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GLVLSI
2007
IEEE
2007
IEEE
New timing and routability driven placement algorithms for FPGA synthesis
We present new timing and congestion driven FPGA placement algorithms with minimal runtime overhead. By predicting the post-routing critical edges and estimating congestion accurately, our algorithms simultaneously reduce the critical path delay and the minimum number of routing tracks. The core of our algorithm consists of a criticalityhistory record of connection edges and a congestion map. This approach is applied to the 20 largest MCNC benchmark circuits. Experimental results show that compared with VPR [2], our algorithms yield an average of 8.1% reduction (maximum 30.5%) in the critical path delay and 5% reduction in channel width. Meanwhile, the average runtime of our algorithms is only 2.3X as of VPR’s. Categories and Subject Descriptors B.7.2 [Hardware, Integrated Circuit, Design Aids]: Placement and Routing General Terms Algorithms, Design, Performance, Congestion Keywords Timing Driven Placement, Congestion Driven Placement, Physical Synthesis, Net Weight
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| Added | 02 Jun 2010 |
| Updated | 02 Jun 2010 |
| Type | Conference |
| Year | 2007 |
| Where | GLVLSI |
| Authors | Yue Zhuo, Hao Li, Qiang Zhou, Yici Cai, Xianlong Hong |
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