Sparse matrix-vector multiplication (SpMV) is a fundamental building block
for numerous applications. In this paper, we propose CSR5 (Compressed Sparse
Row 5), a new storage format, which offers high-throughput SpMV on various
platforms including CPUs, GPUs and Xeon Phi. First, the CSR5 format is
insensitive to the sparsity structure of the input matrix. Thus the single
format can support an SpMV algorithm that is efficient both for regular
matrices and for irregular matrices. Furthermore, we show that the overhead of
the format conversion from the CSR to the CSR5 can be as low as the cost of a
few SpMV operations. We compare the CSR5-based SpMV algorithm with 11
state-of-the-art formats and algorithms on four mainstream processors using 14
regular and 10 irregular matrices as a benchmark suite. For the 14 regular
matrices in the suite, we achieve comparable or better performance over the
previous work. For the 10 irregular matrices, the CSR5 obtains average
performance improvement of 17.6\%, 28.5\%, 173.0\% and 293.3\% (up to 213.3\%,
153.6\%, 405.1\% and 943.3\%) over the best existing work on dual-socket Intel
CPUs, an nVidia GPU, an AMD GPU and an Intel Xeon Phi, respectively. For
real-world applications such as a solver with only tens of iterations, the CSR5
format can be more practical because of its low-overhead for format conversion.
The source code of this work is downloadable at
https://github.com/bhSPARSE/Benchmark_SpMV_using_CSR5Comment: 12 pages, 10 figures, In Proceedings of the 29th ACM International
Conference on Supercomputing (ICS '15
