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A 250Mv, 0.063J/Ghash Bitcoin Mining Engine in 14nm CMOS Featuring Dual-Vcc Sha256 Datapath and 3-Phase Latch Based Clocking

2019 Symposium on VLSI Circuits Pub Date : 2019-06-01 DOI:10.23919/VLSIC.2019.8777966
Vikram B. Suresh, Sudhir K. Satpathy, Raghavan Kumar, M. Anders, Himanshu Kaul, A. Agarwal, S. Hsu, R. Krishnamurthy, V. De, S. Mathew
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引用次数: 4

Abstract

A 0.15mm2 Bitcoin mining engine is fabricated in 14nm CMOS with highest-reported energy-efficiency of 0.063J/GHash at 250mV, $25 ^{\circ}\mathrm {C}$. Fully-unrolled SHA256 datapath with Bitcoin-specific look-ahead/deferred digest optimizations and 3-cycle distributed scheduler provide 31/56% digest/scheduler delay reductions, resulting in 10% higher energy-efficiency with dual-Vcc operation. 3-phase latch-based clocking with stretchable non-overlapping clocks eliminates all min-delay paths, reducing total sequential power consumption by 50%. Robust mining operation over a wide supply range of 230–900mV is demonstrated, with 10–760MHash/s throughput measured at $100 ^{\circ}\mathrm {C}$.
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250Mv, 0.063J/Ghash的14nm CMOS比特币挖掘引擎,具有双vcc Sha256数据路径和基于三相锁存器的时钟
一个0.15mm2的比特币挖矿引擎采用14nm CMOS制造,在250mV时的最高能效为0.063J/GHash, $25 ^{\circ}\ mathm {C}$。完全展开的SHA256数据路径具有比特币特定的前瞻性/延迟摘要优化和3周期分布式调度器,提供31/56%的摘要/调度器延迟减少,从而通过双vcc操作提高10%的能源效率。具有可拉伸非重叠时钟的三相锁存器时钟消除了所有最小延迟路径,将总顺序功耗降低了50%。在230-900mV的宽供电范围内展示了强大的挖矿操作,10-760MHash /s的吞吐量测量为$100 ^{\circ}\ maththrm {C}$。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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2019 Symposium on VLSI Circuits
2019 Symposium on VLSI Circuits
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