugikcqnp][The Great Programming Jargon Bake-off (Imperative vs. Declarative. Pure
vs. Impure. Static vs. Dynamic)]]. ~ Preethi Kasireddy #Programming
+ [[https://hackhands.com/lazy-evaluation-works-haskell][How lazy evaluation works in Haskell]]. ~ Heinrich Apfelmus #Haskell
+ [[http://math-blog.com/should-you-get-started-in-data-science/][Should you get started in Data Science?]] ~ John F. McGowan #DataScience
+ [[https://aeon.co/essays/the-rise-and-fall-and-rise-of-logic][The rise and fall and rise of logic]]. ~ C. Dutilh Novaes. #Logic
+ [[http://www.johndcook.com/blog/2017/01/12/safe-primes-sylow-theorems-and-cryptography/][Safe primes, Sylow theorems, and Cryptography]]. ~ J.D. Cook. #Math
#CompSci
+ [[https://www.isa-afp.org/entries/E_Transcendental.shtml][The transcendence of e in Isabelle/HOL]]. ~ Manuel Eberl #IsabelleHOL #Math
+ [[http://www.johndcook.com/blog/2017/01/11/automated-theorem-proving][Automated theorem proving]]. ~ J.D. Cook. #Math #CompSci
+ [[https://openlibra.com/en/book/practicas-de-matematicas-con-maxima-matematicas-usando-software-libre][Prácticas de Matemáticas con Maxima: Matemáticas usando Software Libre]]. ~
A.J. Arriaza et als. #Libro #Matemáticas #Maxima
+ [[http://www2.tcs.ifi.lmu.de/~abel/jlamp17.pdf][Equational reasoning about formal languages in coalgebraic style]]. ~ Andreas
Abel #Agda
+ [[http://www.stephendiehl.com/posts/monads.html][Monads made difficult: A short, fast and analogy-free introduction to Haskell
monads derived from a categorical perspective]]. ~ S. Diehl. #Haskell
+ [[https://www.researchgate.net/profile/Bruno_Woltzenlogel_Paleo/publication/311456139_Leibniz%27s_Characteristica_Universalis_and_Calculus_Ratiocinator_Today/links/5847ded008ae2d21757350ea.pdf][Leibniz’s characteristica universalis and calculus ratiocinator today]]. ~
Bruno Woltzenlogel Paleo #Logic
+ [[https://github.com/FormalTheology/GoedelGod][Computer-assisted theoretical philosophy (computer-assisted formalizations of
ontological proofs)]]. #Coq #IsabelleHOL
+ [[https://t.co/LK9Wdh6ooD][The essence of functional structures]]. ~ Adil Akhter. #Scala
+ [[http://www.staff.city.ac.uk/~ross/papers/Applicative.html][Applicative programming with effects]]. ~ Conor McBride & Ross
Paterson. #Haskell
+ [[http://ozark.hendrix.edu/~yorgey/360/f16/][Course: Programming languages (Fall 2016)]]. ~ Brent Yorgey #Haskell
+ [[https://www.oreilly.com/ideas/how-we-got-linux-on-windows][How we got Linux on Windows (From "Linux is a cancer" to Windows Subsystem for Linux)]]. ~ Brian Jepson #Linux
+ [[https://begriffs.com/posts/2017-01-14-design-use-quickcheck.html][The design and use of QuickCheck]]. ~ Joe Nelson #Haskell #QuickCheck
+ [[http://hvg.ece.concordia.ca/Publications/TECH_REP/BDIID_TR16.pdf][Formalization of Birth-Death and IID Processes in Higher-order Logic]]. ~
L. Liu, O. Hasan & S. Tahar #HOL4
+ [[https://kseo.github.io//posts/2017-01-14-memoization-in-hasekll.html][Memoization in Haskell]]. ~ Kwang Yul Seo. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/sumas-y-restas-alternativas][Exercitium: "Sumas y restas alternativas"]]. #Haskell #I1M2016
+ [[https://ucsd-progsys.github.io/liquidhaskell-blog/][LiquidHaskell: a static verifier for Haskell, based on Liquid Types]]. #Haskell
+ [[https://arxiv.org/abs/1701.03602][Automatic verification and interactive theorem proving]]. ~ Andrea Asperti #ATP
#ITP
+ [[https://jfr.unibo.it/article/download/5595/6224][Formalization of the pumping lemma for context-free languages]]. ~ M.V M. Ramos
et als. #ITP #Coq
+ [[http://www.glc.us.es/~jalonso/exercitium/nodos-con-k-sucesores][Exercitium: "Nodos con k sucesores"]] #Haskell #I1M2016
+ [[http://www.win.tue.nl/%7Eberry/papers/crypto99.pdf][A simple Publicly Verifiable Secret Sharing Scheme and its application to
electronic voting]]. ~ Berry Schoenmakers
+ [[https://github.com/input-output-hk/pvss-haskell][Haskell implementation of the Public Verifiable Secret Scheme based on Berry
Schoenmakers's paper]]. ~ Carlos D'Agostino #Haskell
+ [[https://jaspervdj.be/posts/2017-01-17-lazy-io-graphs.html][Lazy I/O and graphs (Finding the shortest path in a lazily loaded infinite
graph)]]. ~ Jasper Van der Jeugt. #Haskell
+ [[http://rextester.com][Rextester]]: A nice online IDE that supports multiple prog lang #Fsharp
#Haskell #erlang #Scala #OCaml #Swift #elixirlang #Go ...
