CR-Sparse is a Python library that enables efficiently solving a wide variety of sparse representation based signal processing problems. It is a cohesive collection of sub-libraries working together. Individual sub-libraries provide functionalities for: wavelets, linear operators, greedy and convex optimization based sparse recovery algorithms, subspace clustering, standard signal processing transforms, and linear algebra subroutines for solving sparse linear systems. It has been built using Google JAX, which enables the same high level Python code to get efficiently compiled on CPU, GPU and TPU architectures using XLA.

For detailed documentation and usage, please visit online docs.

For theoretical background, please check online notes at Topics in Signal Processing and references therein (still under development).

CR-Sparse is part of CR-Suite.

Related libraries:

• CR-Nimble
• CR-Wavelets

CR-Sparse can run on any platform supported by JAX. We have tested CR-Sparse on Mac and Linux platforms and Google Colaboratory.

• The latest code in the library has been tested against JAX 0.4.

JAX is not officially supported on Windows platforms at the moment. Although, it is possible to build it from source using Windows Subsystems for Linux. Alternatively, you can check out the community supported Windows build for JAX available from https://github.com/cloudhan/jax-windows-builder. This seems to work well and all the unit tests in the library have passed on Windows also.

Installation from PyPI:

python -m pip install cr-sparse

Directly from our GITHUB repository:

python -m pip install git+https://github.com/carnotresearch/cr-sparse.git

See the examples gallery in the documentation. Here is a small selection of examples:

• Sparse recovery using Truncated Newton Interior Points Method
• Sparse recovery with ADMM
• Compressive sensing operators
• Image deblurring with LSQR and FISTA algorithms
• Deconvolution of the effects of a Ricker wavelet
• Wavelet transform operators
• CoSaMP step by step

A more extensive collection of example notebooks is available in the companion repository. Some micro-benchmarks are reported here.

• Contribution Guidelines
• Code of Conduct

To cite this library:

@article{Kumar2021,
  doi = {10.21105/joss.03917},
  url = {https://doi.org/10.21105/joss.03917},
  year = {2021},
  publisher = {The Open Journal},
  volume = {6},
  number = {68},
  pages = {3917},
  author = {Shailesh Kumar},
  title = {CR-Sparse: Hardware accelerated functional algorithms for sparse signal processing in Python using JAX},
  journal = {Journal of Open Source Software}
}

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