Performance and power of cache-based reconfigurable computing

CHiMPS is a C-based compiler for high-performance computing (HPC) on heterogeneous CPU-FPGA computing platforms. CHiMPS efficiently supports random accesses to main memory through the many-cache memory model, enabling a broader range of applications to take advantage of FPGA-based acceleration. Many-cache creates multiple caches on top of an FGPA's small, independent memories, each targeting a particular data structure or region of memory in an application and each customized for the memory operations that access it. This poster presents the analyses and optimizations of the CHiMPS compiler that construct many-cache caches, and presents the details of the cache parameters on a Xilinx Virtex-5 LX110T FPGA. Detailed simulation results on HPC kernels demonstrate a 7.8x (geometric mean) performance boost over CPU-only execution of the same source code, FPGA power usage that is on average 4.1x less, and consequently performance per watt that is also greater, by a geometric mean of 21.3x.