+ [[http://arxiv.org/abs/1701.04481][A tutorial on using Dafny to construct verified software]]. ~ Paqui Lucio
#Dafny
+ [[https://josejuan.github.io/posts/2017-01-05-zipped-finger-tree.html][Zipped finger tree (o porqué los `ArrayList` son ineficientes)]]. ~
@__josejuan__ #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/sucesion-de-capicuas][Exercitium: "Sucesión de capicúas"]]. #Haskell #I1M2016
+ [[https://www.isa-afp.org/entries/Bertrands_Postulate.shtml][Bertrand's postulate in Isabelle/HOL]]. ~ J. Biendarra & M. Eberl #IsabelleHOL
#Math
+ [[http://www.fpcomplete.com/blog/2017/01/speeding-up-distributed-computation][Speeding up a distributed computation in Haskell]]. ~ Francesco Mazzoli
#Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/sumas-de-tres-capicuas][Exercitium: "Sumas de tres capicúas"]]. #Haskell #I1M2016
+ [[http://www.glc.us.es/~jalonso/vestigium/ra2016-deduccion-natural-en-logica-de-primer-orden-con-isabellehol][RA2016: Deducción natural en lógica de primer orden con Isabelle/HOL]]. #Lógica
#IsabelleHOL
+ [[http://haskellpad.org][Haskell Pad: Run your Haskell on the browser]]. ~ Kwang Yul Seo.
#Haskell
+ [[http://go-talks.appspot.com/github.com/kseo/haskell-talks/2016/intro.slide#1][Introduction to Haskell]]. ~ Kwang Yul Seo. #Haskell
+ [[https://www.math.nagoya-u.ac.jp/~garrigue/papers/rs_isita2016.pdf][Formalization of Reed-Solomon codes and progress report on formalization of
LDPC codes]]. ~ R. Affeldt, J. Garrigue, T. Saikawa #Coq
+ [[http://mlg.eng.cam.ac.uk/adam/pps2017.pdf][Building inference algorithms from monad transformers]]. ~ Adam Ścibior et
als. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/suma-ordenada-de-listas-infinitas-ordenadas][Exercitium: "Suma ordenada de listas infinitas ordenadas"]]. #Haskell #I1M2016
+ [[http://go-talks.appspot.com/github.com/kseo/haskell-talks/2016/monad.slide#1][What is monad?]] ~ Kwang Yul Seo. #Haskell
+ [[http://hojaynumeros.blogspot.com/2017/01/numero-de-descomposiciones-en.html][Número de descomposiciones en diferencia de cuadrados]]. ~ Antonio Roldán.
#Matemáticas #Programación
+ [[http://mutanatum.com/posts/2017-01-12-Browser-FP-Head-to-Head.html][Selecting a platform (JavaScript vs Elm vs PureScript vs GHCjs vs Scalajs)]]. ~
Isaac Shapira
+ [[https://codesachin.wordpress.com/2016/04/03/a-practical-introduction-to-functional-programming-for-python-coders/][A practical introduction to Functional Programming for Python coders]]. ~
Sachin Joglekar #FP #Python
+ [[https://www.oreilly.com/ideas/putting-the-science-back-in-data-science][Putting the science back in data science (Best practices and scalable workflows for reproducible data science)]]. ~ D. Whitenack #DataScience
+ [[http://math-blog.com/invasion-of-the-physicists/][Invasion of the physicists]]. ~ John F. McGowan
+ [[http://www.microsiervos.com/archivo/ordenadores/10-algoritmos-frecuentes-entrevistas-trabajos-programacion.html][Los 10 algoritmos más frecuentes que surgen en entrevistas de trabajo de
programación]]. ~ @Alvy #Programación
+ [[http://kseo.github.io//posts/2017-01-19-fun-with-hint.html][Fun with hint]]. ~ Kwang Yul Seo. #Haskell
+ [[http://tooslowexception.com/characterology-of-programmers][Characterology of programmers]]. ~ Konrad Kokosa #Programming
+ [[https://kseo.github.io/posts/2017-01-21-writer-monad.html][Writer monad]]. ~ Kwang Yul Seo. #Haskell
+ [[http://ceur-ws.org/Vol-1782/paper_8.pdf][A verified decision procedure for pseudo-boolean formulas]]. ~ T Philipp, A
Tigunova #Coq #Haskell #Logic
+ [[https://dzone.com/articles/functional-programming-is-not-what-you-probably-th][Functional programming is not what you (probably) think]]. ~ Sean Toner
#FunctionalProgramming
+ [[http://www.snoyman.com/blog/2017/01/stackage-design-choices][Stackage design choices: making Haskell curated package sets]]. ~ Michael
Snoyman. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/inversa-del-factorial][Exercitium: "Inversa del factorial"]]. #Haskell #I1M2016
+ [[http://www.cs.us.es/~fsancho/?e=146][¿Se puede liberar la programación del estilo de von Neumann?]] ~ F. Sancho
#Programación
+ [[http://elpais.com/elpais/2017/01/17/ciencia/1484670954_785850.html][La otra cara del Big Data]]. ~ David Gómez-Ullate #BigData
+ [[https://blogs.scientificamerican.com/roots-of-unity/review-weapons-of-math-destruction][Review: Weapons of Math Destruction]]. ~ Evelyn Lamb #BigData
+ [[https://webtap.princeton.edu/][Princeton Web Transparency & Accountability Project]].
