Title :
3D FFTs on a Single FPGA
Author :
Humphries, Benjamin ; Hansen Zhang ; Jiayi Sheng ; Landaverde, Raphael ; Herbordt, Martin C.
Author_Institution :
Dept. of Electr. & Comput. Eng., Boston Univ., Boston, MA, USA
Abstract :
The 3D FFT is critical in many physical simulations and image processing applications. On FPGAs, however, the 3D FFT was thought to be inefficient relative to other methods such as convolution-based implementations of multigrid. We find the opposite: a simple design, operating at a conservative frequency, takes 4μs for 163, 21μs for 323, and 215μs for 643 single precision data points. The first two of these compare favorably with the 25μs and 29μs obtained running on a current Nvidia GPU. Some broader significance is that this is a critical piece in implementing a large scale FPGA-based MD engine: even a single FPGA is capable of keeping the FFT off of the critical path for a large fraction of possible MD simulations.
Keywords :
fast Fourier transforms; field programmable gate arrays; graphics processing units; three-dimensional integrated circuits; 3D FFT; MD engine simulation; Nvidia GPU; conservative frequency; convolution-based implementations; critical path; fast Fourier transforms; field programmable gate arrays; graphics processing units; image processing applications; multigrid; physical simulations; simple design; single FPGA; single precision data points; Field programmable gate arrays; Generators; Graphics processing units; IP networks; Pipelines; Random access memory; Three-dimensional displays; FFT; High Performance Reconfigurable Computing;
Conference_Titel :
Field-Programmable Custom Computing Machines (FCCM), 2014 IEEE 22nd Annual International Symposium on
Conference_Location :
Boston, MA
Print_ISBN :
978-1-4799-5110-9
DOI :
10.1109/FCCM.2014.28
