M
Marek Perkowski
Researcher at Portland State University
Publications - 338
Citations - 6047
Marek Perkowski is an academic researcher from Portland State University. The author has contributed to research in topics: Logic synthesis & Boolean function. The author has an hindex of 38, co-authored 328 publications receiving 5809 citations. Previous affiliations of Marek Perkowski include East West University & Warsaw University of Technology.
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Proceedings ArticleDOI
Analysis of Reversible and Quantum Finite State Machines Using Homing, Synchronizing and Distinguishing Input Sequences
TL;DR: An analysis of the Reversible and Quantum Finite State Machines (QFSM) realized as Quantum Circuits is presented using the three well known sequences applied in theAnalysis of the classical Finite state Machines (FSM).
Journal ArticleDOI
Realization of a new permutative gate library using controlled-kth-root-of-NOT quantum gates for exact minimization of quantum circuits
TL;DR: This paper proposes some new CV∕CV+-like gates and presents a novel generic method to quickly and directly construct this new optimal quantum logic gate library using CNOT and these non-permutative quantum gates.
Journal ArticleDOI
ETDD-based synthesis of two-dimensional cellular arrays for multi-output incompletely specified Boolean functions
TL;DR: The paper presents an approach to the generation of complex terms for multi-output incompletely specified Boolean functions using EXOR ternary decision diagrams ETDDs, and an approximation algorithm is presented with its applications to the minimisation of functions composed ofcomplex terms.
Journal ArticleDOI
An Extended Approach for Generating Unitary Matrices for Quantum Circuits
TL;DR: This paper proposes an algorithm for computing the circuit unitary matrices in detail and applies it to different reversible benchmark circuits based on NCT library and generalized Toffoli (GT) library and provides experimental results.
for a Field-Programmable Analog Array
TL;DR: The AN10E40 brings to analog what FPGAs brought to digital; extremely rapid production and prototype circuit realization with field re-programmability; and both digital and analog designers a competitive advantage in designing analog circuits that cant really be compared to any other design system in existence.