+ [[https://www.reddit.com/r/haskell/comments/5pan74/looking_for_haskell_companies_outside_usa][Looking for Haskell companies outside USA]]. #Haskell
+ [[http://www.asjp.cerist.dz/downPassifArticle/3789][Formal specification by Coq of Date and Darwen's object/relational model]]. ~
A. Benabbou, S.N. Bahloul #Coq
+ [[http://www.glc.us.es/~jalonso/exercitium/sumas-de-dos-capicuas][Exercitium: "Sumas de dos capicúas"]]. #Haskell #I1M2016
+ [[http://www.microsiervos.com/archivo/ordenadores/software-inteligente-x2.html][Software inteligente que aprende a escribir software inteligente]]. ~ @Alvy
#Programación #IA
+ [[https://www.technologyreview.com/s/603381/ai-software-learns-to-make-ai-software/][AI software learns to make AI software]]. ~ Tom Simonite #Programming #IA
+ [[https://www.fpcomplete.com/blog/2017/01/quickcheck][QuickCheck and magic of testing]]. ~ A. Kuleshevich #Haskell
+ [[https://www.isa-afp.org/entries/Bernoulli.shtml][Bernoulli numbers in Isabelle/HOL]]. ~ L. Bulwahn #IsabelleHOL #Math
+ [[http://cmsc-22311.cs.uchicago.edu/2015/lectures.php][Course: Functional systems in Haskell]]. ~ S. Kurtz #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/sustitucion-en-una-posicion][Exercitium: "Sustitución en una posición"]]. #Haskell #I1M2016
+ [[http://perugini.cps.udayton.edu/teaching/courses/Spring2016/cps499/projects/korenewychs1/korenewychs1-paper.pdf][An alpha-beta heuristic implementation of tic-tac-toe in Haskell]]. ~
S.G. Korenewych #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/la-conjetura-de-rodolfo][Exercitium: "La conjetura de Rodolfo"]]. #Haskell #I1M2016
#I1M2016
+ [[http://perugini.cps.udayton.edu/teaching/courses/Spring2016/cps499/projects/volka1/volka1-paper.pdf][Graph algorithms in Prolog]]. ~ A.C. Volk #Prolog #Math
+ [[http://arxiv.org/abs/1701.07127][Interactive proof presentations with Cobra]]. ~ M. Ring, C. Lüth #Cobra
#IsabelleHOL #Haskell #Scala
+ [[https://haskellweekly.news/issues/39.html][Haskell Weekly 39: News from the Haskell community (January 26 2017)]].
#Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/notacion-polaca-inversa][Exercitium: "Notación polaca inversa"]]. #Haskell #I1M2016
consecutivos"]]. #Haskell #I1M2016
+ [[http://www.studiainformatica.polsl.pl/index.php/SI/article/viewFile/790/759][Enumeration of words in context-free languages using Haskell]]. ~ W. Wieczorek
#Haskell
+ [[http://www.dcc.fc.up.pt/dcc/Pubs/TReports/TR13/dcc-2013-06.pdf][Verifying a simple compiler using property-based random testing]]. ~ Pedro
Vasconcelos #Haskell
+ [[https://e.xtendo.org/monad#1][The Monad Fear]]. ~ @xtendo_org #Haskell
+ [[http://www.infoworld.com/article/3155704/java/new-functional-language-for-jvm-builds-on-haskell-clojure-ml.html][Lux: New functional language for JVM builds on Haskell, Clojure, ML]]. ~
@syegulalp #Lux
+ [[https://www.gitbook.com/book/luxlang/the-lux-programming-language/details][The Lux Programming Language]]. #eBook #Lux
+ [[http://cacm.acm.org/news/212583-how-ai-is-changing-software-development/fulltext][How AI is changing software development]]. ~ Esther Shein #Programming #AI
+ [[http://ceur-ws.org/Vol-1785/W38.pdf][Formalization of polynomially bounded and negligible functions using the
computer-aided proof-checking system Mizar]]. ~ H. Okazaki, Y. Futa #Mizar
+ [[https://byorgey.wordpress.com/2017/01/27/advent-of-code-16-solution-an-algebra-of-bitstrings][Advent of code #16 solution: an algebra of bitstrings]]. ~ Brent Yorgey
#Haskell
+ [[http://homepages.inf.ed.ac.uk/wadler/papers/marktoberdorf/baastad.pdf][Monads for functional programming]]. ~ Philip Wadler #Haskell
+ [[https://kseo.github.io/posts/2017-01-27-how-i-learned-haskell.html][How I learned Haskell]]. ~ Kwang Yul Seo. #Haskell
+ [[https://ocharles.org.uk/blog/pages/2014-12-01-24-days-of-ghc-extensions.html][24 days of GHC extensions]]. #Haskell
+ [[https://arxiv.org/abs/1701.07769][Ethical considerations in Artificial Intelligence courses]]. ~ E. Burton et
als.#AI
+ [[http://ceur-ws.org/Vol-1785/F2.pdf][Tarski’s geometry and the euclidean plane in Mizar]]. ~ A. Grabowski,
R. Coghetto. #Mizar
+ [[http://www.cs.nott.ac.uk/~pszgmh/fold.pdf][A tutorial on the universality and expressiveness of fold]]. ~ Graham Hutton
#Haskell
+ [[https://kseo.github.io/posts/2017-01-28-build-your-haskell-project-continuously.html][Build your Haskell project continuously]]. ~ Kwang Yul Seo. #Haskell
+ [[https://www.johndcook.com/blog/2011/02/07/twin-prime-conjecture-pentium-bug/][Twin prime conjecture and the Pentium division bug]]. ~ J.D. Cook. #Math
#CompSci
+ [[http://oshl.edu.umh.es/2016/07/12/software-privativo-y-analfabetismo-informatico/][Software privativo y analfabetismo informático]].
