femr 0.1.3

Framework for Electronic Medical Records. A python package for building models using EHR data.

FEMR

Framework for Electronic Medical Records

FEMR is a python package for building models using EHR data.

FEMR offers the following four main types of functionality. In order, they are the ability to:

1. Convert EHR and claims data into a common schema, where each patient is associated with a timeline of events extracted from the EHR
2. Apply labeling functions on that schema in order to derive labels for each patient
3. Apply featurization schemes to obtain feature matrices for each patient
4. Perform other common tasks necessary for research with EHR data

Installation

To install FEMR run the following, replacing <FEMR_ENV> with the desired name of your conda environment:

conda create -n FEMR_ENV python=3.10 bazel=6 -c conda-forge -y
conda activate FEMR_ENV

export BAZEL_USE_CPP_ONLY_TOOLCHAIN=1

git clone https://github.com/som-shahlab/femr.git
cd femr
pip install -e .

Dependencies for Training CLMBR

The tutorial to run CLMBR model is in tutorials/4_train_clmbr_model.py. However, before running this script, some additional dependencies need to be installed. Please follow the steps below:

1. Jax is one of the important package to train clmbr, but before installing that, you will need to have cuda and cudnn installed. For Nero users, please follow the instructions above to install cuda. Additionally, install the latest version of cudnn from nvidia. You will need to create developer account and download the file for specific version of your system. For Nero users, please go to this link and download the file Download cuDNN v8.7.0 (November 28th, 2022), for CUDA 11.x -> Local Installer for Linux x86_64 (Tar) on your local computer and transfer it over to your local folder in nero. Then follow the instruction here section 1.3. Note that you need to copy over cudnn files to your local cuda. For example,

• cp cudnn-*-archive/include/cudnn*.h <path_to_your_cuda>/include
• cp -P cudnn-*-archive/lib/libcudnn* <path_to_your_cuda>/lib64
• chmod a+r <path_to_your_cuda>/include/cudnn*.h <path_to_your_cuda>/lib64/libcudnn*

2. Install Jax by running pip install --upgrade "jax[cuda]" -f https://storage.googleapis.com/jax-releases/jax_cuda_releases.html, as shown here.
3. Run pip install -e .[models]

Special note for NERO users

As Nero does not have internet access, you must run the following before running the code below.

export DISTDIR=/local-scratch/nigam/distdir

(Optional) Installing CUDA on Nero / Carina

As a side note for Nero/Carina users, do not use your home directory to save the femr repo and installation files due to limited storage. We recommend using the shared project folder, e.g., on nero, use '/local-scratch/nigam/project/...'

If you are using Nero, you will need to install CUDA manually until the CUDA version on Nero is updated. To do so, follow these steps:

1. Download version 11.1.1 of CUDA onto your local machine from here
2. Copy your CUDA download from your local machine onto Nero, into whatever folder you'd like. We'll refer to the path to this folder as <PATH_TO_CUDA_INSTALLER> from now on.
   • Note: Nero doesn't work with scp. You can use an alternative like pscp, which functions basically identically to scp. You can install pscp on a Mac by using brew install putty.
3. ssh into Nero using ssh <username>@nero-nigam.compute.stanford.edu
4. On Nero, run the CUDA installer as a bash command as follows: bash <PATH_TO_CUDA_INSTALLER> --installpath=<INSTALL_PATH>, where <PATH_TO_CUDA_INSTALLER> is the path to the file you downloaded/transferred in Step #2, and <INSTALL_PATH> is where you'd like to save your CUDA installation files. We recommend using ~ or something similar.
5. The CUDA installer will pop-up a window during installation. Uncheck all of the boxes it presents except for the box labeled "cuda toolkit".
6. After the installation completes, the installer will print out two paths to your console. Take note of these paths, and copy them into your .bashrc file by running the following commands.

You may need to restart your terminal for the changes to be reflected.

export PATH="<INSTALL_PATH>/bin:$PATH"
export LD_LIBRARY_PATH="<INSTALL_PATH>/lib64:$LD_LIBRARY_PATH"

To write in a .bashrc file, use

nano ~/.bashrc

7. Run rm /tmp/cuda-installer.log to remove the installer log (if you don't do this, it will cause a segmentation fault for other users when they try to install CUDA).

Development

The following guides are for developers who want to contribute to FEMR.

Precommit checks

Before committing, please run the following commands to ensure that your code is formatted correctly and passes all tests.

Installation

conda install pre-commit pytest -y
pre-commit install

Running

Test Functions

pytest tests

Formatting Checks

pre-commit run --all-files

Miscellaneous

GZIP decompression commands

export OMOP_SOURCE=/share/pi/nigam...
gunzip $OMOP_SOURCE/**/*.csv.gz

Zstandard compression commands

export OMOP_SOURCE=/share/pi/nigam...
zstd -1 --rm $OMOP_SOURCE/**/*.csv

Generating extract

# Set up environment variables
#   Path to a folder containing your raw STARR-OMOP download, generated via `tools.stanford.download_bigquery.py`
export OMOP_SOURCE=/path/to/omop/folder...
#   Path to any arbitrary folder where you want to store your FEMR extract
export EXTRACT_DESTINATION=/path/to/femr/extract/folder...
#   Path to any arbitrary folder where you want to store your FEMR extract logs
export EXTRACT_LOGS=/path/to/femr/extract/logs...

# Do some data preprocessing with Stanford-specific helper scripts
#   Extract data from flowsheets
python tools/stanford/flowsheet_cleaner.py --num_threads 5 $OMOP_SOURCE "${EXTRACT_DESTINATION}_flowsheets"
#   Normalize visits
python tools/omop/normalize_visit_detail.py --num_threads 5 "${EXTRACT_DESTINATION}_flowsheets" "${EXTRACT_DESTINATION}_flowsheets_detail"

# Run actual FEMR extraction
etl_stanford_omop "${EXTRACT_DESTINATION}_flowsheets_detail" $EXTRACT_DESTINATION $EXTRACT_LOGS --num_threads 10

Example usage (Note: This should take ~10 minutes on a 1% extract of STARR-OMOP)

export OMOP_SOURCE=/local-scratch/nigam/projects/ethanid/som-rit-phi-starr-prod.starr_omop_cdm5_deid_1pcent_2022_11_09
export EXTRACT_DESTINATION=/local-scratch/nigam/projects/mwornow/femr_starr_omop_cdm5_deid_1pcent_2022_11_09
export EXTRACT_LOGS=/local-scratch/nigam/projects/mwornow/femr_starr_omop_cdm5_deid_1pcent_2022_11_09_logs

python tools/stanford/flowsheet_cleaner.py --num_threads 5 $OMOP_SOURCE "${EXTRACT_DESTINATION}_flowsheets"
python tools/omop/normalize_visit_detail.py --num_threads 5 "${EXTRACT_DESTINATION}_flowsheets" "${EXTRACT_DESTINATION}_flowsheets_detail"

etl_stanford_omop "${EXTRACT_DESTINATION}_flowsheets_detail" $EXTRACT_DESTINATION $EXTRACT_LOGS --num_threads 10

(Optional) Installing PyTorch

If you are on Nero, you need to install PyTorch using:

conda install numpy -y
pip install torch==1.12.0 torchvision==0.13.0 torchaudio==0.12.0 --extra-index-url https://download.pytorch.org/whl/cu111

If you are on Carina, you need to install PyTorch using:

conda install numpy pytorch torchvision torchaudio pytorch-cuda=11.7 -c pytorch -c nvidia -y