Timing Analysis of Extended Burst-Mode Circuits

Eindhoven, THE NETHERLANDS April 07-April 10

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http://doi.ieeecomputersociety.org/10.1109/ASYNC.1997.587167

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	Supratik Chakraborty, David L. Dill, Kun-Yung Chang, Kenneth Y. Yun, "Timing Analysis of Extended Burst-Mode Circuits," Asynchronous Circuits and Systems, International Symposium on, pp. 101, Third International Symposium on Advanced Research in Asynchronous Circuits and Systems (ASYNC '97), 1997.

	BibTex	x
	@article{ 10.1109/ASYNC.1997.587167, author = {Supratik Chakraborty and David L. Dill and Kun-Yung Chang and Kenneth Y. Yun}, title = {Timing Analysis of Extended Burst-Mode Circuits}, journal ={Asynchronous Circuits and Systems, International Symposium on}, volume = {0}, year = {1997}, isbn = {0-8186-7922-0}, pages = {101}, doi = {http://doi.ieeecomputersociety.org/10.1109/ASYNC.1997.587167}, 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 - Timing Analysis of Extended Burst-Mode Circuits SN - 0-8186-7922-0 SP EP A1 - Supratik Chakraborty, A1 - David L. Dill, A1 - Kun-Yung Chang, A1 - Kenneth Y. Yun, PY - 1997 KW - Extended burst-mode circuits KW - 3D design style KW - global timing constraints KW - uncertain component delays KW - thirteen-valued signal algebra KW - polynomial-time VL - 0 JA - Asynchronous Circuits and Systems, International Symposium on ER -

Supratik Chakraborty, Stanford University

David L. Dill, Stanford University

Kun-Yung Chang, Stanford University

Kenneth Y. Yun, University of California, San Diego

We describe an efficient timing analysis technique for extended burst-mode circuits implemented according to the 3D design style. Gate-level 3D circuits with uncertain component delays are analyzed, and safe bounds on timing constraints for correct circuit operation are computed. We employ two passes of multi-valued logic simulation to precisely identify gates where timing constraint violations manifest themselves. Signal propagation delay bounds from the primary inputs to these gates are then used to compute global timing constraints for correct circuit operation. Timing constraints identified by our tool represent conservative approximations to the true timing requirements in the worst-case. In practice, our results are accurate for all of the 3D benchmarks we have experimented with.

Index Terms:

Extended burst-mode circuits, 3D design style, global timing constraints, uncertain component delays, thirteen-valued signal algebra, polynomial-time

Citation:

Supratik Chakraborty, David L. Dill, Kun-Yung Chang, Kenneth Y. Yun, "Timing Analysis of Extended Burst-Mode Circuits," async, pp.101, Third International Symposium on Advanced Research in Asynchronous Circuits and Systems (ASYNC '97), 1997

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