Electronic Systems Design Seminar
http://www-cad.eecs.berkeley.edu/esd-seminar


 

Architecture-Level Synthesis for Automatic Interconnect Pipelining

Jason Cong

CS Dept., University of California at Los Angeles

Wednesday, May 5th, 2004, 11am
540A/B Cory Hall (D.O.P. Center Classroom)

Abstract

For multi-gigahertz synchronous designs in nanometer technologies, multiple clock cycles are needed to cross the global interconnects, thus making it necessary to have pipelined global interconnects. In this paper we present an architecture-level synthesis solution to support automatic pipelining of on-chip interconnects. Specifically, we extend the recently proposed Regular Distributed Register (RDR) micro-architecture to support interconnect pipelining. We formulate a novel global interconnect sharing problem for global wiring minimization and show that it is polynomial time solvable by transformation to a special case of the real-time scheduling problem. Experimental results show that our approach improves the conventional approach by 38% on average in terms of the clock period and 31% improvement on average in terms of the final latency, which matches or exceeds the RDR-based approach in performance, but with a significant wiring reduction of 15% to 21%.

Speaker

Jason Cong received the M.S. and Ph.D. degrees from the University of Illinois, Urbana-Champaign, in 1987 and 1990, respectively, all in computer science. Currently, he is a Professor and Co-Director of the VLSI CAD Laboratory in the Computer Science Department, University of California, Los Angeles. He has been appointed as a Guest Professor at Peking University since 2000.  His research interests include layout synthesis and logic synthesis for high-performance low-power VLSI circuits, design and optimization of high-speed VLSI interconnects, field-programmable gate array (FPGA) synthesis, and reconfigurable computing.

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