VLSI circuits for low-power high-speed asynchronous addition

Perri S.; Corsonello P.; Cocorullo G.

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VLSI circuits for low-power high-speed asynchronous addition

机译：用于低功率高速异步加法的VLSI电路

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This paper presents a new low-power high-speed fully static CMOS variable-time adder. The VLSI implementation proposed here is based on the statistical carry look-ahead addition technique. The new circuit takes advantage of an innovative way of using a composition of propagate signals and of appropriately designed overlapped execution modules to reduce average addition time, layout area, and power dissipation. A 56-bit adder designed as described here and realized using AMS 0.35-/spl mu/m CMOS standard cells at 3.3V supply voltage shows an average addition time of about 4.3 ns and a maximum power dissipation of only 50 mW at 200-MHz repetitive frequency using a silicon area of less than 0.23 mm/sup 2/.

机译：本文提出了一种新型的低功耗高速全静态CMOS可变时间加法器。这里提出的VLSI实现基于统计进位提前添加技术。新电路利用了一种创新的方法，该方法使用了传播信号和适当设计的重叠执行模块的组合，以减少平均相加时间，布局面积和功耗。如此处所述设计并在3.3V电源电压下使用AMS 0.35- / spl mu / m CMOS标准单元实现的56位加法器显示，平均加法时间约为4.3 ns，在200MHz时最大功耗仅为50mW使用小于0.23 mm / sup 2 /的硅面积的重复频率。

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来源
《IEEE transactions on very large scale integration (VLSI) systems》 |2002年第5期|p.8-613|共606页
作者
Perri S.; Corsonello P.; Cocorullo G.;
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作者单位

Dept. of Electron., Univ. of Calabria, Rende, Italy;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
VLSI; adders; CMOS logic circuits; carry logic; low-power electronics; high-speed integrated circuits; integrated circuit layout; logic CAD; VLSI; high-speed asynchronous addition; fully static CMOS variable-time adder; statistical carry look-ahead a;

机译：超大规模集成电路加法器CMOS逻辑电路;进行逻辑低功耗电子产品;高速集成电路;集成电路布局;逻辑CAD;超大规模集成电路高速异步加法;全静态CMOS可变时间加法器;统计进位提前;

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1. VLSI circuits for low-power high-speed asynchronous addition [J] . Perri S., Corsonello P., Cocorullo G. IEEE transactions on very large scale integration (VLSI) systems . 2002,第5期

机译：用于低功率高速异步加法的VLSI电路
2. High-Speed, Low-Power, and Error-Free Asynchronous Write Circuit for STT-MRAM and Logic [J] . Deming Zhang, Lang Zeng, Gefei Wang, IEEE Transactions on Magnetics . 2016,第8期

机译：用于STT-MRAM和逻辑的高速，低功耗，无错误的异步写入电路
3. An efficient and reliable MRF-based methodology for designing low-power VLSI circuits [J] . Razavi Sayyed Mohammad, Razavi Seyyed Mohammad Integration . 2020,第Jula期

机译：基于MRF的基于MRF的设计方法，用于设计低功耗VLSI电路
4. A high-speed median filter VLSI using floating-gate-MOS-based low-power majority voting circuits [C] . Yamasaki, H., Shibata, . 2005

机译：使用基于浮栅MOS的低功耗多数表决电路的高速中值滤波器VLSI
5. High-speed low-power asynchronous circuits. [D] . Saadallah, Nisrine. 2004

机译：高速低功耗异步电路。
6. Robust Working Memory in an Asynchronously Spiking Neural Network Realized with Neuromorphic VLSI [O] . Massimiliano Giulioni, Patrick Camilleri, Maurizio Mattia, 2011

机译：用神经形态VLSI实现的非同步神经网络中的强大工作记忆
7. Low-Power and Error-Resilient VLSI Circuits and Systems. [O] . Chen Chia-Hsiang 2014

机译：低功耗和抗误差的VLsI电路和系统。

VLSI circuits for low-power high-speed asynchronous addition

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