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首页> 外文会议>IEEE Custom Integrated Circuits Conference >A 3.15pJ/cyc 32-bit RISC CPU with timing-error prevention and adaptive clocking in 28nm CMOS
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A 3.15pJ/cyc 32-bit RISC CPU with timing-error prevention and adaptive clocking in 28nm CMOS

机译:具有3.15pJ / cyc 32位RISC CPU,具有时序错误预防功能和28nm CMOS自适应时钟

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摘要

The increased performance from technology scaling makes it feasible to operate digital circuits at ultra-low voltages without the significant performance limitation of earlier process generations. The theoretical minimum energy point resides in near-threshold voltages in current processes, but device and environment variations make it a challenge to operate the circuits reliably. This paper presents an ASIC implementation of a 32-bit RISC CPU in 28nm CMOS employing timing-error prevention with clock stretching to enable it to operate with minimal safety margins while maximizing energy efficiency. Measurements show 3.15pJ/cyc energy consumption at 400mV/2.4MHz, which corresponds to 39% energy savings and 83% EDP reduction compared to operation based on static signoff timing.
机译:技术扩展带来的更高性能使在超低电压下运行数字电路成为可能,而没有早期工艺一代的显着性能限制。理论上的最小能量点位于当前过程中的接近阈值电压,但是器件和环境的变化使可靠地操作电路成为一个挑战。本文介绍了采用28nm CMOS的32位RISC CPU的ASIC实现,采用了具有时钟扩展功能的定时错误预防功能,使其能够以最小的安全裕量运行,同时最大程度地提高了能效。测量显示,在400mV / 2.4MHz时,能耗为3.15pJ / cyc,与基于静态签发时序的操作相比,这相当于节省了39%的能源,并减少了83%的EDP。

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