1. Guowu Yang, Xiaoyu Song, Marek Perkowski, and J. Wu, ”Realizing ternary quantum switching networks without ancilla bits,” Journal of Physics A. Mathematical and General, 38(2005), pp. 9689-9697, 2005. 2. Jacob Biamonte and Marek Perkowski, “Automated Test Pattern Generation for Quantum Circuits,” McNair Research Journal, Vol. 1, Issue 1, 2005. 3. Anas Nasser Al-Rabadi and Marek Perkowski, “New Families of Reversible Expansions and their Regular Lattice Circuits,” Journal of Multiple-Valued Logic and Soft Computing (MVLSC), U.S.A., Volume 11, Number 3-4, 2005. 4. Marek Perkowski, “Multiple-Valued Quantum Circuits and Research Challenges for Logic Design and Computational Intelligence Communities,” Invited Paper, IEEE ConneCtIonS, IEEE Computer Intelligence Society, November 2005, pp. 6-12. 5. Mozammel H. A. Khan, Marek A. Perkowski, Mujibur Khan, and Pawel Kerntopf, "Ternary GFSOP Minimization using Kronecker Decision Diagrams and Their Synthesis with Quantum Cascades," MVL Journal Special Issue, Vol. 11, Numbers 5-6. 2005. 6. Guowu Yang, William Hung, Xiaoyu Song, and Marek Perkowski, "Majority-Based Reversible Logic Gates", Theoretical Computer Science C. pp. 334(1-3):259-274, Elsevier Science Publishers, 2005. ARTICLES IN REFEREED CONFERENCES. 1. Faisal Khan and Marek Perkowski, “Synthesis of Ternary Quantum Logic Circuits by Decomposition,” Proceedings of the 7th International Symposium on Representations and Methodology of Future Computing Technologies RM2005. pp. 114 – 118. 2. Guowu Yang, Xiaoyu Song, Marek Perkowski, and William N.N. Hung, “Minimal Universal Library for n*n Reversible Circuits,” Proc. 7th International Symposium on Representations and Methodologies for Emergent Computing Technologies, Tokyo, Japan, September 2005. pp. 94 – 98. 3. Guowu Yang, Xiaoyu Song, William N.N. Hung and Marek Perkowski, “On Realization of 3-qubit Reversible Circuits with the Minimum Number of Non-Linear Gates,” Proc. 7th International Symposium on Representations and Methodologies for Emergent Computing Technologies, Tokyo, Japan, September 2005. pp. 88 – 93. 4. Mozammel H.A. Khan and Marek Perkowski, “Quantum Realization of Ternary Parallel Adder/Subtractor with Look-Ahead Carry,” Proc. International Symposium on Representations and Methodologies for Emergent Computing Technologies, Tokyo, Japan, September 2005. pp. 15-22. 5. Mozammel H.A. Khan, and Marek Perkowski, “Quantum Realization of Ternary Encoder and Decoder,” Proc. International Symposium on Representations and Methodologies for Emergent Computing Technologies, Tokyo, Japan, September 2005. pp. 23 – 27. 6. Dean Pierce, Jacob Biamonte and Marek Perkowski, “Test Set Generation and Fault Localization Software for Reversible Circuits,” Proc. International Symposium on Representations and Methodologies for Emergent Computing Technologies, Tokyo, Japan, September 2005. pp. 42 – 49. 7. Jeff Allen, Jacob Biamonte and Marek Perkowski, “ATPG for Reversible Circuits using Technology-Related Fault Models,” Proc. International Symposium on Representations and Methodologies for Emergent Computing Technologies, Tokyo, Japan, September 2005. pp. 100 – 108. 8. Vijaya S. Shivgand, Akashdeep Aulakh, and Marek Perkowski, “Quantum Circuit Layout,” Proc. International Symposium on Representations and Methodologies for Emergent Computing Technologies, Tokyo, Japan, September 2005. pp. 126 – 136. 9. Jacob Biamonte and Marek Perkowski, "Tricks to validate quantum switching networks," poster and presentation, Proc. of KIAS-KAIST 6th Workshop on Quantum Information Science, Seoul, Korea, pp. 9, August 22nd - 24th, (2005). 10. Tze-Wen Wang, Maciej Sajkowski, Tomasz Stenzel, and Marek Perkowski, “An Inexpensive Educational Platform to Teach Humanoid Robotics,” Proc. ICEE conference, Gliwice, Poland, June 2005. 11. Martin Lukac and Marek Perkowski, “Using exhaustive search for the discovery of new families of optimum universal permutative binary quantum gates,” Proc. International Workshop on Logic and Synthesis, June 2005. 12. Bruce Yen, Phil Tomson, and Marek Perkowski, “Sum of Non-disjoint Cubes Covering Generation for Multi-Valued Systems of base 2, for use in Muthukrishnan-Stroud Quantum Realizable Gates: An Extension of the EXOR Covering Problem,” Proc. International Workshop on Logic and Synthesis, June 2005. 13. Guowu Yang, Xiaoyu Song, Marek A. Perkowski, William N.N. Hung, and Jacob Biamonte, “The Power of Large Pulse-Optimized Quantum Libraries: Every 3-qubit Reversible Function can be Realized with at Most Four Levels,” Proc. International Workshop on Logic and Synthesis, June 2005. 14. Guowu Yang, Xiaoyu Song, William N. N. Hung, and Marek Perkowski, "Bi-direction Synthesis for Reversible Circuits", Proc. IEEE Computer Society Annual Symposium on VLSI (ISVLSI), Tampa, Florida, May 2005. pp. 14-19 15. Martin Lukac, Marek Perkowski, “Combining Evolutionary and Exhaustive Search to Find the Least Expensive Quantum Circuits”, Proceedings of the 14th International Workshop on Post-Binary ULSI Systems, May 18, 2005, Calgary, Canada, 16. Christopher Stedman, Bruce Yen and Marek Perkowski, “Synthesis of Reversible Circuits with Small Ancilla Bits for Large Irreversible Incompletely Specified Multi-Output Boolean Functions” Proceedings of the 14th International Workshop on Post-Binary ULSI Systems, May 18, 2005, Calgary, Canada. 17. Marek Perkowski, Tsutomu Sasao, Jong-Hwan Kim, Martin Lukac, Jeff Allen, and Stefan Gebauer, “Hahoe KAIST Robot Theatre: Learning Rules of Interactive Robot Behavior as a Multi-Valued Logic Synthesis Problem,” Proceedings of the 35th International Symposium on Multiple-Valued Logic, May 19 - May 21, 2005 at Calgary, Canada, pp. 236-248. 18. Marek Perkowski, Jacob Biamonte and Martin Lukac, “Test Generation and Fault Localization for Quantum Circuits,” Proceedings of the 35th International Symposium on Multiple-Valued Logic, May 19-May 21, 2005 at Calgary, Canada. pp. 62-68. 19. Jacob Biamonte, Minki Jeong, Jae-Seung Lee, Marek Perkowski, “Extending Classical Test to Quantum,” Proceedings of SPIE “Fluctuations and Noise in Photonics and Quantum Optics, Editors: P.R. Hemmer, J.R. Gea-Banacloche, P. Heszler, Sr., M. S. Zubairy, Vol. 5842, May 2005, pp. 194-205. 20. Guowu Yang, William N. N. Hung, Xiaoyu Song and Marek Perkowski, "Exact Synthesis of 3-qubit Quantum Circuits from Non-binary Quantum Gates Using Multiple-Valued Logic and Group Theory", Proceedings of IEEE/ACM Design Automation and Test in Europe (DATE), Munich, Germany, March 2005, pp. 434-435 PUBLICATIONS OF MAREK A. PERKOWSKI, 2005.

