Anas N

Dr. Anas N. Al-Rabadi

Clay Street S.W.

Post Office Box 85

Portland, Oregon 97207-0085

U.S.A.

Phone: (503) 725-2781

Biography

Anas N. Al-Rabadi received his M.S. degree in Electrical and Computer Engineering from Portland State University in Control Systems Design and Power Electronic Systems Design in 1998, and his Ph.D. degree in Electrical and Computer Engineering from Portland State University in Advanced Logic Synthesis and Computer Aided Design in 2002. He has been working as a Post-Doctoral Research Fellow, Adjunct Faculty, and Research Assistant Faculty at Portland State University since 2002. Since 2004 he has been an Assistant Professor in the Computer Engineering Department at the University of Jordan. He was elected to Sigma Xi The Scientific Research Honor Society, Tau Beta Pi (TBP) The Engineering Honor Society, and Eta Kappa Nu (HKN) The Electrical and Computer Engineering Honor Society, and he was awarded the Outstanding Ph.D. Student Award in the Electrical and Computer Engineering Department at Portland State University for 2001-2002. He received the Outstanding Teaching Assistant Student Award in the Electrical and Computer Engineering Department at Portland State University for 2000-2001, and the Recognized Graduate Teaching Assistantship Award in the Outstanding Student Recognition Program at Portland State University for 1996-1998. In 2004, he was selected to be listed in the 8^th 2005-2006 Edition of Marquis Who’s Who in Science and Engineering. Prior to joining Portland State University, he worked as an electronics engineer at UNISYS and LG Electronics Corporations. Dr. Al-Rabadi is the founder of the Intelligent Robotics Laboratory in the Electrical and Computer Engineering Department at Portland State University, when he made the first public demonstration of specific robotic functions, for visitors from local and national schools and companies, by programming the Rhino XR-1 robotic arm in 1999. He has served on several committees as a volunteer mentor for Future Scientists and Engineers of America (FSEA) on several projects which were partially funded by the National Science Foundation (NSF), president of Eta Kappa Nu (HKN) from 1998-2000, served in 1999 on the Board of Directors of College Housing North West (CHNW) that directs and manages the policies and plans of student housing at Portland, Oregon, and currently as a reviewer of articles for numerous scientific journals and of grant proposals for government agencies.

Research Interests

Dr. Al-Rabadi's principal research interests concern the general area of Classical and Non-Classical Computing (Logic, Hardware (Design), and Software) with applications to all Chemical-Physical (Electro-Opto-Mechanical)-Biological (Games (Decisions) and Learning) aspects of Autonomous Robots. The results of his research are currently documented in more than 50 publications in international, specialized, refereed, indexed, and cited (high impact factor) journals, conferences, a Book, and in a pending patent, that have led to numerous paper citations. His research tends to be about equally divided between theoretical and applied that includes the following areas:

Computer Aided Design (CAD), Design of Algorithms, Advanced Logic Synthesis, Low-Power VLSI Circuit Design, Field Programmable Gate Arrays (FPGAs), Application Specific IC (ASIC) Design, Reversible Logic Synthesis, Quantum Logic Synthesis, Quantum Computing, Optical Computing, Spectral Methods, 2-D and 3-D Regular Structures, Reconstructability Analysis of Circuits and Systems, Carbon Nanotubes (CNT) for Nanowiring and Nanotransistors, Discrete Systems Modeling Using Elementary Cellular Automata (ECA), Soft Computing [Neural Networks, Evolutionary Computation, Fuzzy Logic, Heuristics, Rough Sets], Search Methods [Exhaustive, Heuristic, Genetic], Adaptive Control of Non-Linear Dynamic Systems, Intelligent Robotics, Artificial Intelligence (AI), Machine Learning, Data Mining, Artificial Life (AL), Signal Processing, Image Processing, Video Processing, Pattern Recognition, Computer Organization, Computer Architecture, System Decomposition, Testing and Design For Test, Reliability Analysis, Feedback Control Systems, Switching Mode Power Supplies, Digital Communication Systems, Laser Systems Design, Game Theory, Graph Theory, Group Theory, Number Theory, Cryptography, Chaotic Dynamics, Stochastic Dynamics, Stochastic (Probabilistic) Logic, Hidden Markov Models (HMM), Factor Analysis, Log-Linear Modeling, Independent Component Analysis (ICA), Principal Component Analysis (PCA), Philosophy, Quantum Theory, Residue Arithmetic, Genealogy.

