International E-publication: Publish Projects, Dissertation, Theses, Books, Souvenir, Conference Proceeding with ISBN.  International E-Bulletin: Information/News regarding: Academics and Research

A Novel Approach to Design a Nano Metric Reversible Counter

    ,

Author Affiliations

  • 1Ardabil University of Medical Sciences, MS in Computer Engineering, Ardabil, IRAN
  • 2Department of Computer Engineering, Yadegar -e- Imam Khomeini (RAH) Branch, Islamic Azad University, Tehran, IRAN

Res. J. Recent Sci., Volume 4, Issue (7), Pages 112-118, July,2 (2015)

Abstract

Today's Technology that used to build computer circuits, because of the limit, unable to respond the human needs in the design of very fast and low-power computers. That's why scientists are looking for alternative technologies and one these technologies are reversible logic. The reversible gates and reversible logic are designed using reversible logic. The main advantage of reversible logic is obtaining is input vector from the output vector. In this paper the design of a Nano metric reversible counter has been studied. The circuit of reversible Counter is formed flip-flops and logic gates. In fact there are two schemes for reversible counters that use as a Nano metric reversible counter with Parallel Load capacity and concurrent clearance. In this paper, two approaches have been used to design a timer circuit and the proposed circuit characteristics were compared and the results are compared to each other.

References

  1. Barenco A., Bennett C.H., Cleve R., DiVincenzo D.P., Margolus N., Shor T., Sleator P., Smolin J.A. and Weinfurter H., Elementary gates for quantum computation, Phys. Rev. A, 52(5), 3457–3467, (1995)
  2. Feynman R., Quantum Mechanical Computers, Optics News, 11, 11–20 (1985)
  3. Jain Sanjayand and Arya Nitin, An Inverse Optimization Model for Linear Fractional Programming, Research Journal of Recent Sciences, 2(4), 56-58 (2013)
  4. Fredkin E. and Toffoli T., Conservative logic, International Journal of Theoretical Physics, 21, 219-253 (1982)
  5. Guowu Yang et al., Exact Synthesis of 3-qubit Quantum Circuits from Non-binary Quantum Gates Using Multiple- Valued Logic and Group Theory, IEEE Design, Automation and Test in Europe, (2005)
  6. Haghparast M. and Navi K., A Novel reversible BCD adder for nanotechnology based systems, Am. J. Applied Sciences, 5, 282–288 (2008A)
  7. Katayoon Mohseni Roozbahani, Fuzzy System for Detection of Manmade Areas in Satellite Images, Research Journal of Recent Sciences, 3(2), 109-113 (2014)
  8. Haghparast M. and Navi K., A Novel Fault Tolerant Reversible Gate for Nanotechnology Based Systems, American Journal of Applied Sciences, 5, 523-519 (2008 B)
  9. Haghparast M. and Navi K., Novel Reversible Fault Tolerant Error Coding and Detection Circuits, International Journal of Quantum Information, 9, 723-738 (2010)
  10. Haghparast M. and Samadi Gharajeh M., Design of a Nanometric Reversible 4-Bit Binary Counter with Parallel Load, Australian Journal of Basic and Applied Sciences, 5(7), 63-71 (2011)
  11. Haghparast M., Mohammadi M., Navi K. and Eshghi M., Optimized reversible Multiplier Circuit, World Scientific Publishing Company, Journal of Circuits, Systems, and Computers, 18(2), 1–13, Inform. Tech., 4 (2009)
  12. Haghparast M. and Navi K., A novel reversible full adder circuit for nanotechnology based systems, J. Applied Sci., 7(24) (2007)
  13. Belsare Satish and Patil Sunil, Study and Evaluation of user’s behavior in e-commerce, Using Data Mining, Research Journal of Recent Sciences, 1(ISC-2011) , 375-387 (2012)
  14. Islam S. and Begum Z., Reversible logic synthesis of fault tolerant carry skip BCD adder, Bangladesh Academy of Science Journal, 32(2), 193-200 (2008)
  15. Lafifa Jamal, Farah Sharmin Md., Abdul Mottalib, Hafiz Md and Hasan Babu, Design and Minimization of Reversible Circuits for a Data Acquisition and Storage System, International Journal of Engineering and Technology, 2(1), (2012)
  16. Mohammadi M., Eshghi M. and Navi K., Optimizing the reversible full adder circuit, IEEE EWDTS, Yerevan, Sep., 7–10, 312–315, 14, Molecular QCA, IEEE Transactions on Nanotechnology, 9(1), (2007)
  17. Mohamadi M. and Eshghi M., Behavioral Description of Quantum Y and y+ Gates to Design Quantum Logic Circuits, 5th International Multi-Conference on Systems, Signals and Devices, (2008)
  18. Marek Perkowski et al., A Hierarchical Approach to Computer-Aided Design of Quantum Circuits, 6 th Int’l Symp ,On Representations and Methodology of Future Computing Technology, (2003)
  19. Patel Jay Kumar Shantilal, Self-Healing Sensor Network Key Distribution Scheme for Secure Communication, Research Journal of Recent Sciences, 2(ISC-2012)158-161 (2013)
  20. Nagadeepa N, Enhanced Bluetooth Technology to Assist the High Way Vehicle Drivers, Research Journal of Recent Sciences., 1(8), 82-85 (2012)