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There is no inherent characteristic forcing Field Programmable Gate Array (FPGA) or Reconfigurable Computing (RC) Array cycle times to be greater than processors in the same process. Modern FPGAs seldom achieve application clock rates close to their processor cousins because (1) resources in the FPGAs are not balanced appropriately for high-speed operation, (2) FPGA CAD does not automatically provide the requisite transforms to support this operation, and (3) interconnect delays can be large and vary almost continuously, complicating high frequency mapping. We introduce a novel reconfigurable computing array, the High-Speed, Hierarchical Synchronous Reconfigurable Array (HSRA), and its supporting tools. This packagedemonstrates that computing arrays can achieve efficient, high-speedoperation. We have designedand implemented a prototype component in a 0.4 m logic design on a DRAM process which will support 250MHz operation for CAD mapped designs.
Tsu et al. (Mon,) studied this question.
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