采用原子开关的2倍逻辑密度可编程逻辑阵列,完全实现40nm及以上节点的逻辑晶体管

Y. Tsuji, X. Bai, A. Morioka, M. Miyamura, R. Nebashi, T. Sakamoto, M. Tada, N. Banno, K. Okamoto, N. Iguchi, H. Hada, T. Sugibayashi
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引用次数: 4

摘要

通过逻辑晶体管对原子开关进行编程,证明了可编程逻辑(PL)具有较高的逻辑密度。由于原子开关的面积小,电容小,因此PL具有4个4输入lut,以最大限度地减少面积延迟产品。Xbar采用50%和100%人口混合和编程线共享架构,与40 nm相同技术节点上的商用PL芯片相比,逻辑密度提高了2倍。工作频率提高3倍,功耗降低40%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A 2× logic density Programmable Logic array using atom switch fully implemented with logic transistors at 40nm-node and beyond
Programmable Logic (PL) with a high logic density is demonstrated by cross-bar (xbar) of atom switches, which are programmed through logic transistors. The PL has 4 4-input LUTs to minimize area-delay product owing to small area & capacitance of atom switch. Xbar with 50% and 100% populations mixed and programming lines shared architecture achieves a 2× higher logic density comparing to a commercial PL chip on same technology node of 40 nm. 3× higher operation frequency and 40% lower power consumption are also assessed.
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