+ [[http://ceur-ws.org/Vol-1785/T2-ThEdu.pdf][Rigor of TP (computer theorem proving) in educational engineering software]]. ~
W. Neuper #ATP
+ [[http://www.cs.nott.ac.uk/~pszgmh/pearl.pdf][Monadic parsing in Haskell]]. ~ G. Hutton, E. Meijer #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/cadena-de-primos][Exercitium: "Cadena de primos"]]. #Haskell #I1M2016
#I1M2016
+ [[http://www.cs.toronto.edu/~hehner/aPToP][A practical theory of programming]]. ~ E.C.R. Hehner #eBook #Programming
+ [[http://www.slideshare.net/GiancarloValente/functional-programming-per-tutti][Functional programming per tutti]]. ~ Giancarlo Valente #FuncionalProgramming
+ [[https://github.com/cem3394/hr-haskell][Solutions to various Haskell problems on HackerRank For Work]]. ~ Chris
Mckinlay. #Haskell
+ [[https://denibertovic.com/posts/haskell-and-docker-down-the-rabbit-hole-and-back][Haskell and Docker: Down the rabbit hole and back]]. ~ Deni Bertovic. #Haskell
+ [[http://ceur-ws.org/Vol-1785/W23.pdf][Initial experiments with statistical conjecturing over large formal
corpora]]. ~ T. Gauthier, C. Kaliszyk, J. Urban #ML #ATP
+ [[http://haskell.cs.yale.edu/wp-content/uploads/2011/02/POPL96-Modular-interpreters.pdf][Monad transformers and modular interpreters]]. ~ S. Liang, P. Hudak, M. Jones
#Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/la-sucesion-mira-y-di][Exercitium: "La sucesión 'Mira y di'"]]. #Haskell #I1M2016
** Febrero 2017
+ [[https://hal.inria.fr/hal-01414753/document][Formal foundations of 3d geometry to model robot manipulators]]. ~ R. Affeldt,
C. Cohen #Coq
+ [[http://www.cs.ru.nl/~W.Swierstra/Publications/DataTypesALaCarte.pdf][Data types à la carte]]. ~ W. Swierstra #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/arboles-continuos][Exercitium: "Árboles continuos"]]. #Haskell #I1M2016
+ [[http://www.practice.geeksforgeeks.org/recent.php][GeeksforGeeks Practice]]: Platform to practice programming problems.
#Programming
+ [[https://www.reddit.com/r/haskell/comments/5rcfyd/haskell_maxims_and_arrows][Haskell maxims and arrows]]. #Haskell
+ [[http://two-wrongs.com/intuition-for-time-complexity-of-algorithms][Intuition for time complexity of algorithms]]. #Algorithms
+ [[http://www.slideshare.net/mendezfe/an-introduction-into-philosophy-of-science-for-software-engineers][An introduction into philosophy of science for software engineers]]. ~ Daniel
Méndez.
+ [[http://philsci-archive.pitt.edu/id/eprint/12782][Meaning, truth, and physics]]. ~ László E. Szabó
+ [[http://ceur-ws.org/Vol-1785/F2.pdf][Tarski’s geometry and the euclidean plane in Mizar]]. ~ A. Grabowski,
R. Coghetto #ITP #Mizar #Math
+ [[https://www.st.cs.uni-saarland.de/edu/seminare/2005/advanced-fp/docs/huet-zipper.pdf][The Zipper]]. ~ G. Huet #OCaml
+ [[http://www.lihaoyi.com/post/WhatsFunctionalProgrammingAllAbout.html][What's functional programming all about?]] ~ Li Haoyi. #FuncionalProgramming
+ [[https://kseo.github.io/posts/2017-01-30-type-level-insertion-sort.html][Type-level insertion sort]]. ~ Kwang Yul Seo. #Haskell
+ [[http://arxiv.org/abs/1701.02401][A linear algebra formulation for boolean satisfiability testing]]. ~ C. Fang,
J. Liu #Logic
+ [[http://www.atamo.com/articles/how-to-read-pearls-by-richard-bird][How to read "Pearls of functional algorithm design"]]. ~ Kim-Ee Yeoh
#FunctionalProgramming #Haskell
+ [[http://www.math3ma.com/mathema/2017/1/17/what-is-category-theory-anyway][What is category theory anyway?]] ~ Tai-Danae Bradley. #Math
+ [[http://www.math3ma.com/mathema/2017/1/23/what-is-a-category][What is a category? Definition and examples]]. ~ Tai-Danae Bradley #Math
+ [[http://www.math3ma.com/mathema/2017/1/31/what-is-a-functor-part-1][What is a functor? Definitions and examples, part 1]]. ~ Tai-Danae Bradley.
#Math
+ [[http://www.math3ma.com/mathema/2017/2/1/what-is-a-functor-part-2][What is a functor? Definitions and examples, part 2]]. ~ Tai-Danae Bradley.
#Math
+ [[https://haskellweekly.news/issues/40.html][Haskell Weekly 40: News from the Haskell community (February 2 2017)]].
