可重构门级流水线和功率门控自同步FPGA的能量最小操作

IEEE/ACM International Symposium on Low Power Electronics and Design Pub Date : 2011-08-01 DOI:10.1109/ISLPED.2011.5993594

B. Devlin, M. Ikeda, K. Asada

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引用次数: 9

摘要

提出了一种65nm自同步现场可编程门阵列(SSFPGA)，该阵列采用自主门级功率门控，以最小的控制电路开销实现能量最小运行。自同步信号的使用允许FPGA在低至370mV的电压下工作，而无需任何参数调谐。我们展示了与非功率门控的SSFPGA相比，总能量降低2.6倍，同时能量最小操作性能提高6.4倍，与最新研究相比，功率延迟积(PDP)提高1.8倍，性能提高2倍。在类似的过程中，与同步FPGA相比，我们能够显示高达84.6倍的PDP改进。我们还展示了功率门控SSFPGA在0.6V, 27fJ/ 264MHz时实现最大吞吐量的能量最小操作。

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Energy minimum operation in a reconfigurable gate-level pipelined and power-gated self synchronous FPGA

A 65nm self synchronous field programmable gate array (SSFPGA) which uses autonomous gate-level power gating with minimal control circuitry overhead for energy minimum operation is presented. The use of self synchronous signalling allows the FPGA to operate at voltages down to 370mV without any parameter tuning. We show both 2.6× total energy reduction and 6.4× performance improvement at the same time for energy minimum operation compared to the non-power gated SSFPGA, and compared to the latest research 1.8× improvement in power-delay product (PDP) and 2× performance improvement. When compared to a synchronous FPGA in a similar process we are able to show up to 84.6× PDP improvement. We also show energy minimum operation for maximum throughput on the power gated SSFPGA is achieved at 0.6V, 27fJ/operation at 264MHz.

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IEEE/ACM International Symposium on Low Power Electronics and Design

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