Postgrid Clock Routing for High Performance Microprocessor Designs

Tian H.; Tang W.-C.; Young E. F. Y.; Sze C. N.

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Postgrid Clock Routing for High Performance Microprocessor Designs

机译：用于高性能微处理器设计的后网格时钟路由

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Designing a high-quality clock network is very important in very large-scale integrated designs today, as it is the clock network that synchronizes all the elements of a chip, and it is also a major source of power dissipation of a system. Early study by Pham in 2006 shows that about 18.1% of the total clock capacitance was due to this postgrid clock routing (i.e., lower mesh wires plus clock twig wires). In this paper, we proposed a partition-based path expansion algorithm to solve this postgrid clock routing problem effectively. Experimental results on industrial test cases show that our algorithm can improve over the latest work by Shelar on this problem significantly by reducing the wire capacitance by 24.6% and the wirelength by 23.6%.

机译：在当今的超大规模集成设计中，设计高质量的时钟网络非常重要，因为它是使芯片所有元素同步的时钟网络，也是系统功耗的主要来源。 Pham在2006年进行的早期研究表明，总时钟电容的大约18.1％归因于这种后网格时钟布线（即，较低的网格线和时钟树枝线）。在本文中，我们提出了一种基于分区的路径扩展算法来有效解决该后网格时钟路由问题。在工业测试案例上的实验结果表明，我们的算法可以通过将导线电容减少24.6％，并将导线长度减少23.6％来显着改善Shelar在该问题上的最新工作。

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《Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on》 |2012年第2期|p.255-259|共5页
作者
Tian H.; Tang W.-C.; Young E. F. Y.; Sze C. N.;
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Department of Electrical and Computer Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, USA;

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正文语种 eng
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Clock routing; microprocessor design; postgrid;

机译：时钟路由;微处理器设计;后网格;

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专利

1. Injection-Locked Clocking: A Low-Power Clock Distribution Scheme for High-Performance Microprocessors [J] . Zhang L., Carpenter A., Ciftcioglu B., IEEE transactions on very large scale integration (VLSI) systems . 2008,第9期

机译：注入锁定时钟：一种用于高性能微处理器的低功耗时钟分配方案
2. Design of Fully Integrated Programmable PLL Frequency Synthesizers for Microprocessor Clocking at 1-1500 MHz [J] . V. D. Baikov, A. A. Garmash, Yu. B. Rogatkin, Russian Microelectronics . 2007,第2期

机译：用于1-1500 MHz微处理器时钟的全集成可编程PLL频率合成器的设计
3. Clocking design and analysis for a 600-MHz Alpha microprocessor [J] . Bailey D.W., Benschneider B.J. IEEE Journal of Solid-State Circuits . 1998,第11期

机译：600 MHz Alpha微处理器的时钟设计和分析
4. Grld-to-Ports Clock Routing for High Performance Microprocessor Designs [C] . Haitong Tian, Wai-Chung Tang, Evangeline F. Y. Young, Proceedings of the 2011 ACM/SIGDA international symposium on physical design. . 2011

机译：适用于高性能微处理器设计的从端口到端口的时钟路由
5. A novel double edge-triggered pulse-clocked TSPC D flip-flop for high-performance and low-power VLSI design applications. [D] . Pontikakis, Bill. 2003

机译：一种新颖的双边沿触发脉冲时钟TSPC D触发器，适用于高性能和低功耗VLSI设计应用。
6. The design of a microprocessor system for automatic signal averaging andpercentage purity calculations coupled to a nuclear magnetic resonancespectrometer [O] . F. Morley, I. K. ONeill, M. A. Pringuer, 1979

机译：用于自动信号平均和处理的微处理器系统的设计与核磁共振耦合的纯度百分比计算光谱仪
7. Postgrid Clock Routing for High Performance Microprocessor Designs [O] . Haitong Tian, Wai-chung Tang, Evangeline F. Y, 2013

机译：用于高性能微处理器设计的后栅格时钟路由
8. Electron Lithography STAR Design Guidelines. Part 3: The Mosaic Transistor Array Applied to Custom Microprocessors. Part 4: Stores Logic Arrays, SLAS Implemented with Clocked CMOS [R] . Trotter, J. D. 1982

机译：电子光刻sTaR设计指南。第3部分：用于定制微处理器的马赛克晶体管阵列。第4部分：存储逻辑阵列，sLas用时钟CmOs实现

Postgrid Clock Routing for High Performance Microprocessor Designs

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