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VLSID
2002
IEEE
2002
IEEE
Floorplan Evaluation with Timing-Driven Global Wireplanning, Pin Assignment and Buffer/Wire Sizing
We describe a new algorithm for floorplan evaluation using timing-driven buffered routing according to a prescribed buffer site map. Specifically, we describe a provably good multi-commodity flow based algorithm that finds a global routing minimizing routing area (wirelength and number of buffers) subject to given constraints on buffer/wire congestion and sink delays. This permits detailed floorplan evaluation, i.e., computing the tradeoff curve between routing area and wire/buffer congestion under any combination of delay and capacity constraints. Our algorithm (1) enforces maximum source/buffer wireloads; (2) enforces wire and buffer congestion constraints by taking into account routing channel capacities and buffer site locations; (3) enforces individual sink delay constraints; (4) performs buffer/wire sizing and layer assignment; and (5) integrates pin assignment with virtually no increase in runtime. Preliminary experiments show that near-optimal results are obtained with a pract...
Real-time TrafficAccount Routing Channel | Computer Architecture | Congestion Constraints | Sink Delay Constraints | VLSID 2002 |
| Added | 01 Dec 2009 |
| Updated | 01 Dec 2009 |
| Type | Conference |
| Year | 2002 |
| Where | VLSID |
| Authors | Christoph Albrecht, Andrew B. Kahng, Ion I. Mandoiu, Alexander Zelikovsky |
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