Dr. Tariq Jamil

Research Scientist
Sultan Qaboos University, Sultanate of Oman

Highest Degree
Ph.D. in Computer Engineering from Florida Institute of Technology, USA

My URL
https://livedna.org/61.25647

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Biography

Dr. Tariq Jamil is currently Associated with the Department of Electrical and Computer Engineering at Sultan Qaboos University (SQU, Oman). He holds M.S. /Ph.D. degrees in Computer Engineering from the Florida Institute of Technology (USA) and B.Sc. (Honors) degree in Electrical Engineering from the NWFP University of Engineering and Technology (Pakistan). He has authored three books, co-authored another book on speech recognition for Arabic language, holds an Australian Innovation Patent on Complex Binary Associative Dataflow Processor, and has written over fifty research papers in refereed international conferences and journals. He is a senior member of IEEE (USA), member of the IET (UK), a Chartered Engineer (UK), and a registered Professional Engineer.

Area of Interest:

Computer Sciences
Computer Engineering
Computer Architecture
Parallel Processing
Encryption

Selected Publications

  1. Jamil, T., M. Awadalla and I. Mohammed, 2018. Design and implementation of a complex binary adder. Medwell J. Eng. Applied Sci., 13: 1813-1828.

  2. Jamil, T. and I. Mohammed, 2015. Simulation of VICTOR algorithm for fault-diagnosis of digital circuits. Int. J. Comput. Theory Eng., 7: 103-107.

  3. Jamil, T., 2014. Design of a content-addressable memory-based parallel processor implementing (-1+j)-based binary number system. Int. J. Adv. Comput. Sci. Applic., 4: 11-17.

  4. Jamil, T. and U. Ali, 2014. Analysis of multiple-bit shift-left operations on complex numbers in (-1+j)-base binary format. Int J. Elect. Comput. Eng., 4: 295-302.

  5. Ali, U. and T. Jamil, 2013. Bit-wise byte-wide analysis of shift-right operations on binary representation of complex numbers. Int. J. Eng. Res. Technol., 2: 687-711.

  6. Mehmood, T., Zuhoor ur Rehman and T. Jamil, 2011. A review of the problems faced by AIOU regional centres in Pakistan. J. Ame. Sci., 7: 92-99.

  7. Jamil, T., 2011. Design of arithmetic circuits for complex binary number system. IAENG Trans. Eng. Technol., 1373: 83-97.

  8. Jamil, T., 2010. Implementation of an economical parking helper device using ultrasound sensors. IAENG Trans. Eng. Technol., 1247: 100-114.

  9. Jamil, T., 2008. Impact of shift operations on (-1+j)-base complex binary numbers. J. Comput., 3: 63-71.

  10. Al-Bulushi, H. and T. Jamil, 2006. Design and implementation of an automatic emergency management system. J. Eng. Applied Sciences, 1: 181-186.
    CrossRef  |  Direct Link  |  

  11. Jamil, T., A. Al-Maashari and A.A. Abdulghani, 2005. Design and implementation of a nibble-size multiplier for (-1+j)-base complex binary numbers. WSEAS Trans. Circuits Syst., 4: 1539-1544.

  12. Al-Hajry, H. and T. Jamil, 2005. A case study approach to investigate the usefulness of AHP in developing SSADM customization model. WSEAS Trans. Comput., 4: 70-75.
    Direct Link  |  

  13. Jamil, T., A.A. Abdulghani and A. Al-Maashari, 2004. Design of a nibble-size subtractor for (-1+j)-base complex binary numbers. WSEAS Trans. Circuits Syst., 3: 1067-1072.

  14. Jamil, T., 2004. The Rijndael algorithm: A brief introduction to the new encryption standard. IEEE Potent., 23: 36-38.

  15. Jamil, T., 2004. Implementation of a CAM-based dataflow processor for parallel computations. WSEAS Trans. Syst., 3: 1868-1876.

  16. Goode, J., T. Jamil and D. Callahan, 2004. A simple circuit for adding complex numbers. WSEAS Trans. Infor. Sci. Applic., 1: 61-66.

  17. Ali, U., S. Saeed, S.A. Khan and T. Jamil, 2004. Conversion algorithms for one-unit complex binary numbers and arithmetic operations. WSEAS Trans. Infor. Sci. Applic., 1: 1646-1649.

  18. Blest, D.C. and T. Jamil, 2003. Division in a binary representation for complex numbers. Intl. J. Math. Educ. Sci. Technol., 34: 561-574.
    Direct Link  |  

  19. Jamil, T., D. Blest and A. AlHabsi, 2002. Towards formulation of a complex binary number system. SQU J. Scient. Res.-Sci. Technol., 7: 199-209.
    Direct Link  |  

  20. Jamil, T., 2002. The complex binary number system-basic arithmetic made simple. IEEE Potent., 20: 39-41.

  21. Stacpoole, R. and T. Jamil, 2000. Cache memories. IEEE Potent., 19: 24-29.

  22. Jamil, T., 1999. Steganography-The art of hiding information in plain sight. IEEE Potent., 18: 10-12.

  23. Jamil, T. and R.G. Deshmukh, 1998. A novel processor for tokenless dataflow computations using associative memory. Aust. Comput. Sci. Commun., 20: 75-86.

  24. Jamil, T., 1997. RAM versus CAM. IEEE Potent., 16: 26-29.

  25. Jamil, T., 1997. Fifth generation microprocessors. IEEE Potent., 15: 33-35.

  26. Jamil, T., 1997. Computing-A historical perspective. Softlink, 2: 4-6.

  27. Jamil, T., 1995. RISC versus CISC-why less is more. IEEE Potent., 14: 13-16.
Member since December, 2018