Title :
On the Guidance of Reversible Logic Synthesis by Dynamic Variable Reordering
Author :
Feinstein, David Y. ; Thornton, Mitchell A.
Author_Institution :
Innoventions, Inc., Houston, TX
Abstract :
This paper proposes a framework that improves reversible logic synthesis by employing a dynamically determined variable order for quantum multiple-valued decision diagrams (QMDD). We demonstrate our approach through augmentation of the Miller-Maslov-Dueck (MMD) algorithm that processes the complete function specification in lexicographical order with our technique. We represent and minimize the complete specification with the QMDD and then synthesize the function specification based on the minimized variable order. The framework produces significantly smaller reversible circuits in many cases. Experimental results also show the effectiveness of using the QMDD size as a measure of the complexity of MVL and binary reversible circuits.
Keywords :
decision diagrams; logic design; multivalued logic circuits; Miller-Maslov-Dueck algorithm; binary reversible circuits; complete function specification; dynamic variable reordering; quantum multiple-valued decision diagrams; reversible logic synthesis; Circuit synthesis; Computer applications; Computer science; Cost function; Logic circuits; Logic design; Logic devices; Quantum computing; Size measurement; Synthesizers; MVL; QMDD; quantum logic; reversible MVL synthesis; reversible logic; reversible logic synthesis;
Conference_Titel :
Multiple-Valued Logic, 2009. ISMVL '09. 39th International Symposium on
Conference_Location :
Naha, Okinawa
Print_ISBN :
978-1-4244-3841-9
Electronic_ISBN :
0195-623X
DOI :
10.1109/ISMVL.2009.31