Publications

Ph.D. Dissertation

Anas N. Al-Rabadi, Novel Methods for Reversible Logic Synthesis and their Application to Quantum Computing, Electrical and Computer Engineering Department, Portland State University, 2002.

M.S. Thesis

Anas N. Al-Rabadi, An Approach to Exact Modeling of the PWM Switch, Electrical and Computer Engineering Department, Portland State University, 1998.

Books

Anas N. Al-Rabadi, Reversible Logic Synthesis: From Fundamentals to Quantum Computing, Springer-Verlag, New York, First Edition, 2004. (427 pages, 213 Figures, and hardcover). ISBN: 3-540-00935-3. ( http://www.springeronline.com/sgw/cda/frontpage/0,10735,5-0-72-2318256-0,00.html ). This book is the first comprehensive graduate-level book and the first Title published on the topic of Reversible Logic Synthesis.

Selected Technical Articles

Journal Articles

A. N. Al-Rabadi, “Multiple-Level Circuit Solutions to the Circuit Non-Decomposability Problem of the Set-Theoretic Modified Reconstructability Analysis (MRA),” accepted, 2005.

A. N. Al-Rabadi, “Three-Dimensional Lattice Logic Circuits, Part I: Fundamentals,” Facta Universitatis, University of Nis, Yugoslavia, Vol. 18, No. 1, pp. 1-13, April 2005.

A. N. Al-Rabadi, “Three-Dimensional Lattice Logic Circuits, Part II: Formal Methods,” Facta Universitatis, University of Nis, Yugoslavia, Vol. 18, No. 1, pp. 15-28, April 2005.

A. N. Al-Rabadi, "Three-Dimensional Lattice Logic Circuits, Part III: Solving 3D Volume Congestion Problem," Facta Universitatis, University of Nis, Yugoslavia, Vol. 18, No. 1, pp. 29-43, April 2005.

A. N. Al-Rabadi and M. Zwick, “Modified Reconstructability Analysis for Many-Valued Functions and Relations,” Kybernetes, United Kingdom, Volume 33, Number 5/6, pp. 906-920, 2004.

A. N. Al-Rabadi and M. Zwick, “Reversible Modified Reconstructability Analysis of Boolean Circuits and its Quantum Computation,” Kybernetes, United Kingdom, Volume 33, Number 5/6, pp. 921-932, 2004.

A. N. Al-Rabadi, M. Perkowski, and M. Zwick, “A Comparison of Modified Reconstructability Analysis and Ashenhurst-Curtis Decomposition of Boolean Functions,” Kybernetes, United Kingdom, Volume 33, Number 5/6, pp. 933-947, 2004.

A. N. Al-Rabadi and M. 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.

A. N. Al-Rabadi and M. Zwick, “Enhancements to Crisp Possibilistic Reconstructability Analysis,” International Journal of General Systems (IJGS), U.S.A., Volume 33, Number 4, pp. 361-382, August 2004.

M. Perkowski, D. Foote, Q. Chen, A. Al-Rabadi, and L. Jozwiak, “Learning Hardware Using Multiple-Valued Logic, Part 1: Introduction and Approach,” IEEE Micro Magazine, U.S.A., 22(3), pp. 41-51, May/June 2002.

M. Perkowski, D. Foote, Q. Chen, A. Al-Rabadi, and L. Jozwiak, “Learning Hardware Using Multiple-Valued Logic, Part 2: Cube Calculus and Architecture,” IEEE Micro Magazine, U.S.A., 22(3), pp. 52-61, May/June 2002.

A. Al-Rabadi, L. Casperson, and M. Perkowski, "Multiple-Valued Quantum Logic," Quantum Computers and Computing, Moscow State University and Russian Academy of Sciences, Institute of Computer Science, Russia, V. 3, No. 1, pp. 63-91, 2002.

A. N. Al-Rabadi, “Carbon Nano Tube (CNT) Multiplexers for Multiple-Valued Computation,” submitted.

A. N. Al-Rabadi, “Qudits Representations and Computations of N-Player Many-Valued Quantum Games,” submitted.

A. N. Al-Rabadi, “Game Theoretic Reversibility and Multiple-Valued Quantum Computation,” submitted.

A. N. Al-Rabadi, “Quantum Logic Circuit Design of Many-Valued Galois Reversible Expansions and Fast Transforms,” submitted.

