Pipeline optimization for asynchronous circuits: complexity analysis and an efficient optimal algorithm

Sangyun Kim; Beerel P.A.

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Pipeline optimization for asynchronous circuits: complexity analysis and an efficient optimal algorithm

机译：异步电路的管道优化：复杂性分析和高效的优化算法

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摘要

This paper addresses the problem of identifying the minimum pipelining needed in an asynchronous circuit (e.g., number/size of pipeline stages/latches required) to satisfy a given performance constraint, thereby implicitly minimizing area and power for a given performance. The paper first shows that the basic pipeline optimization problem for asynchronous circuits is NP-complete. Then, it presents an efficient branch and bound algorithm that finds the optimal pipeline configuration. The experimental results on a few scalable system models demonstrate that this algorithm is computationally feasible for moderately sized models.

机译：本文解决了识别异步电路所需的最小流水线问题（例如所需的流水线级数/大小/锁存器）以满足给定性能约束的问题，从而隐含地最小化了给定性能的面积和功耗。本文首先表明，异步电路的基本流水线优化问题是NP完全的。然后，它提出了一种有效的分支定界算法，可以找到最佳的管道配置。在一些可伸缩系统模型上的实验结果表明，该算法对于中等规模的模型在计算上是可行的。

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来源
《IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems》 |2006年第3期|p.389-402|共14页
作者
Sangyun Kim; Beerel P.A.;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
asynchronous circuits; circuit CAD; circuit complexity; circuit optimisation; logic CAD; network topology; tree searching; NP-complete problem; asynchronous circuits; branch and bound algorithm; complexity analysis; optimal pipeline configuration; pipeline optimizat;

机译：异步电路;电路CAD;电路复杂度;电路优化;逻辑CAD;网络拓扑;树搜索;NP完全问题;异步电路;分支定界算法;复杂性分析;最优管道配置;管道优化;

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专利

1. Energy-Efficient Pipeline Templates for High-Performance Asynchronous Circuits [J] . BASIT RIAZ SHEIKH, RAJIT MANOHAR ACM Journal on Emerging Technologies in Computing Systems . 2011,第4期

机译：高性能异步电路的节能管道模板
2. Optimal control-based efficient synthesis of building blocks of quantum algorithms: A perspective from network complexity towards time complexity [J] . Schulte-Herbruggen T, Sporl A, Khaneja N, Physical Review, A. Atomic, molecular, and optical physics . 2005,第4期

机译：基于最优控制的量子算法构建块的有效综合：从网络复杂度到时间复杂度的视角
3. Distributed Non-Convex First-Order Optimization and Information Processing: Lower Complexity Bounds and Rate Optimal Algorithms [J] . Sun Haoran, Hong Mingyi IEEE Transactions on Signal Processing . 2019,第22期

机译：分布式非凸一阶优化和信息处理：较低复杂度边界和速率最优算法
4. Pipeline optimization for asynchronous circuits: complexity analysis and an efficient optimal algorithm [C] . Sangyun Kim, Beerel, P.A. . 2000

机译：异步电路的管道优化：复杂性分析和高效的优化算法
5. Design and implementation of multi-GHz energy-efficient asynchronous pipelined circuits in MOS current-mode logic. [D] . Kwan, Tin Wai. 2004

机译：MOS电流模式逻辑中的多GHz节能异步流水线电路的设计和实现。
6. Weighted Implementation of Suboptimal Paths (WISP):An Optimized Algorithm and Tool for Dynamical Network Analysis [O] . Adam T. Van Wart, †, Jacob Durrant, -1

机译：次优路径（WISP）的加权实现：动态网络分析的优化算法和工具
7. Pipeline Optimization for Asynchronous Circuits: Complexity Analysis and an Efficient Optimal Algorithm [O] . Sangyun Kim, Peter A. Beerel 2000

机译：异步电路的流水线优化：复杂性分析和一种有效的优化算法
8. General Approach to Performance Analysis and Optimization of Asynchronous Circuits. [R] . Lee, T. K. 1995

机译：异步电路性能分析与优化的一般方法。

Pipeline optimization for asynchronous circuits: complexity analysis and an efficient optimal algorithm

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