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A Boolean approach to performance-directed technology mapping for LUT-based FPGA designs

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3 Author(s)
C. Legl ; Inst. of Electron. Design Automation, Tech. Univ. Munchen, Germany ; B. Wurth ; K. Eckl

This paper presents a novel Boolean approach to LUT-based FPGA technology mapping targeting high performance. At the core of the approach, we have developed a powerful functional decomposition algorithm. The impact of decomposition is enhanced by a preceding collapsing step. To decompose functions for small depth and area, we present an iterative, BDD-based variable partitioning procedure. The procedure optimizer the variable partition for each bound set size by iteratively exchanging variables between bound set and free set, and finally selects a good bound set size. Our decomposition algorithm extracts common subfunctions of multiple-output functions and thus further reduces area and the maximum interconnect lengths. Experimental results show that our new algorithm produces circuits with significantly smaller depths than other performance-oriented mappers. This advantage also holds for the actual delays after placement and routing

Published in:

Design Automation Conference Proceedings 1996, 33rd

Date of Conference:

3-7 Jun, 1996