Alexis De Vos

According to our database1, Alexis De Vos authored at least 41 papers between 1999 and 2024.

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Bibliography

2024
X, Y, and Z Subgroups of the Unitary Group.
Open Syst. Inf. Dyn., September, 2024

2022
Reversible Computation in Integrated Photonics.
Proceedings of the Reversible Computation - 14th International Conference, 2022

2020
Endoreversible Models for the Thermodynamics of Computing.
Entropy, 2020

2019
A Birkhoff Connection Between Quantum Circuits and Linear Classical Reversible Circuits.
Proceedings of the Reversible Computation - 11th International Conference, 2019

2018
Synthesis of Quantum Circuits vs. Synthesis of Classical Reversible Circuits
Synthesis Lectures on Digital Circuits and Systems, Morgan & Claypool Publishers, ISBN: 978-3-031-79895-5, 2018

A Unified Approach to Quantum Computation and Classical Reversible Computation.
Proceedings of the Reversible Computation - 10th International Conference, 2018

Translating Between the Roots of the Identity in Quantum Computers.
Proceedings of the 48th IEEE International Symposium on Multiple-Valued Logic, 2018

2016
The Decomposition of U(<i>n</i>) into XU(<i>n</i>) and ZU(<i>n</i>).
J. Multiple Valued Log. Soft Comput., 2016

2014
Scaling a Unitary Matrix.
Open Syst. Inf. Dyn., 2014

A Technology Based Complexity Model for Reversible Cuccaro Ripple-Carry Adder.
J. Low Power Electron., 2014

Energy Consumption by Reversible ircuits in the 130 nm and 65 nm Nodes.
J. Low Power Electron., 2014

Designing Garbage-Free Reversible Implementations of the Integer Cosine Transform.
ACM J. Emerg. Technol. Comput. Syst., 2014

Matrix Calculus for Classical and Quantum Circuits.
ACM J. Emerg. Technol. Comput. Syst., 2014

The Decomposition of U(n) into XU(n) and ZU(n).
Proceedings of the IEEE 44th International Symposium on Multiple-Valued Logic, 2014

2013
The NEGATOR as a Basic Building Block for Quantum Circuits.
Open Syst. Inf. Dyn., 2013

2012
The Group of Dyadic Unitary Matrices.
Open Syst. Inf. Dyn., 2012

Reversible Implementation of a Discrete Integer Linear Transformation.
J. Multiple Valued Log. Soft Comput., 2012

Reversible Computation, Quantum Computation, and Computer Architectures in Between.
J. Multiple Valued Log. Soft Comput., 2012

Garbageless Reversible Implementation of Integer Linear Transformations.
Proceedings of the Reversible Computation, 4th International Workshop, 2012

The Roots of the NOT Gate.
Proceedings of the 42nd IEEE International Symposium on Multiple-Valued Logic, 2012

2011
Symmetry Groups for the Decomposition of Reversible Computers, Quantum Computers, and Computers in between.
Symmetry, 2011

Interfacing Reversible Pass-Transistor CMOS Chips with Conventional Restoring CMOS Circuits.
Proceedings of the Reversible Computation - Third International Workshop, 2011

Towards the Limits of Cascaded Reversible (Quantum-Inspired) Circuits.
Proceedings of the Reversible Computation - Third International Workshop, 2011

2010
Decomposition of a Linear Reversible Computer: Digital Versus Analog.
Int. J. Unconv. Comput., 2010

Reversible Computing - Fundamentals, Quantum Computing, and Applications.
Wiley, ISBN: 978-3-527-40992-1, 2010

2009
Multiple-Valued Reversible Logic Circuits.
J. Multiple Valued Log. Soft Comput., 2009

MicroPower: Towards Low-Power Microprocessors with Reversible Computing.
ERCIM News, 2009

Reversible Computer Hardware.
Proceedings of the Workshop on Reversible Computation, 2009

2008
From Group Theory to Reversible Computers.
Int. J. Unconv. Comput., 2008

Young subgroups for reversible computers.
Adv. Math. Commun., 2008

2007
Six Synthesis Methods for Reversible Logic.
Open Syst. Inf. Dyn., 2007

Synthesis of reversible logic for nanoelectronic circuits.
Int. J. Circuit Theory Appl., 2007

2006
Computing in Finite Time.
Open Syst. Inf. Dyn., 2006

Using group theory in reversible computing.
Proceedings of the IEEE International Conference on Evolutionary Computation, 2006

2005
Optimal Design of a Reversible Full Adder.
Int. J. Unconv. Comput., 2005

Power Consumption in Reversible Logic Addressed by a Ramp Voltage.
Proceedings of the Integrated Circuit and System Design, 2005

Reversible computing: from mathematical group theory to electronical circuit experiment.
Proceedings of the Second Conference on Computing Frontiers, 2005

2002
The Expectation Value of the Entropy of a Digital Message.
Open Syst. Inf. Dyn., 2002

A reversible carry-look-ahead adder using control gates.
Integr., 2002

2000
Design of Reversible Logic Circuits by Means of Control Gates.
Proceedings of the Integrated Circuit Design, 2000

1999
Group Theoretical Aspects of Reversible Logic Gates.
J. Univers. Comput. Sci., 1999


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