性能规划

Proceedings 1998 Design and Automation Conference. 35th DAC. (Cat. No.98CH36175) Pub Date : 1998-05-01 DOI:10.1145/277044.277071

R. Otten, R. Brayton

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引用次数: 151

摘要

提出了VLSI电路设计的一种方法。在常规设计中，更高层次的合成产生一个网表，布局合成从中建立一个制造的掩模规格。时序分析内置于反馈回路中，以检测时序违规，然后用于更新规范以进行合成。这样的迭代是不可取的，并且对于非常高性能的设计是不可行的。随着未来几代技术的发展，这个问题可能会变得更糟。为了实现非迭代的设计流程，我们建议早期的合成阶段应该使用“线规划”来分配功能元素和互连上的延迟，并且布局合成应该使用其自由度来实现这些延迟。在本文中，我们试图为未来的技术量化这个问题，并提出了一些“恒定延迟”方法的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Planning for performance

A shift is proposed in the design of VLSI circuits. In conventional design, higher levels of synthesis produce a netlist, from which layout synthesis builds a mask specification for manufacturing. Timing analysis is built into a feedback loop to detect timing violations which are then used to update specifications to synthesis. Such iteration is undesirable, and for very high performance designs, infeasible. The problem is likely to become much worse with future generations of technology. To achieve a non-iterative design flow, we propose that early synthesis stages should use "wireplanning" to distribute delays over the functional elements and interconnect, and layout synthesis should use its degrees of freedom to realize those delays. In this paper we attempt to quantify this problem for future technologies and propose some solutions for a "constant delay" methodology.

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来源期刊

Proceedings 1998 Design and Automation Conference. 35th DAC. (Cat. No.98CH36175)

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