M
Michael Kishinevsky
Researcher at Intel
Publications - 147
Citations - 3871
Michael Kishinevsky is an academic researcher from Intel. The author has contributed to research in topics: Asynchronous communication & Petri net. The author has an hindex of 32, co-authored 139 publications receiving 3638 citations. Previous affiliations of Michael Kishinevsky include University of Aizu & Technical University of Denmark.
Papers
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Journal Article
Petrify: a tool for manipulating concurrent specifications and synthesis of asynchronous controllers
TL;DR: Petrify as discussed by the authors is a tool for manipulating concurrent specifications and synthesis and optimization of asynchronous control circuits given a Petri Net (PN), a Signal Transition Graph (STG), or a Transition System (TS) it generates another PN or STG which is simpler than the original description and produces an optimized net-list of an asynchronous controller in the target gate library.
Journal ArticleDOI
Deriving Petri nets from finite transition systems
TL;DR: A novel method to derive a Petri net from any specification model that can be mapped into a state-based representation with arcs labeled with symbols from an alphabet of events (a Transition System, TS) by using the following three mechanisms.
Book
Concurrent hardware : the theory and practice of self-timed design
Michael Kishinevsky,Alex Kondratyev,Alexander Taubin,Victor Varshavsky,Alex Yakovlev,Eric Napelbaum,Olga Reva +6 more
TL;DR: The Models of Parallel Processes Specification and the Behaviour of the Circuits Verification of Parallel System Behaviour Through Formal Models and the Relationship between the State and Event Models are reviewed.
Proceedings ArticleDOI
Synthesis of synchronous elastic architectures
TL;DR: A formal specification of the protocol is defined and an efficient scheme for the implementation of elasticity that involves no datapath overhead is presented, opening up opportunities for microarchitectural design.
Book
Logic Synthesis for Asynchronous Controllers and Interfaces
TL;DR: This book is devoted to logic synthesis and design techniques for asynchronous circuits and uses the mathematical theory of Petri Nets and asynchronous automata to develop practical algorithms implemented in a public domain CAD tool.