A. N. Al-Rabadi, “Modeling and Processing Using Reversible Conservative Noisy Elementary Cellular Automata (ECA) Circuits and their General Quantum Computations,” submitted.

A. N. Al-Rabadi, “Quantum Transforms and Fast Transforms and Their Efficient Simulations Using Quantum Decision Trees and Diagrams,” to be submitted.

A. N. Al-Rabadi, "GMRAD: A CAD GUI Tool for Set-Theoretic MRA Circuit Design," to be submitted.

A. N. Al-Rabadi, "LCS: A Software System for 3D Lattice Circuit Synthesis," to be submitted.

A. N. Al-Rabadi and H. A. Linstone, "Failure of Moore's Law as a Technological Forecaster, the Rise of Quantum Computing as a new Alternative Nano Computing Paradigm, and the Impact of All of that on the Social Change," to be submitted.

A. N. Al-Rabadi, “New Families of Kronecker-Based Reversible Decision Trees,” to be submitted.

A. N. Al-Rabadi, “Non-Classical Neural Networks,” to be submitted.

Conference Articles

A. N. Al-Rabadi, “Three-Dimensional Inverted Threshold Logic Circuits,” Proceedings of the International Workshop on Spectral Methods and Multirate Signal Processing (SMMSP), pp. 67-73, Riga, Latvia, June 20-22, 2005.

A. N. Al-Rabadi, “New Classes of Reversible Butterfly Diagrams and their Quantum Circuits,” Proceedings of the International Workshop on Spectral Methods and Multirate Signal Processing (SMMSP), pp. 117-121, Riga, Latvia, June 20-22, 2005.

A. N. Al-Rabadi, “New Classes of Kronecker-Based Reversible Decision Trees and their Group-Theoretic Representations,” Proceedings of the International Workshop on Spectral Methods and Multirate Signal Processing (SMMSP), pp. 233-243, Vienna, Austria, September 11-12, 2004.

A. N. Al-Rabadi, “Spectral Techniques in the Reversible Logic Circuit Synthesis of Switching Functions,” Proceedings of the International Workshop on Spectral Methods and Multirate Signal Processing (SMMSP), pp. 271-279, Vienna, Austria, September 11-12, 2004.

A. N. Al-Rabadi, “N-Player Many-Valued Quantum Games,” Proceedings of the International Conference on Game Theory and Mathematical Economics (GTME), Warsaw, Poland, September 6-10, 2004.

A. N. Al-Rabadi and W. Feyerherm, “Game Theoretic Reversibility and Multiple-Valued Quantum Computation,” Proceedings of the Second World Congress of the Game Theory Society (GTS), Marseille, France, July 5-9, 2004.

A. N. Al-Rabadi and W. Feyerherm, “Reversible Conservative Noisy Elementary Cellular Automata (ECA) Circuits and their Quantum Computation,” Proceedings of the IEEE/ACM International Workshop on Logic and Synthesis (IWLS), pp. 273-279, Temecula, California, June 2-4, 2004.

A. N. Al-Rabadi, “Reversible Logic Neural Networks,” Proceedings of the IEEE International Joint Conference on Neural Networks (IJCNN), pp. 2677-2682, Budapest, Hungary, July 25-29, 2004.

A. N. Al-Rabadi, “Reversible Fast Permutation Transforms for Quantum Circuit Synthesis,” Proceedings of the IEEE International Symposium on Multiple-Valued Logic (ISMVL), pp. 81-86, Toronto, Canada, May 19-22, 2004.

A. N. Al-Rabadi, “Quantum Circuit Synthesis Using Classes of GF(3) Reversible Fast Spectral Transforms,” Proceedings of the IEEE International Symposium on Multiple-Valued Logic (ISMVL), pp. 87-93, Toronto, Canada, May 19-22, 2004.

A. N. Al-Rabadi, “Carbon Nano Tube (CNT) Circuits,” Booklet of the Post-Binary Ultra Large Scale Integration (ULSI) Workshop, pp. 44-49, Toronto, Canada, May 19, 2004.

A. N. Al-Rabadi, “Multi-Output Multi-Dimensional Boolean Circuit Synthesis Using Variable-Augmented Modified Reconstructability Analysis,” Proceedings of the 7^th World Multi-Conference on Systemics, Cybernetics, and Informatics (SCI), Volume VIII, pp. 97-104, Orlando, Florida, July 27-30, 2003.

