DocumentCode
451884
Title
High-Performance Routing Trees with Identified Critical Sinks
Author
Boese, Kenneth D. ; Kahng, Andrew B. ; Robins, Gabriel
Author_Institution
Computer Science Department, University of California at Los Angeles, Los Angeles, CA
fYear
1993
fDate
14-18 June 1993
Firstpage
182
Lastpage
187
Abstract
We present two critical-sink routing tree (CSRT) constructions which exploit critical-path information that becomes available during timing-driven layout. Our CS-Steiner heuristics with "Global Slack Removal" modify traditional Steiner constructions and produce routing trees with significantly lower critical-sink delays compared with existing performance-driven methods. We also propose a new class of Elmore routing tree (ERT) constructions, which iteratively add tree edges to minimize Elmore delay. This direct optimization of Elmore delay yields trees that improve delays to identified critical sinks by up to 69% over minimum Steiner routings. ERTs also improve performance over such recent methods as [1] [6] when no critical sinks are specified.
Keywords
Capacitance; Computer science; Costs; Delay estimation; Performance analysis; Routing; Steiner trees; Timing; Topology; Wire;
fLanguage
English
Publisher
ieee
Conference_Titel
Design Automation, 1993. 30th Conference on
ISSN
0738-100X
Print_ISBN
0-89791-577-1
Type
conf
DOI
10.1109/DAC.1993.203943
Filename
1600216
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