#Haskell
+ [[https://hackernoon.com/easing-haskells-intimidating-glare-2341095e88aa#.9pl8imo29][Easing Haskell’s intimidating glare]]. ~ James Bowen #Haskell
+ [[https://mmhaskell.com/blog/2017/1/30/the-easiest-haskell-idiom][The easiest Haskell idiom]]. ~ James Bowen #Haskell
+ [[http://www.kovach.me/posts/2017-01-30-haskell-bits-randomness.html][Haskell Bits #1: Randomness]]. ~ Ben Kovach. #Haskell
+ [[http://www.microsiervos.com/archivo/ciencia/mapa-matematicas.html][El mapa de las matemáticas]]. ~ @Alvy #Matemáticas
+ [[https://www.flickr.com/photos/95869671@N08/32264483720/][Map of Mathematics poster (All of mathematics summarised in one poster)]]. ~
Dominic Walliman #Math
+ [[https://kseo.github.io/posts/2017-02-02-context-reduction.html][Context reduction]]. ~ Kwang Yul Seo. #Haskell
+ [[https://www.isa-afp.org/entries/Key_Agreement_Strong_Adversaries.shtml][Refining authenticated key agreement with strong adversaries]]. ~ J. Lallemand
& C. Sprenger #IsabelleHOL
+ [[http://www.csl.sri.com/users/rushby/slides/gm04.pdf][Software verification/validation methods and tools ... or practical formal
methods]]. ~ John Rushby
+ [[http://www.kovach.me/posts/2017-02-03-haskell-bits-application-beginnings.html][Haskell bits #2: Application beginnings]]. ~ Ben Kovach. #Haskell
+ [[https://medium.com/ai-roadmap-institute/unsolved-problems-in-ai-38f4ce18921d#.kpjy6nmud][Unsolved problems in AI]]. ~ Simon Andersson #AI
+ [[http://binaire.blog.lemonde.fr/2017/02/03/demontrer-sans-donner-la-preuve][Démontrer sans donner la preuve!]] ~ Fabrice Benhamouda #Math #CompSci
+ [[https://github.com/mrkkrp/req][Req: Easy-to-use, type-safe, expandable, high-level HTTP library]]. ~ Mark
Karpov #Haskell
+ [[http://fun.cs.tufts.edu/stream-fusion.pdf][Stream fusion: From lists to streams to nothing at all]]. ~ D. Coutts,
R. Leshchinskiy, D. Stewart #Haskell
+ [[http://tomasp.net/academic/drafts/failures/failures-v2.pdf][Miscomputation in software: Learning to live with errors]]. ~ Tomas Petricek
#Programming
+ [[http://www.kovach.me/posts/2016-06-01-categories.html][Categories in theory and in Haskell]]. ~ Ben Kovach. #Haskell
+ [[http://www.kovach.me/posts/2016-06-08-monoids.html][Monoids in theory and in Haskell]]. ~ Ben Kovach. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/aplicaciones-de-operaciones][Exercitium: Aplicaciones de operaciones]]. #Haskell #I1M2016
+ [[https://www.cs.us.es/~jalonso/cursos/lmf-16/index.php][LMF2017: Curso de "Lógica matemática y fundamentos" (2016-17)]].
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-comienzo-del-curso][LMF2017: Comienzo del curso]].
+ [[http://kovach.me/posts/2014-08-09-twitter.html][Posting to Twitter via HTTP in Haskell]]. ~ Ben Kovach. #Haskell
+ [[https://bartoszmilewski.com/2017/02/06/applicative-functors][Applicative functors]]. ~ Bartosz Milewski. #Haskell
+ [[https://mmhaskell.com/blog/2017/2/6/applicatives-one-step-further][Applicatives: One step further]]. ~ James Bowen #Haskell
+ [[https://deque.blog/2017/02/03/code-your-own-quickcheck][Code your own QuickCheck]]. #Haskell
+ [[https://github.com/alexanderlhicks/IsabelleGuide][A practical guide to formalised mathematics in Isabelle]]. ~ A. Hicks,
J. Siqueira #IsabelleHOL #Math
+ [[http://www.glc.us.es/~jalonso/exercitium/prefijo-con-suma-acotada][Exercitium: Prefijo con suma acotada]]. #Haskell #I1M2016
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-presentacion-del-curso-de-logica-matematica-y-fundamentos][LMF2017: Presentación del curso de "Lógica matemática y fundamentos"]]. #Lógica
+ [[http://www.joachim-breitner.de/blog/717-Why_prove_programs_equivalent_when_your_compiler_can_do_that_for_you_][Why prove programs equivalent when your compiler can do that for you?]] ~
Joachim Breitner. #Haskell
+ [[http://mathforum.org/isaac/mathhist.html][Famous problems in the history of Mathematics]]. ~ Isaac Reed #Math
+ [[https://kseo.github.io/posts/2017-02-06-reified-dictionaries.html][Reified dictionaries]]. ~ Kwang Yul Seo. #Haskell
+ [[http://arxiv.org/abs/1702.01135][Reluplex: An efficient SMT solver for verifying deep neural networks]]. ~
G. Kat et als. #SMT
+ [[http://kovach.me/posts/2014-08-04-markov-chains.html][Modeling and simulating Markov chain evolution]]. ~ Ben Kovach. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/caminos-desde-la-raiz-en-un-arbol-binario][Exercitium: Caminos desde la raíz en un árbol binario]]. #Haskell #I1M2016
+ [[https://www.schoolofhaskell.com/school/starting-with-haskell/basics-of-haskell/the-tao-of-monad][The TAO of monad]]. ~ Bartosz Milewski. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-matrices-en-haskell][I1M2016: Matrices en Haskell]]. #Haskell #Matemáticas
+ [[https://www.math.ias.edu/vladimir/sites/math.ias.edu.vladimir/files/2014_08_27_NUS.pdf][Computer proof assistants (the future of mathematics)]]. ~ Vladimir Voevodsky
#ITP #Math
+ [[https://www.isa-afp.org/browser_info/current/AFP/Berlekamp_Zassenhaus/document.pdf][The factorization algorithm of Berlekamp and Zassenhaus]]. ~ J. Divasón et
als. #IsabelleHOL #Math
+ [[https://www.johndcook.com/blog/2017/02/07/tidying-up-trivial-details/][Tidying up trivial details (the value of abstract mathematics)]]. ~ J.D. Cook.
#Math
+ [[http://www.cs.nott.ac.uk/~pszgmh/fifty.pdf][Functional pearl: Compiling a fifty year journey]]. ~ G. Hutton, P. Bahr
#Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/maximo-comun-divisor-de-x-e-y-veces-n][Exercitium: Máximo común divisor de x e y veces n]]. #Haskell #I1M2016
+ [[http://www.glc.us.es/~jalonso/exercitium/caminos-en-un-arbol-binario-con-suma-dada][Exercitium: Caminos en un árbol binario con suma dada]]. #Haskell #I1M2016
+ [[https://haskellweekly.news/issues/41.html][Haskell Weekly 41: News from the Haskell community (February 9 2017)]].
