A gate-level pipelined 2.97GHz Self Synchronous FPGA in 65nm CMOS

16th Asia and South Pacific Design Automation Conference (ASP-DAC 2011) Pub Date : 2011-01-25 DOI:10.1109/ASPDAC.2011.5722288
B. Devlin, M. Ikeda, K. Asada
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引用次数: 2

Abstract

We have designed and measured the performance against power supply bounce and aging of a Self Synchronous FPGA (SSFPGA) in 65nm CMOS which achieves 2.97GHz throughput at 1.2V. The proposed SSFPGA employs a 38×38 array of 4-input, 3-stage Self Synchronous Configurable Logic Blocks (SSCLB), with the introduction of a new dual tree-divider 4 input LUT to achieve a 4.5× throughput improvement over our previous model [1]. Energy was measured at 3.23 pJ/block/cycle using a custom built board. We measured the SSFPGA for aging with accelerated degradation and results show the SSFPGA has 8% longer time margin before chip malfunctions compared to a Synchronous FPGA.
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基于65nm CMOS的门级流水线2.97GHz自同步FPGA
我们设计并测量了65nm CMOS自同步FPGA (SSFPGA)的电源反弹和老化性能,该FPGA在1.2V下实现了2.97GHz的吞吐量。提出的SSFPGA采用38×38 4输入,3级自同步可配置逻辑块(SSCLB)阵列,引入了新的双树分频4输入LUT,以实现比我们以前的模型提高4.5倍的吞吐量[1]。使用定制板测量能量为3.23 pJ/块/循环。我们测量了SSFPGA的老化和加速退化,结果表明,与同步FPGA相比,SSFPGA在芯片故障前的时间裕度延长了8%。
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16th Asia and South Pacific Design Automation Conference (ASP-DAC 2011)
16th Asia and South Pacific Design Automation Conference (ASP-DAC 2011)
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