SC Conference - Activity Details

Bandwidth Intensive 3-D FFT kernel for GPUs using CUDA

Akira Nukada  (Tokyo Institute of Technology)
Yasuhiko Ogata  (Tokyo Institute of Technology)
Toshio Endo  (Tokyo Institute of Technology)
Satoshi Matsuoka  (Tokyo Institute of Technology)
Papers Session
Applications on GPUs
Tuesday,  11:00AM - 11:30AM
Room Ballroom E
Most GPU performance "hypes" have focused around tightly-coupled applications with small memory bandwidth requirements e.g., N-body, but GPUs are also commodity vector machines sporting substantial memory bandwidth; however, effective programming methodologies thereof have been poorly studied. Our new 3-D FFT kernel, written in NVidia CUDA, achieves nearly 80 GFLOPS on a top-end GPU, being more than three times faster than any existing FFT implementations on GPUs including CUFFT. Careful programming techniques are employed to fully exploit modern GPU hardware characteristics while overcoming their limitations, including on-chip shared memory utilization, optimizing the number of threads and registers through appropriate localization, and avoiding low-speed stride memory accesses. Our kernel applied to real applications achieves orders of magnitude boost in power&cost vs. performance metrics. The off-card bandwidth limitation is still an issue, which could be alleviated somewhat with application kernels confinement within the card, while ideal solution being facilitation of faster GPU interfaces.
The full paper can be found in the IEEE Xplore Digital Library and ACM Digital Library
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