The Celeritas project implements HEP detector physics on GPU accelerator hardware with the ultimate goal of supporting the massive computational requirements of LHC-HL upgrade.
This project requires third-party libraries (TPLs) to build a fully-featured code. However, some of these requirements can be omitted to enable testing on personal machines with fewer available components.
- ROOT: for I/O
- an MPI implementation (such as OpenMPI): for shared memory parallelism
- VecGeom: on-device navigation of GDML or ROOT-defined detector geometry
- CUDA: on-device computation.
Development/testing requirements:
- CMake (build system)
- Git-LFS (large test files, binary documentation)
- LLVM/Clang (formatting enforcement)
Spack is an HPC-oriented package manager that
includes numerous scientific packages, including those used in HEP. An included
Spack "environment" (at scripts/dev/env/celeritas-{platform}.yaml
) defines
the required prerequisites for this project.
The script at scripts/dev/install-spack.sh
provides a "one-button solution"
to installing and activating the Spack prerequisites for building Celeritas.
Alternatively, you can manually perform the following steps:
- Clone Spack following its getting started instructions
- Add CUDA to your
$SPACK_ROOT/etc/spack/packages.yaml
file - Run
spack env create celeritas scripts/dev/env/celeritas-linux.yaml
(or replacelinux
withdarwin
if running on a mac); thenspack -e celeritas concretize
andspack -e celeritas install
- Run and add to your startup environment profile
spack env activate celeritas
- Configure Celeritas by creating a build directory and running CMake (or
ccmake
for an interactive prompt for configuring options).
An example file for a packages.yaml
that defines an externally installed CUDA
on a system with an NVIDIA GPU that has architecture capability 3.5 is thus:
packages:
cuda:
paths:
[email protected]: /usr/local/cuda-10.2
buildable: False
all:
variants: cuda_arch=35
Example build scripts are available in scripts/build
; an example CMake
command looks like:
cmake \
-D CELERITAS_USE_CUDA=ON \
-D CELERITAS_USE_MPI=OFF \
-D CELERITAS_USE_VECGEOM=ON \
-D CMAKE_BUILD_TYPE="RelWithDebInfo" \
-D CMAKE_CXX_FLAGS="-Wall -Wextra -pedantic -Werror" \
-D CMAKE_CUDA_FLAGS="-arch=sm_80" \
${SOURCE_DIR}
Run scripts/dev/install-commit-hooks.sh
to install a git post-commit hook
that will amend each commit with clang-format updates if necessary.
See the development wiki page for guidelines and best practices for code in the project.
The code design page outlines the basic physics design philosophy and classes.
Some codebase images and graphs are available on the celeritas-docs
repo.