PUBLICATIONS OF MAREK A. PERKOWSKI, 2005.

    SUBMITTED

  1. Guowu Yang, Xiaoyu Song, William Hung and Marek Perkowski, “Bi-directional synthesis for reversible circuits,” IEEE Transactions on VLSI Systems, 2005

  2. Guowu Yang, Xiaoyu Song, and Marek Perkowski, “On the synthesis of reversible logic circuits,” IEEE Transactions on CAD, 2005.

  3. Guowu Yang, William Hung, Xiaoyu Song, and Marek Perkowski, “Exact synthesis of 3-qubit quantum circuits from non-binary quantum gates using multiple-valued logic and group theory,” International Journal of Electronics, 2004.

  4. Guowu Yang, William Hung, Xiaoyu Song, and Marek Perkowski, “Depth Limited Realization of Reversible Logic,” Microelectronics, March 2004.

  5. Guowu Yang, Xiaoyu Song, and Marek Perkowski, “Minimal Universal Library,” Discrete Applied Mathematics, 2004.

  6. Guowu Yang, Xiaoyu Song, and Marek Perkowski, “Fast Synthesis of exact minimal reversible circuits using group theory,” Theoretical Computer Science, 2005.

  7. Guowu Yang, Xiaoyu Song, and Marek Perkowski, “On realization of 3-qubit reversible circuits,” Journal of Circuits, Systems, and Computers (JCSC), World Scientific Publishers, 2005.

  8. Lun Li, Mitch Thornton, and Marek Perkowski, “A Quantum CAD Accelerator Based on Grover’s Algorithm for Finding the Minimum Fixed Polarity Reed-Muller Form,” Submitted to ISMVL 2006.

  9. Dong Hwa Kim, Christopher Brawn, Maciej Sajkowski, Tomasz Stenzel, Tsutomu Sasao, Jeff Allen, Martin Lukac, and Marek Perkowski, “Artificial Immune – Fuzzy System to control walking robot Hexor,” submitted to ISMVL 2006.

  10. Dong Hwa Kim, Jin Ill Park, Marek Perkowski, “Intelligent Tuning of a PID Controller Using a Hybrid GA-PSO Approach”, submitted to Conference on Intelligent Control, 2006.

  11. Jacob Biamonte and Marek Perkowski, “A Quantum Test Algorithm,” Submitted to IEEE Transactions on Computers and quant-ph/0501108.

  12. Jacob Biamonte, Jeff Allen and Marek Perkowski, “Fault Models for Quantum Mechanical Switching Networks,” submitted to Journal on Electronic Testing, 22 pages, (2005), quant-ph/0508147.

  13. Mozammel H.A. Khan and Marek Perkowski, “Quantum Realization of Ternary Parallel Adder/Subtractor with Look-Ahead Carry,” submitted to a journal.