1. Khan, Z., A. Razzaq, J. Iqbal, A. Qamar and M. Zubair, 2018. Double circular ring compact antenna for ultra-wideband applications. IET Microwaves Antennas Propag., 12: 2094-2097.
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2. Qamar, A., F.B. Muslim, J. Iqbal and L. Lavagno, 2017. LP-HLS: Automatic power-intent generation for high-level synthesis based hardware implementation flow. Microprocess. Microsyst., 50: 26-38.
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3. Qamar, A., F.B. Muslim, F. Gregoretti, L. Lavagno and M.T. Lazarescu, 2017. High-level synthesis for semi-global matching: Is the juice worth the squeeze? IEEE Access., 5: 8419-8432.
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4. Khan, M.I., A. Qamar, F. Shabbir and R. Shoukat, 2017. Design, development and implementation of a low power and high speed pipeline A/D converter in submicron CMOS technology. Microsyst. Technol., 23: 6005-6014.
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5. Imtiaz, W.A., J. Iqbal, A. Qamar, H. Ali and S.M. Idrus, 2017. Impact of Fiber Duplication on Protection Architectures Feasibility for Passive Optical Networks. In: Optical Fiber and Wireless Communications, Roka, R. (Ed.)., IntechOpen, Croatia, ISBN: 978-953-51-3276-9, pp: 339-370.
6. Imtiaz, W.A., A. Qamar, A.U. Rehman, H. Ali, A.R. Chaudhry and J. Iqbal, 2017. Design and analysis of self-healing tree-based hybrid spectral amplitude coding OCDMA system. Secur. Commun. Networks, Vol. 2017. 10.1155/2017/2524513.
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7. Imtiaz, W.A., Y. Khan, A. Qamar, J. Khan and N.A. Khan, 2014. Power budget analysis of dual/single feeder fiber wavelength division multiplexing passive optical access networks. Optoelectron. Lett., 10: 137-139.
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