Fast timing-driven partitioning-based placement for island style FPGAs

Pongstorn Maidee; Cristinel Ababei; Kia Bazargan

doi:10.1145/775983.775984

Fast timing-driven partitioning-based placement for island style FPGAs

Pongstorn Maidee, Cristinel Ababei, Kia Bazargan

Electrical and Computer Engineering

Research output: Contribution to journal › Conference article › peer-review

51 Scopus citations

Abstract

In this paper we propose a partitioning-based placement algorithm for FPGAs. The method incorporates simple, but effective heuristics that target delay minimization. The placement engine incorporates delay estimations obtained from previously placed and routed circuits using VPR [6]. As a result, the delay predictions during placement more accurately resemble those observed after detailed routing, which in turn leads to better delay optimization. An efficient terminal alignment heuristic for delay minimization is employed to further optimize the delay of the circuit in the routing phase. Simulation results show that the proposed technique can achieve comparable circuit delays (after routing) to those obtained with VPR while achieving a 7-fold speedup in placement runtime.

Original language	English (US)
Pages (from-to)	598-603
Number of pages	6
Journal	Proceedings - Design Automation Conference
DOIs	https://doi.org/10.1145/775983.775984
State	Published - 2003
Event	Proceedings of the 40th Design Automation Conference - Anaheim, CA, United States Duration: Jun 2 2003 → Jun 6 2003

Keywords

FPGA placement
FPGAs
Partitioning based placement
Timing-driven placement

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abstract = "In this paper we propose a partitioning-based placement algorithm for FPGAs. The method incorporates simple, but effective heuristics that target delay minimization. The placement engine incorporates delay estimations obtained from previously placed and routed circuits using VPR [6]. As a result, the delay predictions during placement more accurately resemble those observed after detailed routing, which in turn leads to better delay optimization. An efficient terminal alignment heuristic for delay minimization is employed to further optimize the delay of the circuit in the routing phase. Simulation results show that the proposed technique can achieve comparable circuit delays (after routing) to those obtained with VPR while achieving a 7-fold speedup in placement runtime.",

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AU - Ababei, Cristinel

AU - Bazargan, Kia

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N2 - In this paper we propose a partitioning-based placement algorithm for FPGAs. The method incorporates simple, but effective heuristics that target delay minimization. The placement engine incorporates delay estimations obtained from previously placed and routed circuits using VPR [6]. As a result, the delay predictions during placement more accurately resemble those observed after detailed routing, which in turn leads to better delay optimization. An efficient terminal alignment heuristic for delay minimization is employed to further optimize the delay of the circuit in the routing phase. Simulation results show that the proposed technique can achieve comparable circuit delays (after routing) to those obtained with VPR while achieving a 7-fold speedup in placement runtime.

AB - In this paper we propose a partitioning-based placement algorithm for FPGAs. The method incorporates simple, but effective heuristics that target delay minimization. The placement engine incorporates delay estimations obtained from previously placed and routed circuits using VPR [6]. As a result, the delay predictions during placement more accurately resemble those observed after detailed routing, which in turn leads to better delay optimization. An efficient terminal alignment heuristic for delay minimization is employed to further optimize the delay of the circuit in the routing phase. Simulation results show that the proposed technique can achieve comparable circuit delays (after routing) to those obtained with VPR while achieving a 7-fold speedup in placement runtime.

KW - FPGA placement

KW - FPGAs

KW - Partitioning based placement

KW - Timing-driven placement

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Fast timing-driven partitioning-based placement for island style FPGAs

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