Difference between revisions of "Reversible computing"
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=References= | =References= | ||
* {{ | * {{:Paper/Computers That Can Run Backwards}} | ||
* {{cite journal |last1=Lange |first1=Klaus-Jörn |last2=McKenzie |first2=Pierre |last3=Tapp |first3=Alain |title=Reversible Space Equals Deterministic Space |journal=Journal of Computer and System Sciences |date=April 2000 |volume=60 |issue=2 |pages=354–367}} | * {{cite journal |last1=Lange |first1=Klaus-Jörn |last2=McKenzie |first2=Pierre |last3=Tapp |first3=Alain |title=Reversible Space Equals Deterministic Space |journal=Journal of Computer and System Sciences |date=April 2000 |volume=60 |issue=2 |pages=354–367}} | ||
* Perumalla K. S. (2014), ''Introduction to Reversible Computing'', [[CRC Press]]. | * Perumalla K. S. (2014), ''Introduction to Reversible Computing'', [[CRC Press]]. |
Latest revision as of 14:07, 19 March 2022
Reversible computing(Q185410), a.k.a. reversible logic, is a kind of logic that keeps information symmetry before and after a logic inference operation.
References
- Denning, Peter; Lewis, Ted (2017). "Computers That Can Run Backwards". American Scientist. local page. 105 (5): 270. doi:10.1511/2017.105.5.270.
- Lange, Klaus-Jörn; McKenzie, Pierre; Tapp, Alain (April 2000). "Reversible Space Equals Deterministic Space". Journal of Computer and System Sciences. 60 (2): 354–367.
- Perumalla K. S. (2014), Introduction to Reversible Computing, CRC Press.
- Vitányi, Paul (2005). "Time, space, and energy in reversible computing". Proceedings of the 2nd conference on Computing frontiers - CF '05. p. 435. ISBN 1595930191. doi:10.1145/1062261.1062335.