#Haskell
+ [[https://andyshiue.github.io/functional/programming/2017/02/06/monad.html][Monads in category theory for laymen]]. ~ AndyShiue #Haskell
+ [[https://blogs.msdn.microsoft.com/commandline/2017/02/09/haskell-on-bashwsl/][Haskell on Bash/WSL]]. ~ Rich Turner #Haskell
+ [[https://www.isa-afp.org/entries/Stone_Relation_Algebras.shtml][Stone relation algebras in Isabelle/HOL]]. ~ W. Guttmann #ITP #IsabelleHOL
#Math
+ [[https://deque.blog/2017/02/06/code-your-own-quickcheck-hof/][Code your own QuickCheck (HOF)]]. Part 2 #Haskell
+ [[http://cacm.acm.org/careers/213247-supercomputers-for-quantum-computers][Supercomputers for quantum computers]].
+ [[https://stackbuilders.com/tutorials/haskell/generics][GHC generics explained]]. ~ M. Karpov #Haskell
+ [[https://github.com/thorlucas/Sandpiles][Haskell implementation of the Abelian sandpile model using Gloss]]. #Haskell
#Gloss
+ [[https://code.world/haskell#PUA5SiqJxCnMvFgl9eua8Ew][Haskell implementation of the Abelian sandpile model using CodeWorld]]. ~
C. Smith #Haskell #CodeWorld
+ [[http://www.mat.unb.br/ayala/EVENTS/11SemInf2013Mauricio.pdf][Computational logic for computer science]]. ~ M. Ayala-Rincón & F.L.C. de Moura
#Logic
+ [[http://www.di.unito.it/~padovani/Didattica/ProgrammazioneFunzionale/lnhp.pdf][Lecture notes on Haskell programming]]. ~ L. Padovani #Haskell
+ [[http://www.cs.ox.ac.uk/people/jeremy.gibbons/publications/spigot.pdf][Unbounded spigot algorithms for the digits of pi]]. ~ J. Gibbons #Haskell #Math
#Pi
+ [[http://www.cs.umb.edu/~offner/files/pi.pdf][Computing the digits in π]]. ~ C.D. Offner #Math #Algorithms #Pi
+ [[ftp://ftp.irit.fr/IRIT/ACADIE/IRIT-RR-2017-01-FR.pdf][A formal study of boolean games with random formulas as pay functions]]. ~
E. Martin-Dorel & S. Soloviev #ITP #Coq
+ [[https://arunraghavan.net/2017/02/stricter-json-parsing-with-haskell-and-aeson][Stricter JSON parsing with Haskell and Aeson]]. ~ A. Raghavan #Haskell
+ [[http://shhaumb.github.io/arithmetical-theorems-with-lambda-calculus][Arithmetical theorems with Lambda Calculus]]. ~ Shubham Jain #Haskell
+ [[https://elephly.net/posts/2017-01-09-bootstrapping-haskell-part-1.html][Bootstrapping Haskell]]. ~ rekado #Haskell
+ [[https://deque.blog/2017/02/10/code-your-own-quickcheck-shrink][Code your own QuickCheck (Shrink)]]. ~ DeQue #Haskell
+ [[http://elpaissemanal.elpais.com/documentos/la-inteligencia-artificial][El cerebro artificial que piensa por ti]]. ~ Joseba Elola #IA
+ [[http://elpais.com/elpais/2017/02/10/ciencia/1486759726_219935.html][Cuando políticos de EE UU decidieron que el número pi era 3,2]]. ~ M. Ansede
#Matemáticas
+ [[http://nbviewer.jupyter.org/github/akittas/presentations/blob/master/pythess/func_py/func_py.ipynb][Using functional programming in Python like a boss: generators, iterators and decorators]]. #Python
+ [[https://github.com/danielSanchezQ/FP-Programming-Python-Madrid][Programación funcional en Python]]. ~ D. Sánchez #Python
+ [[https://people.mpi-inf.mpg.de/~jblanche/compl2.pdf][Soundness and completeness proofs by coinductive methods]]. ~ J. C. Blanchette,
A. Popescu, D. Traytel #IsabelleHOL #Logic
+ [[https://www.isa-afp.org/entries/Abstract_Soundness.shtml][Abstract soundness in Isabelle/HOL]].~ J. C. Blanchette, A. Popescu, D. Traytel
#IsabelleHOL #Logic
+ [[http://stefan-klinger.de/files/monadGuide.pdf][The Haskell programmer’s guide to the IO Monad (don’t panic)]]. ~ S. Klinger
#Haskell #Math
+ [[http://www.glc.us.es/~jalonso/exercitium/calculo-de-pi-usando-el-producto-de-wallis][Exercitium: Cálculo de pi usando el producto de Wallis]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-sintaxis-y-semantica-de-la-logica-proposicional][LMF2017: Sintaxis y semántica de la lógica proposicional]]. #Lógica
+ [[http://www.glc.us.es/~jalonso/exercitium/calculo-de-pi-usando-la-formula-de-vieta][Exercitium: Cálculo de pi usando la fórmula de Vieta]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-sintaxis-y-semantica-de-la-logica-proposicional-2][LMF2017: Sintaxis y semántica de la lógica proposicional (2)]]. #Lógica
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-deduccion-natural-proposicional-1][LMF2017: Deducción natural proposicional (1)]]. #Lógica
+ [[https://www.isa-afp.org/entries/Differential_Dynamic_Logic.shtml][Differential dynamic logic]]. ~ B. Bohrer #IsabelleHOL #Logic
+ [[http://kovach.me/posts/2017-02-08-connecting-to-databases.html][Haskell bits #3: Connecting to databases]]. ~ Ben Kovach. #Haskell
+ [[https://www.fpcomplete.com/blog/2016/11/mastering-time-to-market-haskell][Mastering time-to-market with Haskell]]. ~ Chris Done. #Haskell
