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ICCAD
2004
IEEE
2004
IEEE
Physical placement driven by sequential timing analysis
Traditional timing-driven placement considers only combinational delays and does not take into account the potential of subsequent sequential optimization steps. As a result, the potential of re-balancing path delays through post-placement applications of clock skew scheduling and in-place retiming cannot be fully realized. In this paper we describe a new placement algorithm that is based on a tight integration of sequential timing analysis in the inner loop of an analytic solver. Instead of minimizing the maximum path delay, our approach minimizes the maximum mean delay on any circuit loop, thus enabling the full optimization potential of clock skew scheduling and in-place retiming. We present two versions of the new algorithm: one approximates sequential criticality and weights wires accordingly [1], the other extends this with the inclusion of explicit wire-length constraints for loops that limit the final clock period. Our algorithms are implemented using a hybrid, GORDIAN-style ...
Real-time TrafficClock Skew Scheduling | Combinational Delays | Hardware | ICCAD 2004 | Presented Placement Algorithm |
Related Content
| Added | 16 Mar 2010 |
| Updated | 16 Mar 2010 |
| Type | Conference |
| Year | 2004 |
| Where | ICCAD |
| Authors | Aaron P. Hurst, Philip Chong, Andreas Kuehlmann |
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