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ISPD
2007
ACM
2007
ACM
X-architecture placement based on effective wire models
In this paper, we derive the X-half-perimeter wirelength (XHPWL) model for X-architecture placement and explore the effects of three different wire models on X-architecture placement, including the Manhattan-half-perimeter wirelength (MHPWL) model, the XHPWL model, and the X-Steiner wirelength (XStWL) model. For min-cut partitioning placement, we propose a generalized net-weighting method that can exactly model the wirelength after partitioning by the net weight. The net-weighting method is general and can be incorporated into any wire models such as the XHPWL and XStWL models. For analytical placement, we smooth the XHPWL function using log-sum-exp functions to facilitate analytical placement. Our study shows that both the XHPWL model and the XStWL model can reduce the X wirelength. In particular, our results reveal the effectiveness of the X architecture on wirelength reduction during placement and thus the importance of the study on the Xplacement algorithms, which is different...
Real-time TrafficAnalytical Placement | Hardware | ISPD 2007 | Min-cut Partitioning Placement | X-architecture Placement |
| Added | 26 Oct 2010 |
| Updated | 26 Oct 2010 |
| Type | Conference |
| Year | 2007 |
| Where | ISPD |
| Authors | Tung-Chieh Chen, Yi-Lin Chuang, Yao-Wen Chang |
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