A. N. Al-Rabadi, “A Novel Multi-Level Multi-Output Galois Synthesis Using Multiple-Valued Modified Reconstructability Analysis,” Proceedings of the 7^th World Multi-Conference on Systemics, Cybernetics, and Informatics (SCI), Volume VIII, pp. 105-110, Orlando, Florida, July 27-30, 2003.

A. N. Al-Rabadi, “Synthesis of Memory/Look-Up-Table Array Using Multiple-Valued Quantum Computing,” Proceedings of the 7^th World Multi-Conference on Systemics, Cybernetics, and Informatics (SCI), Volume XIII, pp. 367-371, Orlando, Florida, July 27-30, 2003.

A. N. Al-Rabadi and G. G. Lendaris, “Artificial Neural Network Implementation Using Many-Valued Quantum Computing,” Proceedings of the IEEE International Joint Conference on Neural Networks (IJCNN), pp. 3112-3117, Jantzen Beach, Portland, Oregon, July 20-24, 2003.

A. N. Al-Rabadi, “Modified Reconstructability Analysis to Implement a Novel Multi-Level Boolean Circuit Decomposition,” Proceedings of the IEEE/ACM International Workshop on Logic and Synthesis (IWLS), pp. 179-186, Laguna Beach, California, May 28-30, 2003.

A. N. Al-Rabadi, “Iterative Symmetry Indices Decomposition for Ternary Logic Synthesis in Three-Dimensional Space,” Proceedings of the IEEE International Symposium on Multiple-Valued Logic (ISMVL), pp. 139-145, Tokyo, Japan, May 16-19, 2003.

A. Al-Rabadi, “Reversible Logic Synthesis Using Iterative Symmetry Indices Decomposition,” Proceedings of the International Symposium on Representations and Methodology of Future Computing Technology (RM), pp. 104-112, Trier, Germany, March 10-11, 2003.

A. N. Al-Rabadi, “New Multiple-Valued Galois Field Sum-Of-Product Cascades and Lattices for Multiple-Valued Quantum Logic Synthesis,” Proceedings of the International Symposium on Representations and Methodology of Future Computing Technology (RM), pp. 171-182, Trier, Germany, March 10-11, 2003.

M. Perkowski, A. Al-Rabadi, and P. Kerntopf, “Multiple-Valued Quantum Logic Synthesis,” Proceedings of the International Symposium on New Paradigms VLSI Computing, pp. 41-47, Sendai, Japan, December 12-14, 2002.

A. N. Al-Rabadi, L. W. Casperson, M. Perkowski, and X. Song, “Canonical Representations for Two-Valued Quantum Computing,” Proceedings of the International Workshop on Boolean Problems (WBP), pp. 23-32, Freiberg, Germany, September 19-20, 2002.

A. Al-Rabadi and L. W. Casperson, “Optical Realizations of Reversible Logic,” Proceedings of the IEEE/ACM International Workshop on Logic and Synthesis (IWLS), pp. 21-26, New Orleans, Louisiana, June 4-7, 2002.

A. Al-Rabadi, “Symmetry as a Base for a New Decomposition of Boolean Logic,” Proceedings of the IEEE/ACM International Workshop on Logic and Synthesis (IWLS), pp. 273-278, New Orleans, Louisiana, June 4-7, 2002.

A. Al-Rabadi, L. W. Casperson, M. Perkowski, and X. Song, “Multiple-Valued Quantum Logic,” Booklet of the Post-Binary Ultra Large Scale Integration (ULSI) Workshop, pp. 35-45, Boston, Massachusetts, May 15, 2002.

A. Al-Rabadi, M. Zwick, and M. Perkowski, “Comparison of Enhanced Reconstructability Analysis and Ashenhurst-Curtis Decomposition of Boolean Functions,” Book of Abstracts of the 12^th International World Organization for Systems and Cybernetics (WOSC) Congress and the 4^th International Institute for General Systems Studies (IIGSS) workshop, Pittsburgh, Pennsylvania, p.12, March 24-26, 2002.

