Early Output Hybrid Input Encoded Asynchronous Full Adder and Relative-Timed Ripple Carry Adder

机译：早期输出混合输入编码异步完整加法器和相对定时纹波携带加法器

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This paper presents a new early output hybrid input encoded asynchronous full adder designed using dual-rail and 1-of-4 delay-insensitive data codes. The proposed full adder when cascaded to form a ripple carry adder (RCA) necessitates the use of a small relative-timing assumption with respect to the internal carries, which is independent of the RCA size. The forward latency of the proposed hybrid input encoded full adder based RCA is data-dependent while its reverse latency is the least equaling the propagation delay of just one full adder. Compared to the best of the existing hybrid input encoded full adders based 32-bit RCAs, the proposed early output hybrid input encoded full adder based 32-bit RCA enables respective reductions in forward latency and area by 7.9% and 5.6% whilst dissipating the same average power; in terms of the theoretically computed cycle time, the latter reports a 10.9% reduction compared to the former.

机译：本文介绍了一种新的早期输出混合输入编码异步全加加法器，使用双轨和4个延迟不敏感数据代码设计。所提出的完整加法器当级联以形成纹波携带加法器（RCA）时需要对内部携带的小相对定时假设使用，其与RCA尺寸无关。所提出的混合输入编码的完整加法器基于的RCA的前向等待时间是数据依赖于其反向延迟，其反向等待时间最低等于仅为一个完整加法器的传播延迟。与最佳的基于32位RCA的完整加法器的最佳加法器相比，所提出的早期输出混合输入编码的完整加法器的32位RCA使得前方延迟和面积的各自减少7.9％和5.6％，同时消散相同平均力量; 就理论上计算的循环时间而言，后者报告与前者相比减少了10.9％。

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《International Conference on Embedded Systems, Cyber-physical Systems, and Applications》|2016年|184p|共4页
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P. Balasubramanian; K. Prasad;
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中图分类 TP393-53;
关键词
Asynchronous design; Relative-timing; Indication; Ripple Carry Adder (RCA); CMOS; Standard cells;

机译：异步设计;相对定时;指示;纹波携带加法器（RCA）;CMOS;标准细胞;

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专利

1. An Asynchronous Early Output Full Adder and a Relative-Timed Ripple Carry Adder [J] . P. BALASUBRAMANIAN WSEAS Transactions on Circuits and Systems . 2016,第Null期

机译：异步早期输出全加器和相对定时纹波进位加法器
2. Low Power Robust Early Output Asynchronous Block Carry Lookahead Adder with Redundant Carry Logic [J] . Padmanabhan Balasubramanian, Douglas Maskell, Nikos Mastorakis Electronics . 2018,第10期

机译：具有冗余进位逻辑的低功耗鲁棒早期输出异步块进位超前加法器
3. Optimized structures of hybrid ripple carry and hierarchical carry lookahead adders [J] . Ibrahim Atef, Gebali Fayez Microelectronics journal . 2015,第9期

机译：混合纹波进位和分层进位超前加法器的优化结构
4. Early Output Hybrid Input Encoded Asynchronous Full Adder and Relative-Timed Ripple Carry Adder [C] . P. Balasubramanian, K. Prasad International Conference on Embedded Systems, Cyber-physical Systems, and Applications . 2016

机译：早期输出混合输入编码异步全加法器和相对定时纹波携带加法器
5. High-speed carry skip adder implemented using speculative Han-Carlson parallel prefix adder. [D] . Narayanaswamy, Rakesh. 2016

机译：使用推测性Han-Carlson并行前缀加法器实现的高速进位跳过加法器。
6. Area/latency optimized early output asynchronous full adders and relative-timed ripple carry adders [O] . P. Balasubramanian, S. Yamashita -1

机译：面积/延迟优化的早期输出异步全加法器和相对定时的纹波进位加法器
7. Area/latency optimized early output asynchronous full adders and relative-timed ripple carry adders [O] . P. Balasubramanian, S. Yamashita 2016

机译：面积/延迟优化的早期输出异步全加法器和相对定时的纹波进位加法器

Early Output Hybrid Input Encoded Asynchronous Full Adder and Relative-Timed Ripple Carry Adder

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