Navid C. Constantinou's repositories
TurbulentWords.jl
Make turbulence with words
Imaginocean.jl
A visualization package for Oceananigans.jl fields.
ConceptualClimateModels.jl
ConceptualClimateModels.jl is a Julia package for creating and analysing conceptual models of climate, such as energy balance models, glaciation cycle models, or climate tipping models.
navidcy.github.io
My personal website: www.navidconstantinou.com
NavidVitae
My vitae
TurbulentImages.jl
Images of turbulence. Wait no, is it turbulence of images?
BifurcationKitDocs.jl
Documentation for BifurcationKit.jl
dhruvbhagtani.github.io
A beautiful, simple, clean, and responsive Jekyll theme for academics
Distances.jl
A Julia package for evaluating distances (metrics) between vectors.
Documenter.jl
A documentation generator for Julia.
ExtensionsExt.jl
Some boilerplate functions for pkg extensions
FeynmanDiagram.jl
Computational graph representation of multiloop Feynman diagrams
HarmonicBalance.jl
A Julia package for solving nonlinear differential equations using the harmonic balance method.
idealised-ASC
Jupyter notebooks to reproduce figures for paper
Makie.jl
Interactive data visualizations and plotting in Julia
MOM6-AnalysisCookbook
recipes to work with MOM6 data
Oceananigans.jl
🌊 Fast and friendly fluid dynamics on CPUs and GPUs
oliviaguest.github.io
My personal website
pyHorizontalConvection
Dedalus scripts for horizontal convection simulations
SurfaceFluxes.jl
A package for computing surface fluxes between the atmosphere, ocean and land models.
topographic-NIWs
This repository hosts the material for the manuscript titled "Topographically-generated near-internal waves as a response to winds over the ocean surface
varying-surface-forcing
A set of Jupyter notebooks used to produce figures for the paper: "Surface heating steers planetary-scale ocean circulation" (can be accessed through https://www.navidconstantinou.com/publications/buoyancygyres.pdf)
WaterLily.jl
Fast and simple fluid simulator in Julia
wetbulb.github.io
Host website for Pale Blue Dot challenge
xinvert
Invert geophysical fluid dynamic problems (elliptic partial differential equations) using SOR iteration method.