A. Al-Rabadi and M. Zwick, “Modified Reconstructability Analysis for Many-Valued Logic Functions,” Book of Abstracts of the 12^th International World Organization for Systems and Cybernetics (WOSC) Congress and the 4^th International Institute for General Systems Studies (IIGSS) workshop, Pittsburgh, Pennsylvania, p. 90, March 24-26, 2002.

A. Al-Rabadi and M. Zwick, “Reversible Modified Reconstructability Analysis of Boolean Circuits and its Quantum Computation,” Book of Abstracts of the 12^th International World Organization for Systems and Cybernetics (WOSC) Congress and the 4^th International Institute for General Systems Studies (IIGSS) workshop, Pittsburgh, Pennsylvania, p. 90, March 24-26, 2002.

M. Perkowski, P. Kerntopf, A. Buller, M. Chrzanowska-Jeske, A. Mishchenko, X. Song, A. Al-Rabadi, L. Jozwiak, A. Coppola, and Bart Massey, “Regular Realization of Symmetric Functions using Reversible Logic,” Proceedings of Euro-Micro, pp. 245-252, Warsaw, Poland, September 2001.

A. Al-Rabadi and M. Perkowski, “Families of New Multi-Valued Reed-Muller-Based Spectral Transforms,” Proceedings of Reed-Muller Workshop, pp. 226-241, Starkville, Mississippi, August 10-11, 2001.

A. Al-Rabadi and M. Perkowski, “Shannon and Davio Sets of New Lattice Structures for Logic Synthesis in Three-Dimensional Space,” Proceedings of Reed-Muller Workshop, pp. 165-184, Starkville, Mississippi, August 10-11, 2001.

A. Al-Rabadi and M. Perkowski, “New Classes of Multi-Valued Reversible Decompositions for Three-Dimensional Layout,” Proceedings of Reed-Muller Workshop, pp. 185-204, Starkville, Mississippi, August 10-11, 2001.

M. Perkowski, L. Jozwiak, P. Kerntopf, A. Mishchenko, A. Al-Rabadi, A. Coppola, A. Buller, X.Song, M. Khan, S. Yanushkevich, V. Shmerko, and M. Chrzanowska-Jeske, “A General Decomposition for Reversible Logic,” Proceedings of Reed-Muller Workshop, pp. 119-138, Starkville, Mississippi, August 10-11, 2001.

M. Perkowski, P. Kerntopf, A. Buller, M. Chrzanowska-Jeske, A. Mishchenko, X. Song, A. Al-Rabadi, L. Jozwiak, and A. Coppola, “Regularity and Symmetry as a Base for Efficient Realization of Reversible Logic Circuits,” Proceedings of the IEEE/ACM International Workshop on Logic and Synthesis (IWLS), pp. 90-95, Lake Tahoe, California, June 12-15, 2001.

A. Al-Rabadi and M. Perkowski, “Multiple-Valued Galois Field S/D Trees for GFSOP Minimization and their Complexity,” Proceedings of the IEEE International Symposium on Multiple-Valued Logic (ISMVL), pp. 159-166, Warsaw, Poland, May 22-24, 2001.

M. Perkowski, A. Al-Rabadi, P. Kerntopf, A. Mishchenko, and M. Chrzanowska-Jeske, “Three-Dimensional Realization of Multiple-Valued Functions using Reversible Logic,” Booklet of the Post-Binary Ultra Large Scale Integration (ULSI) Workshop, pp. 47-53, Warsaw, Poland, May 21, 2001.

Technical Reports

A. N. Al-Rabadi, “Three-Dimensional Inverted Neural Networks,” Technical Report 2004:102, Portland State University, Office ofGraduate Studies and Research (OGSR), April 15, 2004.

A. N. Al-Rabadi, “New Families of Kronecker-Based Reversible Decision Trees,” Technical Report 2004:101, Portland State University, Office ofGraduate Studies and Research (OGSR), March 13, 2004.

A. N. Al-Rabadi and William Feyerherm, “Reversibility Property in Behavioral and Social Sciences,” Technical Report 2003:104, Portland State University, Office ofGraduate Studies and Research (OGSR), December 23, 2003.

A. N. Al-Rabadi, “Discrete Systems Modeling Using Reversible Elementary Cellular Automata,” Technical Report 2003:103, Portland State University, Office ofGraduate Studies and Research (OGSR), December 16, 2003.

A. N. Al-Rabadi, “Reversible Neural Networks,” Technical Report 2003:102, Portland State University, Office ofGraduate Studies and Research (OGSR), December 9, 2003.