+ [[https://deque.blog/2017/02/14/quickcheck-in-action][Playing with QuickCheck on an arithmetic DSL]]. ~ DeQue #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/busqueda-en-los-digitos-de-pi][Exercitium: Búsqueda en los dígitos de pi]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-las-librerias-de-vectores-y-matrices][I1M2016: Las librerías de vectores y matrices]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-calculo-numerico-en-haskell][I1M2016: Cálculo numérico en Haskell]]. #Haskell #Matemáticas
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-sintaxis-de-la-logica-proposicional-y-representacion-del-conocimiento][LMF2017: Ejercicios de sintaxis y semántica de la lógica proposicional y
representación del conocimiento]]. #Lógica
+ [[http://arxiv.org/abs/1702.04478][VMDV: A 3D visualization tool for modeling, demonstration, and
verification]]. ~ Jian Liu et als. #ATP #ITP
+ [[https://docs.google.com/presentation/d/1a4GvI0dbL8sfAlnTUwVxhq4_j-QiDlz02_t0XZJXnzY/preview#slide=id.p][How to sell excellence]]. ~ Michael O. Church #Haskell
+ [[http://philsci-archive.pitt.edu/12823/1/THOUGHT%20EXPERIMENTS%20IN%20MATHEMATICS.pdf][Thought experiments in mathematics]]. ~ I. Starikova & M. Giaquinto #Math
+ [[http://www.glc.us.es/~jalonso/exercitium/distribucion-de-digitos-de-pi][Exercitium: Distribución de dígitos de pi]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/sucesion-de-trazas-de-digitos-de-pi][Exercitium: Sucesión de trazas de dígitos de pi]]. #Haskell
+ [[http://teh.id.au/posts/2017/02/13/interactive-print/index.html][Replacing GHCi's pretty-printer]]. ~ Tim Humphries #Haskell
+ [[https://functor.tokyo/blog/2017-02-17-xml-html-qq][Quasiquoters for XML and HTML documents in Haskell]]. ~ Dennis Gosnell.
#Haskell
+ [[https://www.microsoft.com/en-us/research/wp-content/uploads/2016/11/trees-that-grow-2.pdf][Trees that grow]]. ~ S. Najd & Simon Peyton Jones #Haskell
+ [[http://www.snoyman.com/blog/2017/02/better-exception-messages][Better exception messages]]. ~ Michael Snoyman. #Haskell
+ [[https://deque.blog/2017/02/17/quickcheck-is-fun-deal-with-it][QuickCheck is fun, deal with it]]. ~ DeQue #Haskell
+ [[https://arxiv.org/pdf/1702.03277][Local lexing]]. ~ S. Obua, P. Scott & J. Fleuriot #IsabelleHOL
+ [[http://osl.ugr.es/CTAN/info/spanish/guia-atx/guia-atx.pdf][Creación de ficheros LaTeX con GNU Emacs]]. ~ Joaquín Ataz López #LaTeX #Emacs
+ [[http://www.numberworld.org/y-cruncher/][y-cruncher: A multi-threaded pi-program]]. ~ Alexander J. Yee #Math #Programming #Pi
+ [[http://arxiv.org/abs/1702.05383][Theorem proving based on semantics of DNA strand graph]]. ~ K.S. Ray & M. Mondal #ATP
+ [[http://www.euterpea.com][Euterpea: A Haskell library for music creation]]. #Haskell #Music
+ [[http://haskellexists.blogspot.com.es/2017/02/ten-example-uses-of-monads.html][Ten example uses of Monads]]. ~ Philipp Schuster #Haskell
+ [[http://www.cs.us.es/~fsancho/?e=165][Entrenamiento de redes neuronales: mejorando el gradiente descendiente]]. ~
F. Sancho #IA
+ [[http://www.haskellforall.com/2017/02/the-curry-howard-correspondence-between.html][The Curry-Howard correspondence between programs and proofs]]. ~ G. Gonzalez
#Haskell #Logic
+ [[http://www.glc.us.es/~jalonso/exercitium/regresion-lineal][Exercitium: Regresión lineal]]. #Haskell
+ [[https://briansteffens.github.io/2017/02/20/from-math-to-machine.html][From math to machine: translating a function to machine code]]. ~ Brian
Steffens. #Haskell #Math
+ [[https://github.com/libreim/curryHoward/blob/master/CurryHoward.pdf][El isomorfismo de Curry-Howard y una introducción a Coq]]. ~ M. Román #Lógica
#Coq
+ [[http://www.cs.us.es/~fsancho/?e=166][La tiranía de las publicaciones]]. ~ F. Sancho. #Investigación
+ [[https://mmhaskell.com/blog/2017/2/20/how-to-read-and-write-with-monads][How to read and write (with monads!)]] ~ James Bowen._OWA #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/calculo-de-pi-mediante-la-variante-de-euler-de-la-serie-armonica][Exercitium: Cálculo de pi mediante la variante de Euler de la serie armónica]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/exercitium/calculo-de-pi-mediante-la-fraccion-continua-de-lange][Exercitium: Cálculo de pi mediante la fracción continua de Lange]]. #Haskell
+ [[http://production.datastore.cvt.dk/oafilestore?oid=57de73be1f4bfa107d000031&targetid=57de73bf1f4bfa107d000033][Development and verification of a proof assistant]]. ~ A.B. Jensen. #Thesis
#Logic #IsabelleHOL
+ [[http://ims.nus.edu.sg/preprints/2017-05.pdf][To be or not to be constructive (that is not the question)]]. ~ Sam Sanders
#Math #Logic
+ [[http://arxiv.org/abs/1702.06334][Synthesizing imperative programs for introductory programming assignments]]. ~
Sunbeom So, Hakjoo Oh #Programming
