Mapping deep nested do-loop DSP algorithms to large scale FPGA array structures
Kittitornkun, S.; Yu Hen Hu
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
Volume 11, Issue 2, April 2003 Page(s): 208 - 217
Digital Object Identifier 10.1109/TVLSI.2002.801622
Summary: Recently, FPGAs (field programmable gate arrays) technology have made significant advances in both speed and capacity. Millions of logic gates are now available for reconfiguration programming. To fully exploit the potential of so many programmable devices, powerful design methodology must be developed. In this paper, we propose a novel systematic computer-aided design methodology that can efficiently implement deeply nested do-loop algorithms on a FPGA. Specifically, our design methodology maps the loop dependence graph onto a linear array of locally connected processing elements to exploit parallelism. Due to the regular structure of this linear array of processors, it can be easily implemented on a FPGA. While this method is based on conventional systolic array design methodology, our proposed approach exhibits two distinct features that contribute to its superior performance: 1) We developed a novel multiple-order dependence graph representation that is able to efficiently represent distinct, yet correct algorithm execution orders. 2) We developed new FPGA-specific architectural constraints during the mapping process. As such, FPGA implementations based on our approach will utilize much fewer lookup tables while achieving superior performance.
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