WARP

Ryan M. Bergmann, 2014.

WARP is a GPU-powered library for continuous energy Monte Carlo neutron transport in general 3D geometries. The host-side code has been written in C++, CUDA, and Python. The C++ API is exposed to Python via SWIG. The Python C API is used within WARP to load ACE-formatted cross section libraries via the PyNE package. Geometry routines are implemented using the NVIDIA OptiX ray tracing framework. Currently, WARP is only able to run on a single NVIDIA GPU.

If the name "WARP" were an acronym, it would stand for "weaving all the random particles," with the word "weaving" referring to the lock-step way in which "all the random particles," i.e. the neutrons, are sorted into coherent bundles and transported. Using the word "warp" is also a nod to NVIDIA's terminology for a group of 32 concurrent threads.

Please refer to the usage guide for examples of how to use WARP, and to the doxygen documentation for detail descriptions of the API.

Related Publications:

Performance and accuracy of criticality calculations performed using WARP – A framework for continuous energy Monte Carlo neutron transport in general 3D geometries on GPU

Algorithmic choices in WARP – A framework for continuous energy Monte Carlo neutron transport in general 3D geometries on GPUs

Miscellaneous

Logo provided by designer extrodinaire Daniel Castro, http://www.danieldanieldaniel.com/

Name		Name	Last commit message	Last commit date
Latest commit History 664 Commits
Documentation		Documentation
cmake		cmake
test		test
userguide		userguide
.gitignore		.gitignore
CITATION		CITATION
CMakeLists.txt		CMakeLists.txt
LICENSE		LICENSE
README.md		README.md
ace.pyx		ace.pyx
benchmarks.cpp		benchmarks.cpp
box_mesh.cu		box_mesh.cu
camera.cu		camera.cu
check_cuda.h		check_cuda.h
check_pointers.cu		check_pointers.cu
copy_points.cu		copy_points.cu
cylinder_mesh.cu		cylinder_mesh.cu
datadef.h		datadef.h
device_copies.cu		device_copies.cu
device_copies.h		device_copies.h
doxyfile		doxyfile
find_E_grid_index.cu		find_E_grid_index.cu
fission.cu		fission.cu
footer.tex		footer.tex
header.tex		header.tex
hex_mesh.cu		hex_mesh.cu
hits_mesh.cu		hits_mesh.cu
macro_micro.cu		macro_micro.cu
main.cpp		main.cpp
miss.cu		miss.cu
mt19937ar.cpp		mt19937ar.cpp
optix_stuff.cpp		optix_stuff.cpp
optix_stuff.h		optix_stuff.h
optixtest.cpp		optixtest.cpp
plot_spectrum.py		plot_spectrum.py
pop_fission.cu		pop_fission.cu
reaction_edges3.cu		reaction_edges3.cu
rebase_yield.cu		rebase_yield.cu
run_tests		run_tests
safety_check.cu		safety_check.cu
sample_fissile_energy.cu		sample_fissile_energy.cu
sample_fixed_source.cu		sample_fixed_source.cu
scatter_conti.cu		scatter_conti.cu
scatter_level.cu		scatter_level.cu
scatter_multi.cu		scatter_multi.cu
set_positions_rand.cu		set_positions_rand.cu
sphere_mesh.cu		sphere_mesh.cu
test.py		test.py
test_function.cu		test_function.cu
unionize.py		unionize.py
warp.h		warp.h
warp.i		warp.i
warp_cuda.h		warp_cuda.h
warp_device.cuh		warp_device.cuh
wfloat3.h		wfloat3.h
wgeometry.cpp		wgeometry.cpp
wgeometry.h		wgeometry.h
whistory.cpp		whistory.cpp
whistory.h		whistory.h
wprimitive.cpp		wprimitive.cpp
wprimitive.h		wprimitive.h
write_to_file.cu		write_to_file.cu

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