This project implements the well known multi GPU Jacobi solver with different multi GPU Programming Models:
single_threaded_copy
Single Threaded using cudaMemcpy for inter GPU communicationmulti_threaded_copy
Multi Threaded with OpenMP using cudaMemcpy for inter GPU communicationmulti_threaded_copy_overlapp
Multi Threaded with OpenMP using cudaMemcpy for itner GPU communication with overlapping communicationmulti_threaded_p2p
Multi Threaded with OpenMP using GPUDirect P2P mappings for inter GPU communicationmulti_threaded_p2p_opt
Multi Threaded with OpenMP using GPUDirect P2P mappings for inter GPU communication with delayed norm executionmulti_threaded_um
Multi Threaded with OpenMP relying on transparent peer mappings with Unified Memory for inter GPU communicationmpi
Multi Process with MPI using CUDA-aware MPI for inter GPU communicationmpi_overlapp
Multi Process with MPI using CUDA-aware MPI for inter GPU communication with overlapping communicationnvshmem
Multi Process with MPI and NVSHMEM using NVSHMEM for inter GPU communication. Other approach,nvshmem_opt
, might be better for portable performance.nvshmem_opt
Multi Process with MPI and NVSHMEM using NVSHMEM for inter GPU communication with NVSHMEM extension API
Each variant is a stand alone Makefile project and all variants have been described in the GTC EU 2018 Talk Multi GPU Programming Models
- CUDA: verison 9.2 or later is required by all variants.
- OpenMP capable compiler: Required by the Multi Threaded variants. The examples have been developed and tested with gcc.
- CUDA-aware MPI: Required by the MPI and NVSHMEM variants. The examples have been developed and tested with OpenMPI.
- CUB: Optional for optimized residual reductions. Set CUB_HOME to your cub installation directory. The examples have been developed and tested with cub 1.8.0.
- NVSHMEM (version 0.4.1 or later): Required by the NVSHMEM variant. Please reach out to [email protected] for an early access to NVSHMEM.
Each variant come with a Makefile and can be build by simply issuing make, e.g.
multi-gpu-programming-models$ cd multi_threaded_copy
multi_threaded_copy$ make CUB_HOME=../cub
nvcc -DHAVE_CUB -I../cub -Xcompiler -fopenmp -lineinfo -DUSE_NVTX -lnvToolsExt -gencode arch=compute_60,code=sm_60 -gencode arch=compute_70,code=sm_70 -gencode arch=compute_70,code=compute_70 -std=c++11 jacobi.cu -o jacobi
multi_threaded_copy$ ls jacobi
jacobi
All variant have the following command line options
-niter
: How many iterations to carry out (default 1000)-nccheck
: How often to check for convergence (default 1)-nx
: Size of the domain in x direction (default 7168)-ny
: Size of the domain in y direction (default 7168)-csv
: Print performance results as -csv
The provided script bench.sh
contains some examples executing all the benchmarks presented in the GTC EU 2018 Talk Multi GPU Programming Models.
The code applies the style guide implemented in .clang-format
file. clang-format
version 7 or later should be used to format the code prior to submitting it. E.g. with
multi-gpu-programming-models$ cd multi_threaded_copy
multi_threaded_copy$ clang-format -style=file -i jacobi.cu