Pipeline design in spintronic circuits

N. Kani, A. Naeemi
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引用次数: 3

Abstract

This paper proposes a latch-less pipeline architecture for spintronic circuits and quantifies the impact of pipeline depth and width on the error rate caused by thermal noise. This paper focuses on concatenable spin logic (CSL) even though the proposed architecture and error rate estimation approach can be applied to any spintronic logic that use magnetic moment of nanomagnets as the computational state variable. The latchless pipeline architecture takes advantage of the non-volatility of nanomagnets and eliminates the need for the extra switches that are necessary in CMOS circuits to latch data at the beginning and end of each pipeline stage. However, choosing a pipeline clock rate requires knowing the circuit delay of a single stage. It is shown that the delay of a magnet can best be represented as a gamma distribution, and thus, in order to achieve a 10-4 error rate with a single switch, the clock period will need to be approximately 120% greater the average delay of a single device. This variation tax can be reduced to under 35% for a circuit with 10 switches connected in series, or it can exceed 145% if the switches are connected in parallel (depth=1).
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自旋电子电路中的管路设计
本文提出了一种用于自旋电子电路的无锁存器管道结构,并量化了管道深度和宽度对热噪声引起的错误率的影响。本文的重点是可连接自旋逻辑(CSL),尽管所提出的结构和错误率估计方法可以应用于任何使用纳米磁体的磁矩作为计算状态变量的自旋电子逻辑。无锁存的管道架构利用了纳米磁铁的非易失性,并且消除了CMOS电路中在每个管道阶段的开始和结束时锁存数据所需的额外开关的需要。然而,选择一个流水线时钟速率需要知道一个单级的电路延迟。结果表明,磁铁的延迟可以最好地表示为伽马分布,因此,为了实现单个开关的10-4错误率,时钟周期将需要比单个设备的平均延迟大约120%。对于10个开关串联连接的电路,这种变化税可以减少到35%以下,或者如果开关并联连接(深度=1),它可以超过145%。
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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