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Towards the limits of cascaded reversible (quantum-inspired) circuits

Stéphane Burignat UGent, Mariusz Olczac, Michal Klimczak and Alexis De Vos UGent (2011) Lecture Notes in Computer Science.
abstract
Several prototypes and proofs of concept of reversible (quantum-inspired) digital circuits have been successfully realized these last years, proving that digital reversible dual-line pass-transistor technology may be used for reversible linear computations. In order for this new technology to be used in commercial applications, several questions have to be answerd first. In particular, the number of gates possibly cascaded, the maximum reachable frequency, the maximum acceptable delays and amplitude drops are the key issues discussed in this paper.
Please use this url to cite or link to this publication:
author
organization
year
type
conference
publication status
published
subject
keyword
adiabatic calculation, CMOS, reversible computation, calculation error, simulation, delay, circuit design, cadence software, pass-transistor, quantum-inspired circuit, transmission gate
in
Lecture Notes in Computer Science
Lect. Notes Comput. Sci.
issue title
Reversible computation
pages
10 pages
publisher
Springer
place of publication
Berlin, Germany
conference name
3rd Workshop on Reversible Computation
conference location
Ghent, Belgium
conference start
2011-07-04
conference end
2011-07-05
project
MicroPower
language
English
UGent publication?
yes
classification
C1
copyright statement
I have transferred the copyright for this publication to the publisher
id
1853642
handle
http://hdl.handle.net/1854/LU-1853642
date created
2011-07-06 12:14:36
date last changed
2015-05-19 10:01:28
@inproceedings{1853642,
  abstract     = {Several prototypes and proofs of concept of reversible (quantum-inspired) digital circuits have been successfully realized these last years, proving that digital reversible dual-line pass-transistor technology may be used for reversible linear computations. In order for this new technology to be used in commercial applications, several questions have to be answerd first. In particular, the number of gates possibly cascaded, the maximum reachable frequency, the maximum acceptable delays and amplitude drops are the key issues discussed in this paper.},
  author       = {Burignat, St{\'e}phane and Olczac, Mariusz and Klimczak, Michal and De Vos, Alexis},
  booktitle    = {Lecture Notes in Computer Science},
  keyword      = {adiabatic calculation,CMOS,reversible computation,calculation error,simulation,delay,circuit design,cadence software,pass-transistor,quantum-inspired circuit,transmission gate},
  language     = {eng},
  location     = {Ghent, Belgium},
  pages        = {10},
  publisher    = {Springer},
  title        = {Towards the limits of cascaded reversible (quantum-inspired) circuits},
  year         = {2011},
}

Chicago
Burignat, Stéphane, Mariusz Olczac, Michal Klimczak, and Alexis De Vos. 2011. “Towards the Limits of Cascaded Reversible (quantum-inspired) Circuits.” In Lecture Notes in Computer Science. Berlin, Germany: Springer.
APA
Burignat, S., Olczac, M., Klimczak, M., & De Vos, A. (2011). Towards the limits of cascaded reversible (quantum-inspired) circuits. Lecture Notes in Computer Science. Presented at the 3rd Workshop on Reversible Computation, Berlin, Germany: Springer.
Vancouver
1.
Burignat S, Olczac M, Klimczak M, De Vos A. Towards the limits of cascaded reversible (quantum-inspired) circuits. Lecture Notes in Computer Science. Berlin, Germany: Springer; 2011.
MLA
Burignat, Stéphane, Mariusz Olczac, Michal Klimczak, et al. “Towards the Limits of Cascaded Reversible (quantum-inspired) Circuits.” Lecture Notes in Computer Science. Berlin, Germany: Springer, 2011. Print.