Crosstalk noise control in an SoC physical design flow

Becer M.; Vaidyanathan R.; Oh C.; Panda R.

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Crosstalk noise control in an SoC physical design flow

机译：SoC物理设计流程中的串扰噪声控制

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Signal integrity closure is one of the key challenges in deep submicron physical design. In this paper, we propose a physical design methodology which includes signal integrity management through crosstalk noise analysis and repair at multiple phases of the design so that a quick noise convergence can be achieved. The methodology addresses both functional and delay noise problems in the design and is targeted for block-, platform-, and chip-level physical design of system-on-chip designs. A number of case studies are presented to illustrate the effectiveness of the proposed methodology and to provide valuable insights useful for successful signal integrity management.

机译：信号完整性封闭是深亚微米物理设计中的关键挑战之一。在本文中，我们提出了一种物理设计方法，其中包括通过串扰噪声分析进行信号完整性管理以及在设计的多个阶段进行修复，以便可以实现快速的噪声收敛。该方法论解决了设计中的功能性噪声和延迟噪声问题，并针对片上系统设计的块，平台和芯片级物理设计。提出了许多案例研究，以说明所提出方法的有效性，并提供对成功进行信号完整性管理有用的宝贵见解。

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来源
《IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems》 |2004年第4期|p.488-497|共10页
作者
Becer M.; Vaidyanathan R.; Oh C.; Panda R.;
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作者单位

Adv. Tools Group, Motorola Inc., Austin, TX, USA;

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原文格式 PDF
正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
system-on-chip; crosstalk; integrated circuit design; integrated circuit noise; circuit CAD; crosstalk noise control; SoC; physical design flow; signal integrity closure; deep submicron physical design; signal integrity management; crosstalk noise analysis; noise convergence; delay noise problems; block-level physical design; platform-level physical design; chip-level physical design; system-on-chip designs;

机译：片上系统;串扰;集成电路设计;集成电路噪声;电路CAD;串扰噪声控制;SoC;物理设计流程;信号完整性封闭;深亚微米物理设计;信号完整性管理;串扰噪声分析;噪声收敛;延迟噪声问题;块级物理设计;平台级物理设计;芯片级物理设计;片上系统设计;

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1. Crosstalk between Cold Response and Flowering in Arabidopsis Is Mediated through the Flowering-Time Gene SOC1 and Its Upstream Negative Regulator FLC [J] . Eunjoo Seo, Horim Lee, Jin Jeon, THE PLANT CELL . 2009,第10期

机译：拟南芥中冷响应与开花之间的串扰是通过开花时间基因SOC1及其上游负调控因子FLC介导的。
2. Crosstalk between Cold Response and Flowering in Arabidopsis Is Mediated through the Flowering-Time Gene SOC1 and Its Upstream Negative Regulator FLC. [J] . Seo Eunjoo, Lee Horim, Jeon Jin, The Plant Cell . 2009,第10期

机译：拟南芥中冷响应与开花之间的串扰是通过开花时间基因SOC1及其上游负调控因子FLC介导的。
3. Power supply design parameters for switching-noise control in deep-submicron circuits design flows [J] . M. Graziano, G. Masera, G. Piccinini, Analog Integrated Circuits and Signal Processing . 2002,第3期

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4. Closed-Form Crosstalk Noise Metrics for Physical Design Applications [C] . L. Chen, M. Marek-Sadowska International conference on computer systems and technologies and workshop for PhD students in computing 2009 . 2009

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5. Minimization of interconnect crosstalk noise and power consumption in nanoscale designs [D] . Saha, Sujan Kumar. 2016

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6. Crosstalk between Cold Response and Flowering in Arabidopsis Is Mediated through the Flowering-Time Gene SOC1 and Its Upstream Negative Regulator FLC [O] . Eunjoo Seo, Horim Lee, Jin Jeon, 2009

机译：拟南芥中冷响应与开花之间的串扰是通过开花时间基因SOC1及其上游负调控因子FLC介导的。
7. Crosstalk between Cold Response and Flowering in Arabidopsis Is Mediated through the Flowering-Time Gene SOC1 and Its Upstream Negative Regulator FLC [O] . Seo, Eunjoo, Lee, Horim, Jeon, Jin, 2009

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8. Reduced-Noise Gas Flow Design Guide Developed as a Noise-Control Design Tool for Meeting Glenn's Hearing Conservation and Community Noise Goals. [R] . B. A. Cooper 2000

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Crosstalk noise control in an SoC physical design flow

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