Power Efficient Arithmetic Logic Unit Design using Reversible Logic

Naman Sharma; Rajat Sachdeva; Upanshu Saraswat; Rajat Yadav; Gunjeet Kaur

Research Article

Power Efficient Arithmetic Logic Unit Design using Reversible Logic

by Naman Sharma, Rajat Sachdeva, Upanshu Saraswat, Rajat Yadav, Gunjeet Kaur

International Journal of Computer Applications

Foundation of Computer Science (FCS), NY, USA

Volume 128 - Issue 6

Published: October 2015

Authors: Naman Sharma, Rajat Sachdeva, Upanshu Saraswat, Rajat Yadav, Gunjeet Kaur

10.5120/ijca2015906591

PDF

Naman Sharma, Rajat Sachdeva, Upanshu Saraswat, Rajat Yadav, Gunjeet Kaur . Power Efficient Arithmetic Logic Unit Design using Reversible Logic. International Journal of Computer Applications. 128, 6 (October 2015), 36-41. DOI=10.5120/ijca2015906591

                        @article{ 10.5120/ijca2015906591,
                        author  = { Naman Sharma,Rajat Sachdeva,Upanshu Saraswat,Rajat Yadav,Gunjeet Kaur },
                        title   = { Power Efficient Arithmetic Logic Unit Design using Reversible Logic },
                        journal = { International Journal of Computer Applications },
                        year    = { 2015 },
                        volume  = { 128 },
                        number  = { 6 },
                        pages   = { 36-41 },
                        doi     = { 10.5120/ijca2015906591 },
                        publisher = { Foundation of Computer Science (FCS), NY, USA }
                        }

                        %0 Journal Article
                        %D 2015
                        %A Naman Sharma
                        %A Rajat Sachdeva
                        %A Upanshu Saraswat
                        %A Rajat Yadav
                        %A Gunjeet Kaur
                        %T Power Efficient Arithmetic Logic Unit Design using Reversible Logic%T 
                        %J International Journal of Computer Applications
                        %V 128
                        %N 6
                        %P 36-41
                        %R 10.5120/ijca2015906591
                        %I Foundation of Computer Science (FCS), NY, USA

Abstract

Reversible logic is highly useful in nanotechnology, low power design and quantum computing. The paper proposes a power efficient design of an ALU, using Reversible Logic Gates. With power management becoming a critical component for hardware design developers, Reversible Logic can provide a viable alternative towards creating low power digital circuits.

References

Laszlo B. Kish, Texas A&M University, Department of Electrical Engineering, College Station, TX 77843-3128, USA Received 16 July 2002; received in revised form 19 September 2002; accepted 19 September 2002, Communicated by C.R. Doering, “End of Moore’s law: thermal (noise) death of integration in micro and nano electronics.”
Trevor Pering, Tom Burd, and Robert Brodersen University of California Berkeley, Electronics Research Laboratory, “Dynamic Voltage Scaling and the: Design of a Low-Power Microprocessor System”
C. H. Bennett, "Notes on the history of reversible computation," IBM J. Research and Development, vol. 32, pp. 16-23, January 1988.
C. H. Bennett, "Logical reversibility of computation," IBM J. Research and Development, pp. 525-532, November 1973.
R. W. Keyes and R. Landauer, "Minimal energy dissipation in logic," IBM J. Research and Development, pp. 152-157, March 1970.
R. Landauer, "Irreversibility and heat generation in the computing process," IBM J. Research and Development, vol. 3, pp. 183-191, July 1961.’
R. Feynman,” Quantum Mechanical Computers”, Optic News, Vol 11, pp 11-20 1985.
T.Toffoli, “Reversible Computing”, Tech memoMIT/LCS/TM-151, MIT Lab for Computer Science 1980.
Fredkin E. Fredkin and T. Toffoli,, “Conservative Logic”, Int’l J. Theoretical Physics Vol 21, pp.219-253, 1982
Peres, “Reversible Logic and Quantum Computers”, Physical review A, 32:3266- 3276, 1985.
Padmanabhan Pillai and Kang G. Shin, “Real-Time Dynamic Voltage Scaling for Low-Power Embedded Operating Systems”, Real-Time Computing Laboratory Department of Electrical Engineering and Computer Science The University of Michigan Ann Arbor, MI 48109-2122, U.S.A.
Asher Pers, “Reversible logic and quantum computers”, The American Physical Society
T. Toffoli, "Reversible Computing," Technical Report MIT/LCS/TM-151, 1980.
D. Deutsch, "Quantum Theory, the Church-Turing Principle and the Universal Quantum Computer," Proceedings of the Royal Society of London, vol. 400, 1982.
D. Deustch, "Quantum Computational Networks," Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences , vol. 425, iss. 1868, 1989, pp. 73-90
A Novel Quantum Cost Efficient Reversible Full Adder Gate in Nanotechnology Md. Saiful Islam Institute of Information Technology, University of Dhaka, Dhaka-1000, Bangladesh
“Digital Design” by M. Morris Mano
“Computer System Architecture” by M. Morris Mano
www.researchgate.net
V. Rajmohan, Member IACSIT, V. Renganathan, and M. Rajmohan ―A Novel Reversible Design of Unified Single Digit BCD Adder-Subtractor‖, International Journal of Computer Theory and Engineering, Vol. 3, No. 5, October 2011
Md. Belayet Ali , Md. Mosharof Hossin and Md. Eneyat Ullah, ―Design of Reversible Sequential Circuit UsingReversible Logic Synthesis‖ International Journal of VLSI design & Communication Systems (VLSICS) Vol.2, No.4, December 2011
Fredkin E. Fredkin and T. Toffoli,‖Conservative Logic‖, Int’l J. Theoretical Physics Vol 21, pp.219-253, 1982.
Peres, ―Reversible Logic and Quantum Computers‖, Physical review A, 32:3266- 3276, 1985.

Index Terms

Computer Science

Information Sciences

No index terms available.

Keywords

Reversible logic Arithmetic Logic Unit Low Power Design