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Lukas Nellen authoredLukas Nellen authored
CORSIKA 8 Framework for Particle Cascades in Astroparticle Physics
The purpose of CORSIKA is to simulate any particle cascades in astroparticle physics or astrophysical context. A lot of emphasis is put on modularity, flexibility, completeness, validation and correctness. To boost computational efficiency different techniques are provided, like thinning or cascade equations. The aim is that CORSIKA remains the most comprehensive framework for simulating particle cascades with stochastic and continuous processes.
The software makes extensive use of static design patterns and compiler optimization. Thus, the most fundamental configuration decision of the user must be performed at compile time. At run time model parameters can still be changed.
CORSIKA 8 is by default released under the GPLv3 license. See license file which is part of every release and the source code.
If you use, or want to refer to, CORSIKA 8 please cite "Towards a Next Generation of CORSIKA: A Framework for the Simulation of Particle Cascades in Astroparticle Physics", Comput.Softw.Big Sci. 3 (2019) 2. We kindly ask (and require) any relevant improvement or addition to be offered or contributed to the main CORSIKA 8 repository for the benefit of the whole community.
When you plan to contribute to CORSIKA 8 check the guidelines outlined here: coding guidelines. Code that fails the review by the CORSIKA author group must be improved before it can be merged in the official code base. After your code has been accepted and merged, you become a contributor of the CORSIKA 8 project (code author).
IMPORTANT: Before you contribute, you need to read and agree to the collaboration agreement. The agreement can be discussed, and eventually improved.
We also want to point you to the MCnet guidelines, which are very useful also for us.
Get in contact
- Connect to https://gitlab.iap.kit.edu register yourself and join the "Air Shower Physics" group. Write to me (ralf.ulrich@kit.edu) only in case there are problems with that.
- Connect to corsika-devel@lists.kit.edu (self-register at https://www.lists.kit.edu/sympa/subscribe/corsika-devel) to get in touch with the project.
- Register on the corsika slack channel.
Installation
CORSIKA 8 is tested regularly at least on gcc7.3.0 and clang-8.0.0.
Prerequisites
- You will also need:
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- Python 3 (supported versions are Python >= 3.6), with pip
- conan (via pip)
- cmake
- git
- g++, gfortran, binutils, make
On a bare Ubuntu 20.04, just add:
sudo apt-get install python3 python3-pip cmake g++ gfortran git doxygen graphvizOn a bare CentOS 7 install python3, pip3 (pip from python3) and cmake3. Any of the devtools 7, 8, 9 should work (at least). Also initialize devtools, before building CORSIKA 8:
source /opt/rh/devtoolset-9/enableCORSIKA 8 uses the conan package manager to manage our dependencies. If you do not have Conan installed, it can be installed with:
pip install --user conanCompiling
Once Conan is installed, follow these steps to download and install CORSIKA 8:
git clone --recursive git@gitlab.iap.kit.edu:AirShowerPhysics/corsika.git
mkdir corsika-build
cd corsika-build
../corsika/conan-install.sh
cmake ../corsika -DCMAKE_INSTALL_PREFIX=../corsika-install
make -j8
make installInstallation (using docker containers)
There are docker containers prepared that bring all the environment and packages you need to run CORSIKA. See docker hub for a complete overview.