+ [[http://fgiasson.com/blog/index.php/2016/06/21/optimal-emacs-settings-for-org-mode-for-literate-programming][Optimal Emacs settings for org-mode for literate programming]]. ~ F. Giasson
#Emacs #Programming
+ [[https://github.com/zk-phi/magic-latex-buffer][Emacs magical syntax highlighting for LaTeX-mode buffers]]. #LaTeX #Emacs
+ [[https://ekaschalk.github.io/post/prettify-mode/][Mathematical notation in Emacs]]. ~ Eric Kaschalk #Emacs
+ [[https://medium.com/the-theam-journey/effective-array-computation-in-haskell-11e5c334c68a#.af55e6ry7][Effective array computation in Haskell (Because we all want highly performant
and beautiful code)]]. ~ Samuel Schlesinger #Haskell #Math
+ [[http://crypto.stanford.edu/~blynn/haskell/ga.html][All hail geometric algebra!]] ~ Ben Lynn #Haskell #Math
+ [[http://crypto.stanford.edu/~blynn/haskell/enigma.html][From Atbash to Enigma: 2500 years of cryptography in a few lines of
Haskell]]. ~ Ben Lynn #Haskell #Cryptography
+ [[http://markbucciarelli.com/2017-02-21_hello_elm_and_haskell.html][Hello Elm and Haskell!]] ~ Mark Bucciarelli. #Elm #Haskell
+ [[https://sourceforge.net/blog/february-2017-community-choice-project-of-the-month-maxima][Maxima was elected as the Sourceforge February 2017 Community Project of the
Month]]. #Maxima #Math
+ [[http://www.glc.us.es/~jalonso/exercitium/calculo-de-pi-mediante-los-metodos-de-gregory-leibniz-y-de-beeler][Exercitium: Cálculo de pi mediante los métodos de Gregory-Leibniz y de Beeler]]. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-ejercicios-sobre-vectores-y-matrices-con-las-librerias][I1M2016: Ejercicios sobre vectores y matrices con las librerías]]. #Haskell #Matemáticas
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-estadistica-descriptiva-en-haskell][I1M2016: Estadística descriptiva en Haskell]]. #Haskell #Matemáticas #Estadística
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-calculo-simbolico-con-maxima][I1M2016: Cálculo simbólico con Maxima]]. #Maxima
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-logica-y-programacion][LMF2017: Lógica y programación]]. #Lógica #Programación
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-deduccion-natural-proposicional-2][LMF2017: Deducción natural proposicional (2)]]. #Lógica #IsabelleHOL
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-ejercicios-de-deduccion-natural-proposicional-con-pandora][LMF2017: Ejercicios de deducción natural proposicional con Pandora]]. #Lógica
+ [[http://www.glc.us.es/~jalonso/vestigium/lmf2017-deduccion-natural-proposicional-con-isabellehol][LMF2017: Deducción natural proposicional con Isabelle/HOL]]. #Lógica
#IsabelleHOL
+ [[http://www.glc.us.es/~jalonso/exercitium/calculo-de-pi-mediante-el-metodo-de-newton][Exercitium: Cálculo de pi mediante el método de Newton]]. #Haskell
+ [[http://crypto.stanford.edu/~blynn/haskell][Haskell sorcery]]. ~ Ben Lynn #Haskell
+ [[http://queue.acm.org/detail.cfm?id=3055303][Making money using math: Modern applications are increasingly using probabilistic machine-learned models]]. ~ E. Meijer
+ [[http://www.microsiervos.com/archivo/ia/inteligencia-artificial-programa-robando-codigo-otros-programas.html][Inteligencia artificial que programa robando código de otros programas]]. ~
Nacho Palou. #IA
+ [[https://www.newscientist.com/article/mg23331144-500-ai-learns-to-write-its-own-code-by-stealing-from-other-programs][AI learns to write its own code by stealing from other programs]]. ~ Matt
Reynolds #AI
+ [[http://softlang.uni-koblenz.de/book/languages.pdf][The notion of software language]]. ~ Ralf Lämmel
+ [[http://kovach.me/posts/2017-02-22-environment-variables.html][Haskell Bits #4: Environment variables]]. ~ Ben Kovach. #Haskell
+ [[http://www.glc.us.es/~jalonso/vestigium/i1m2016-introduccion-a-la-programacion-con-maxima][I1M2016: Introducción a la programación con Maxima]]. #Programación #Maxima
+ [[https://arxiv.org/pdf/1702.04603][Relational convolution, generalised modalities and incidence algebras]]. ~
B. Dongol, I.J. Hayes, G. Struth #IsabelleHOL
+ [[https://byorgey.wordpress.com/2017/02/24/signed-sets-and-ballots-part-2/][Signed sets and ballots, part 2]]. ~ Brent Yorgey #Haskell
+ [[http://crypto.stanford.edu/~blynn/haskell/brute.html][Brute force for beginners]]. ~ Ben Lynn #Haskell
+ [[http://crypto.stanford.edu/~blynn/play][Browser games in Haskell]]. ~ Ben Lynn #Haskell #Games
+ [[http://crypto.stanford.edu/~blynn/haskell/io.html][A problem with I/O]]. ~ Ben Lynn #Haskell
+ [[http://www.stat.umn.edu/geyer/3701/notes/basic.pdf][Basics of R]]. ~ Charles J. Geyer #Rstats
+ [[http://www.hansdieterhiep.nl/tutorials/model-checking-an-introduction-to-bisimulation/][Model checking: an introduction to bisimulation]]. ~ Hans-Dieter Hiep
#Haskell
+ [[https://youtu.be/