Overview

After long years of work that have seen little industrial application, high-level synthesis is finally on the verge of becoming a practical tool. The state of high-level synthesis today is similar to the state of logic synthesis ten years ago. At present, logic-synthesis tools are widely used in digital system design. In the future, high-level synthesis will play a key role in mastering design complexity and in truly exploiting the potential of ASIes and PLDs, which demand extremely short design cycles. Work on high-level synthesis began over twenty years ago. Since substantial progress has been made in understanding the basic then, problems involved, although no single universally-accepted theoretical framework has yet emerged. There is a growing number of publications devoted to high-level synthesis, specialized workshops are held regularly, and tutorials on the topic are commonly held at major conferences. This book gives an extensive survey of the research and development in high-level synthesis. In Part I, a short tutorial explains the basic concepts used in high-level synthesis, and follows an example design throughout the synthesis process. In Part II, current high-level synthesis systems are surveyed.

Full Product Details

Author:   Robert A. Walker ,  Raul Camposano
Publisher:   Springer
Imprint:   Springer
Edition:   1991 ed.
Volume:   135
Dimensions:   Width: 15.50cm , Height: 1.20cm , Length: 23.50cm
Weight:   1.000kg
ISBN:  

9780792391586

ISBN 10:   0792391586
Pages:   182
Publication Date:   30 June 1991
Audience:   College/higher education ,  Professional and scholarly ,  Postgraduate, Research & Scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

I — Introduction to High-Level Synthesis.- to High-Level Synthesis.- II— Survey of High-Level Synthesis Systems.- AT&T’s Algorithms to Silicon Project.- AT&T’s Bridge System.- AT&T’s CHARM System.- Carleton’s Elf System.- Carleton’s HAL System.- Carnegie Mellon’s (First) CMU-DA System.- Carnegie Mellon’s (Second) CMU-DA System.- Carnegie Mellon’s System Architect’s Workbench.- Carnegie Mellon’s Facet/Emerald System.- Case Western’s ADPS System.- Eindhoven Univ. of Technology’s System.- GE’s FACE/PISYN System.- Honeywell’s V-Synth System.- IBM’s ALERT System.- IBM’s HIS System.- IBM’s V Compiler.- IBM’s Yorktown Silicon Compiler.- IIT Delhi’s Synthesis System.- IMEC’s CATHEDRAL-II System.- IMEC’s CATHEDRAL-2nd System.- IMEC’s CATHEDRAL-III System.- Linköping University’s CAMAD System.- NTT’s HARP System.- Philips’ PIRAMID System.- Siemens’ Synthesis System.- Stanford’s Flamel System.- Stanford’s Olympus System.- Tsing Hua University’s ALPS/LYRA/ARYL System.- Univ. of California at Berkeley’s HYPER System.- Univ. of California at Berkeley’s Synthesis System.- Univ. of California at Irvine’s VSS.- Univ. of Illinois’ Chippe/Slicer/Splicer System.- Univ. of Illinois’ IBA System.- Univ. of Karlsruhe’s DSL Synthesis System/CADDY System.- Univ. of Kiel’s MIMOLA System.- Univ. of Paderborn’s PARBUS System.- Univ. of Southern California’s ADAM System.- Univ. of Texas at Austin’s DAGAR System.- Univ. of Waterloo’s CATREE System.- Univ. of Waterloo’s VLSI CAD Tools.

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