Metadata-Version: 2.1
Name: rapids_singlecell
Version: 0.5.1
Summary: running single cell analysis on Nvidia GPUs
Author: Severin Dicks
Requires-Python: >=3.8
Description-Content-Type: text/markdown
Requires-Dist: anndata>=0.7.4
Requires-Dist: numpy>=1.17.0
Requires-Dist: decoupler>=1.3.2
Requires-Dist: scipy>=1.4
Requires-Dist: pandas>=1.0
Requires-Dist: natsort
Requires-Dist: scikit-misc>=0.1.3
Requires-Dist: matplotlib>=3.4
Requires-Dist: seaborn
Requires-Dist: tqdm
Requires-Dist: cudf-cu11 ; extra == "rapids"
Requires-Dist: cuml-cu11 ; extra == "rapids"
Requires-Dist: cugraph-cu11 ; extra == "rapids"
Project-URL: Source, https://github.com/Intron7/rapids_singlecell
Provides-Extra: rapids

# rapids-singlecell

## Background
This repository offers some tools to make analyses of single cell datasets faster by running them on the GPU. 
The functions are analogous versions of functions that can be found within [scanpy](https://github.com/scverse/scanpy) from the Theis lab or functions from [rapids-single-cell-examples](https://github.com/clara-parabricks/rapids-single-cell-examples) created by the Nvidia RAPIDS team. Most functions are kept close to the original code to ensure compatibility. My aim with this repository was to use the speedup that GPU computing offers and combine it with the ease of use from scanpy.

## Installation
### Conda
The easiest way to install *rapids-singlecell* is to use one of the *yaml* file provided in the [conda](https://github.com/Intron7/rapids_singlecell/tree/main/conda) folder. These *yaml* files install everything needed to run the example notbooks and get you started.
```
conda env create -f conda/rsc_rapids_22.12.yml
# or
mamba env create -f conda/rsc_rapids_23.02a.yml
```
### PyPI
As of version 0.4.0 *rapids-singlecell* is now on PyPI.
```
pip install rapids-singlecell
```
The default installer doesn't cover RAPIDS nor cupy. Information on how to install RAPIDS & cupy can be found [here](https://rapids.ai/start.html).

If you want to use RAPIDS new PyPI packages, the whole library with all dependencies can be install with:
````
pip install 'rapids-singlecell[rapids]' --extra-index-url=https://pypi.ngc.nvidia.com
````
Please note that the RAPIDS PyPI packages are still considered experimental. It is important to ensure that the CUDA environment is set up correctly so that RAPIDS and Cupy can locate the necessary libraries.

To view a full guide how to set up a fully functioned single cell GPU accelerated conda environment visit [GPU_SingleCell_Setup](https://github.com/Intron7/GPU_SingleCell_Setup)

## Documentation

Please have a look through the [documentation](https://rapids-singlecell.readthedocs.io/en/latest/)


## Citation

If you use this code, please cite: [![DOI](https://zenodo.org/badge/364573913.svg)](https://zenodo.org/badge/latestdoi/364573913)

Please also consider citing: [rapids-single-cell-examples](https://zenodo.org/badge/latestdoi/265649968) and  [scanpy](https://doi.org/10.1186/s13059-017-1382-0)

In addition to that please cite the methods' original research articles in the [scanpy documentation](https://scanpy.readthedocs.io/en/latest/references.html)

If you use the accelerated decoupler functions please cite [decoupler](https://doi.org/10.1093/bioadv/vbac016)

## Notebooks
To show the capability of these functions, I created two example notebooks evaluating the same workflow running on the CPU and GPU. These notebooks should run in the environment, that is described in Requirements. First, run the `data_downloader` notebook to create the AnnData object for the analysis. If you run both `demo_cpu` and `demo_gpu` you should see a big speedup when running the analyses on the GPU.

## Benchmarks

Here are some benchmarks. I ran the notebook on the CPU with as many cores as were available where possible. 

|Step                          |CPU (Ryzen 5950x, 32 Cores, 64GB RAM)|GPU (RTX 3090)|CPU (AMD Eypc Rome, 30 Cores, 500GB RAM)| GPU (Quadro RTX 6000)|GPU (A100 80GB)|
|------------------------------|---------------------------|--------------|----------|--------------|----------------|
|whole Notebook                | 728 s                     | 43 s         | 917 s    | 67 s         | 57 s           |
|Preprocessing                 | 75 s                      | 21 s         | 40 s     | 34 s         | 30 s           |
|Clustering and Visulatization | 423 s                     | 18 s         | 524 s    | 27 s         | 21 s           |
|Normalize_total               | 252 ms                    | > 1ms        | 425 ms   | 1 ms         | 1 ms           |
|Highly Variable Genes         | 3.2 s                     | 2.6 s        | 4.1 s    | 2.7 s        | 3.7 s          |
|Regress_out                   | 63 s                      | 2 s          | 24 s     | 2 s          | 2 s            |
|Scale                         | 1.3 s                     | 299 ms       | 2 s      | 2  s         | 359 ms         |
|PCA                           | 26 s                      | 1.8 s        | 23 s     | 3.6 s        | 2.6 s          |
|Neighbors                     | 10 s                      | 5 s          | 16.8 s   | 8.1  s       | 6 s            |
|UMAP                          | 30 s                      | 659 ms       | 66 s     | 1 s          | 783 ms         |
|Louvain                       | 16 s                      | 121 ms       | 20 s     | 214 ms       | 201 ms         |
|Leiden                        | 11 s                      | 102 ms       | 20 s     | 175 ms       | 152 ms         |
|TSNE                          | 240 s                     | 1.4 s        | 319 s    | 1.8 s        | 1.4 s          |
|Logistic_Regression           | 74 s                      | 4 s          | 45 s     | 5 s          | 3.4 s          |
|Diffusion Map                 | 715 ms                    | 259 ms       | 747 ms   | 431 ms       | 826 ms         |
|Force Atlas 2                 | 207 s                     | 236 ms       | 300 s    | 298 ms       | 353 ms         |

I also observed that the first GPU run in a new enviroment is slower than the runs after that (with a restarted kernel) (RTX 6000).