A. Al-Rabadi, “Reversible Fast Transforms,” Technical Report 2003:101, Portland State University, Office of Graduate Studies and Research (OGSR), September 2003.

A. Al-Rabadi, “Novel Optical Gates and Structures for Reversible Logic,” Technical Report #2001/009, Electrical and Computer Engineering Department, Portland State University, October 13, 2001.

A. Al-Rabadi, “Novel Semi-Regular Conventional and Reversible Decompositions of Logic Circuits,” Technical Report #2001/008, Electrical and Computer Engineering Department, Portland State University, September 3, 2001.

A. Al-Rabadi, “Synthesis and Canonical Representations of Equally Input-Output Binary and Multiple-Valued Galois Quantum Logic: Decision Trees, Decision Diagrams, Quantum Butterflies, Quantum Chrestenson Gate, and Multiple-Valued Bell-Einstein-Podolsky-Rosen Basis States,” Technical Report #2001/007, Electrical and Computer Engineering Department, Portland State University, August 22, 2001.

A. Al-Rabadi, “On the Characterization of Multi-Valued Equally Input-Output Reversible Galois Logic Primitives,” Technical Report #2001/006, Electrical and Computer Engineering Department, Portland State University, August 1, 2001.

A. Al-Rabadi, “A Novel Reconstructability Analysis For the Decomposition of Logic Functions,” Technical Report #2001/005, Electrical and Computer Engineering Department, Portland State University, July 1, 2001.

A. Al-Rabadi, “Towards a Fully Reversible 2-valued Nano-Processor: A Library of Binary Reversible Hardware Components,” Technical Report #2001/004, Electrical and Computer Engineering Department, Portland State University, April 3, 2001.

A. Al-Rabadi, “New Reversible Invariant Multi-Valued Families of Spectral Transforms For Three-Dimensional Layout,” Technical Report #2001/003, Electrical and Computer Engineering Department, Portland State University, March 3, 2001.

A. Al-Rabadi, “New Three-Dimensional Invariant MVL Shannon and Davio Families of Spectral Transforms and their Lattice Structures,” Technical Report #2001/002, Electrical and Computer Engineering Department, Portland State University, January 9, 2001.

A. Al-Rabadi, “A Novel Counting Triangle and Expression for Characterizing the Complexity of S/D Trees for Arbitrary Radix Logic and Arbitrary Number of Variables,” Technical Report #2000/02, Electrical and Computer Engineering Department, Portland State University, May 25, 2000.

Patents

A. N. Al-Rabadi, Carbon NanoTube (CNT) Multiplexers, Circuits, and Actuators. The US Provisional Patent Application is filed with the United States Patent and Trademark Office (USPTO), 2005.

Memberships

IEEE Institute of Electrical and Electronics Engineers.

Sigma Xi The Scientific Research Honor Society.

Tau Beta Pi (TBP) The Engineering Honor Society.

Eta Kappa Nu (HKN) The Electrical and Computer Engineering Honor Society.

ACM Association for Computing Machinery.

INNS International Neural Network Society.

SIAM Society for Industrial and Applied Mathematics.

OSA Optical Society of America.

APS American Physical Society.

SPIE The International Society for Optical Engineering.

ASEE American Society for Engineering Education.

Courses

Dr. Al-Rabadi is involved in teaching several classes in the broad interrelated areas of Computer Engineering, Electrical Engineering, Computer Science, Systems Science, Applied Mathematics, and Physics. Major classical and contemporary textbooks and references in these fields are extensively used. All of these classes include both theoretical (fundamental) and practical (laboratory) parts. The following is a list of courses that Dr. Al-Rabadi has been teaching:

Computer Engineering

CPE 434 (F 2004) Digital System Design.

CPE 432 (Su 2005) Computer Architecture/Design.

CPE 422 (F 2005) Computer Networks.

CPE 339 (Sp 2005) Assembly Language Laboratory.

CPE 331 (F 2005) Assembly Language and Microprocessors.

CPE 239 (F 2005) Logic and Microcontrollers Laboratory.

CPE 233 (F 2004) Microcontrollers and Embedded Systems.

CPE 232 (Sp 2005) Computer Organization.

CPE 231 (F 2005) Digital Logic.

ECE 590/690 Digital Design using Hardware Description Languages.

Computational Intelligence (Soft Computing)