Quadratic placement using an improved timing model

Bernd Obermeier; Frank M. Johannes

doi:10.1145/996566.996760

Quadratic placement using an improved timing model

Bernd Obermeier, Frank M. Johannes

Associate Professorship of Plant Epigenomics

Technical University of Munich

Research output: Contribution to journal › Conference article › peer-review

10 Scopus citations

Abstract

The performance of timing-driven placement methods depends strongly on the choice of the net model. In this paper a more precise net model is presented that does not increase numerical complexity. We introduce a method that replaces the clique model of a net by a tree model in the quadratic placement formulation. This improvement enables us to control the length of every tree segment separately. Furthermore, we present an analysis of the effects of every tree segment to the net delay. The result is in turn used to control the placement engine. Our presented results are based on legal placements. They show significant improvements over state-of-the art methods.

Original language	English
Pages (from-to)	705-710
Number of pages	6
Journal	Proceedings - Design Automation Conference
DOIs	https://doi.org/10.1145/996566.996760
State	Published - 2004
Event	Proceedings of the 41st Design Automation Conference - San Diego, CA, United States Duration: 7 Jun 2004 → 11 Jun 2004

Keywords

Optimization potential
Quadratic placement
Sensitivity
Steiner tree net model
Timing driven placement

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10.1145/996566.996760

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title = "Quadratic placement using an improved timing model",

abstract = "The performance of timing-driven placement methods depends strongly on the choice of the net model. In this paper a more precise net model is presented that does not increase numerical complexity. We introduce a method that replaces the clique model of a net by a tree model in the quadratic placement formulation. This improvement enables us to control the length of every tree segment separately. Furthermore, we present an analysis of the effects of every tree segment to the net delay. The result is in turn used to control the placement engine. Our presented results are based on legal placements. They show significant improvements over state-of-the art methods.",

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AU - Obermeier, Bernd

AU - Johannes, Frank M.

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AB - The performance of timing-driven placement methods depends strongly on the choice of the net model. In this paper a more precise net model is presented that does not increase numerical complexity. We introduce a method that replaces the clique model of a net by a tree model in the quadratic placement formulation. This improvement enables us to control the length of every tree segment separately. Furthermore, we present an analysis of the effects of every tree segment to the net delay. The result is in turn used to control the placement engine. Our presented results are based on legal placements. They show significant improvements over state-of-the art methods.

KW - Optimization potential

KW - Quadratic placement

KW - Sensitivity

KW - Steiner tree net model

KW - Timing driven placement

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AN - SCOPUS:4444259540

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JO - Proceedings - Design Automation Conference

JF - Proceedings - Design Automation Conference

T2 - Proceedings of the 41st Design Automation Conference

Y2 - 7 June 2004 through 11 June 2004

ER -

Quadratic placement using an improved timing model

Abstract

Keywords

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