Stretching quasi delay insensitivity by means of extended isochronic forks

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	Similar Articles Articles by K. Van Berkel Articles by F. Huberts Articles by A. Peeters

Second Working Conference on Asynchronous Design Methodologies

London, England

May 30-May 31

ISBN: 0-8186-7098-3

	ASCII Text	x
	K. Van Berkel, F. Huberts, A. Peeters, "Stretching quasi delay insensitivity by means of extended isochronic forks," Asynchronous Circuits and Systems, International Symposium on, pp. 99, Second Working Conference on Asynchronous Design Methodologies, 1995.

	BibTex	x
	@article{ 10.1109/WCADM.1995.514647, author = {K. Van Berkel and F. Huberts and A. Peeters}, title = {Stretching quasi delay insensitivity by means of extended isochronic forks}, journal ={Asynchronous Circuits and Systems, International Symposium on}, volume = {0}, year = {1995}, isbn = {0-8186-7098-3}, pages = {99}, doi = {http://doi.ieeecomputersociety.org/10.1109/WCADM.1995.514647}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Asynchronous Circuits and Systems, International Symposium on TI - Stretching quasi delay insensitivity by means of extended isochronic forks SN - 0-8186-7098-3 SP EP A1 - K. Van Berkel, A1 - F. Huberts, A1 - A. Peeters, PY - 1995 KW - asynchronous circuits; logic design; delay insensitivity; extended isochronic forks; handshake circuits; isochronic-fork assumption; asynchronous circuits; double-rail data paths; DCC error decoder; arbiter VL - 0 JA - Asynchronous Circuits and Systems, International Symposium on ER -

K. Van Berkel, Philips Res. Lab., Eindhoven, Netherlands

F. Huberts, Philips Res. Lab., Eindhoven, Netherlands

A. Peeters, Philips Res. Lab., Eindhoven, Netherlands

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/WCADM.1995.514647

Handshake circuits can be mapped onto QDI circuits using generic standard-cells only. Despite several interesting optimizations, the resulting circuits are large. By extending the isochronic-fork assumption, we arrive at a class of asynchronous circuits that particularly allow efficient realizations of double-rail data paths. This paper defines the extended isochronic fork, discusses its implementation, and provides numerous examples. The impact on circuit costs is evaluated for a DCC error decoder. In an appendix a basic arbiter (mutual-exclusion element) is presented that requires simple CMOS gates only. We also propose a 3-way generalization of this arbiter.

Index Terms:

asynchronous circuits; logic design; delay insensitivity; extended isochronic forks; handshake circuits; isochronic-fork assumption; asynchronous circuits; double-rail data paths; DCC error decoder; arbiter

Citation:

K. Van Berkel, F. Huberts, A. Peeters, "Stretching quasi delay insensitivity by means of extended isochronic forks," async, pp.99, Second Working Conference on Asynchronous Design Methodologies, 1995

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