Synthesis of speed independent circuits based on decomposition

Author

Yoneda, Tomohiro ; Onda, Hiroomi ; Myers, Chris

Author_Institution

National Inst. of Informatics, Tokyo, Japan

fYear

2004

fDate

19-23 April 2004

Firstpage

135

Lastpage

145

Abstract

This work presents a decomposition method for speed-independent circuit design that is capable of significantly reducing the cost of synthesis. In particular, this method synthesizes each output individually. It begins by contracting the STG to include only transitions on the output of interest and its trigger signals. Next, the reachable state space for this contracted STG is analyzed to determine a minimal number of additional signals which must be reintroduced into the STG to obtain CSC. The circuit for this output is then synthesized from this STG. Results show that the quality of the circuit implementation is nearly as good as the one found from the full reachable state space, but it can be applied to find circuits for which full state space methods cannot be successfully applied. The proposed method has been implemented as a part of our tool nutas (Nii-Utah timed asynchronous circuit synthesis system).

Keywords

asynchronous circuits; graph theory; high level synthesis; CSC; STG; additional signals; circuit implementation; decomposition method; nutas; output synthesis; reachable state space; speed independent circuits; synthesis cost reduction; timed asynchronous circuit synthesis system; trigger signals; Asynchronous circuits; Circuit synthesis; Costs; Hardware design languages; Informatics; Logic; Optimization methods; Signal analysis; Signal synthesis; State-space methods;

fLanguage

English

Publisher

ieee

Conference_Titel

Asynchronous Circuits and Systems, 2004. Proceedings. 10th International Symposium on

ISSN

1522-8681

Print_ISBN

0-7695-2133-9

Type

conf

DOI

10.1109/ASYNC.2004.1299295

Filename

1299295