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DAC
2004
ACM
2004
ACM
Placement feedback: a concept and method for better min-cut placements
The advent of strong multi-level partitioners has made topdown min-cut placers a favored choice for modern placer implementations. We examine terminal propagation, an important step in min-cut placers, because it is responsible for translating partitioning results into global placement wirelength assumptions. In this work, we identify a previously overlooked problem - ambiguous terminal propagation - and propose a solution based on the concept of feedback from automatic control systems. Implementing our approach in Capo (version 8.7 [5, 10]) and applying it to standard benchmark circuits yields up to 14% wirelength reductions for the IBM benchmarks and 10% reductions for PEKO instances. Experiments also show consistent improvements for routed wirelength, yielding up to 9% wirelength reductions with practical increase in placement runtime. In addition, our method significantly improves routability without building congestion maps, and reduces the number of vias. Categories and Subject ...
Real-time TrafficAmbiguous Terminal Propagation | DAC 2004 | Design Automation | Min-cut Placers | Strong Multi-level Partitioners |
| Added | 13 Nov 2009 |
| Updated | 30 Aug 2010 |
| Type | Conference |
| Year | 2004 |
| Where | DAC |
| Authors | Andrew B. Kahng, Sherief Reda |
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