@misc{16854, author = {Marius Causemann and Vegard Vinje and Marie Rognes}, title = {Software and Data for "Human intracranial pulsatility during the cardiac cycle: a computational modelling framework"}, abstract = {This repository contains the code, meshes and data required to reproduce the results of the article "Human intracranial pulsatility during the cardiac cycle: a computational modelling framework", M. Causemann, V. Vinje and M.E. Rognes (2022).The easiest way of getting the code running is based on snakemake and singularity: Installing both (using .e.g conda: conda create -c bioconda -c conda-forge -n snakemake snakemake singularity) and running snakemake --cores N will run pull a docker image (mcause/brainsim:openblas) and execute all steps on N cores. Note however, that the required computational resources are quite large and unlikely to be met by a desktop computer. Snakemake also supports submitting jobs on a SLURM cluster via the --profile profile_folder_name option. An example of a profile configuration can be found in the ex3 folder.The complete workflow is defined in the Snakefile, which hence also provides documentation of the individual steps.}, year = {2022}, publisher = {Zenodo}, url = {{https://doi.org/10.5281/zenodo.6553790}, doi = {10.5281/zenodo.6553790}, }