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Publication Type technical report
School or College College of Engineering
Department Computing, School of
Creator Grodstein, Joel
Title Sisyphus, an environment for simulation
Date 1986-12
Description Sisyphus is an environment for the simulation of integrated circuits (ICs). It supports hierarchical simulation from the functional block level down to circuit analysis. Sisyphus develops a new hierarchical wire model (based on that of Sable) which facilitates the accurate simulation of incomplete designs. Sisyphus provides a testbed for the coding of new algorithms; the coding of existing algorithms has been accomplished, using Sisyphus resources, in a fraction of the effort needed elsewhere. It also supports a wide range of simulation algorithms including Iterated Timing Analysis and Mossim; different simulation algorithms are integrated via partitioning a circuit into subnetworks, and simulating each with the most appropriate algorithms. The possibility of combining multiple simulation algorithms, each where it is most effective, is shown to result in significantly faster or more accurate simulation The design perspective of Sisyphus, its implementation, and the results of using Sisyphus are examined here.
Type Text
Subject sisyphus; computer program language; computer programming; ICs
Language eng
Bibliographic Citation Grodstein, J. (1986). Sisyphus, an environment for simulation.
Series University of Utah Computer Science Technical Report
Relation is Part of ARPANET
Format Medium application/pdf
Format Extent 36,669,290 bytes
File Name Grodstein-Sisyphus_An_Environment.pdf
Conversion Specifications Original scanned with Kirtas 2400 and saved as 400 ppi uncompressed TIFF. PDF generated by Adobe Acrobat Pro X for CONTENTdm display
ARK ark:/87278/s6fj4j3j
Setname ir_computersa
ID 98540
Reference URL https://collections.lib.utah.edu/ark:/87278/s6fj4j3j

Page Metadata

Title Page 24
Setname ir_computersa
ID 98468
Reference URL https://collections.lib.utah.edu/ark:/87278/s6fj4j3j/98468
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