Thesis Supervised

 

Ph. D Theses:

  1. 1.M. A. Mohammed, On route to infinite gain CMOS Operational Transconductance Amplifiers and its impact on speed and capacitive load drivability of closed-loop analog applications,  Ph. D. Thesis, McGill University, Oct. 2022.

  2. 2.A. Emara, Designing Area-Efficient Programmable DC Voltage Generators Using Sigma-Delta Bitstreams for Testing Applications, Ph. D. Thesis, McGill University, August 2021.

  3. 3.S. Z. Shalmani, New Circuits for Time-Domain Signal Processing in Low-Voltage CMOS, Ph. D Thesis, École de technologie supérieure, Jointly Supervised, Prof. Ghyslain Gagnon, Sept. 2018.

  4. 4.M. Abdelfattah, Analog Filter Design Using Synchronous Time-Mode Signal Processing, Ph. D. Thesis, McGill University, Oct. 2017.

  5. 5.M. Mahani, Ultra-High-Speed Bandpass Interconnects, Ph. D. Thesis, McGill University, Jun. 2017.

  6. 6.O. Abdelfattah, High-Frequency Synthesis using Phase-Locked Loops for Wide Tuning-Range Application and Sub-1 V Operation in Deep Submicron CMOS Processes, Ph. D. Thesis, McGill University, Dec. 2015.

  7. 7.M. Ali-Bakhshian, Digital Processing of Analog Information Adopting Time-Mode Signal Processing, Ph. D. Thesis, McGill University, Aug. 2012.

  8. 8.P. Chopp, Frequency-Translating Delta-Sigma Modulation for Bandpass Analog-to-Digital Conversion of High-Frequency Signals, April 2012.

  9. 9.M. Oulmane, Integrated Solutions for Timing Jitter Measurement, Ph.D. Thesis, McGill University, August 2011.

  10. 10.S. Aouini, Extending Test Signal Generation Using Sigma-Delta Encoding Beyond The Voltage/Amplitude Domain, Ph.D. Thesis, McGill University, April. 2011.

  11. 11.C. Taillefer, Analog-to-Digital Conversion Via Time-Mode Signal Processing,” Ph.D. Thesis, McGill University, September 2007.

  12. 12.M. Safi-Harb, A Time-Based Approach For Multi-Ghz Embedded Mixed-Signal Characterization And Measurement, Ph.D. Thesis, McGill University, April 2007.

  13. 13.C. J.-B. Fayomi, Reliable Circuit Techniques for Low-Voltage Deep Submicron CMOS Analog-to-Digital Converters, Ph.D. Thesis, Ecole Polytecnique, Montreal,, 2003.

  14. 14.M. Hafed, Analog and Mixed-Signal Test Methods Using On-Chip Embedded Test Cores IC Designer, Ph.D. Thesis, McGill University, 2002.

  15. 15.B. Dufort , Analog Signal Generation Using Periodic Sigma-Delta modulation Streams, Ph.D. Thesis, McGill University, 1999

  16. 16.M. El-Gamel, , Generalized Log-Domain Integrator Structure & Its Application to the Synthesis of High-Frequency and Low-Voltage Log-Domain Filters, Ph.D. Thesis, McGill University, 1998.

  17. 17.B. Veillette, On-Chip Characterization of Charge-Pump Phase-Locked Loops, Ph.D. Thesis, McGill University, 1998.

  18. 18.M. F. Toner, MADBIST: A Scheme for Built-In Self-Test of Mixed Analog-Digital Integrated Circuits," Ph.D. Thesis, McGill University, 1996.


Master's Theses:

  1. 19.M. M. Muhaisin, Reliability Issues Related to Hybrid Printed Electronics, M.A.Sc. Thesis, McGill University, Aug. 2021.

  2. 20.R. Khan, In-Situ Technique for Measuring Contact Resistance and Other Parasitic Behaviors Related to Hybrid Electronics, M.A.Sc. Thesis, McGill University, Aug. 2021.

  3. 21.W. Heger, Fabrication And Testing Of Flexible Hybrid Printed Electronics, M. Eng. Thesis, McGill University, November. 2018.

  4. 22.A. Ravichander, Fault Detection in Analog Automotive Circuits, M. Eng. (report), McGill University, Aug. 2018.

  5. 23.Y. Gouk Cho, A Coherent Subsampling Test System Arrangement with Amplitude and Phase Noise Measuring Capabilities, M. Eng. Thesis, McGill University, May 2017.

  6. 24.Y. Li , Design of High-Order Delay-Locked Loops for Frequency Selectivity, M. Eng. Thesis, McGill University, Jan. 2017.

  7. 25.M. Yang , Synthesis of Ultra-High Gain Operational Transconductance Amplifiers Using a Generalized Controller-Based Compensation Method, M. Eng. Thesis, McGill University, April 2016.

  8. 26.A. Shoukry, “Top-Down Design Methodology from a Transfer Function Perspective for Readily-Compensated Integrator-Based High-Order Amplifiers,” M. Eng. (report), McGill University, Aug. 2015.

  9. 27.S. Bielby, An Embedded Probabilistic Test Instrument For Built-in-Self-Test Methods, M. Eng. Thesis, McGill University, April 2015.

  10. 28.G. Gal, Design of Fractional-N Phase Locked Loops For Frequency Synthesis From 30 To 40 GHz, M. Eng. Thesis, McGill University, Aug. 2012.

  11. 29.S. Lin, Three-Dimension Integrated Circuit Design and Through-Silicon Via Characterization, M. Eng. Thesis, McGill University, Aug. 2012.

  12. 30.M. Macedo, Calibration and High Speed Techniques for CMOS Analog-to-Digital Converters, M. Eng. Thesis, McGill University, Aug. 2012.

  13. 31.A. Chowdhury, A Probabilistic Test Instrument Using ΣΔ Phase Signal Generation Technique for Mixed Signal Embedded Test, McGill University, April 2012.

  14. 32.A. Ameri, Time-Mode Reconstruction IIR Filters for ΣΔ Phase Modulation Applications, M. Eng. Thesis, McGill University, June 2011.

  15. 33.T-Y. Tsai, Programmable Phase/Frequency Generator for System Debug and Diagnosis, M. Eng. Thesis, McGill University, July 2011.

  16. 34.K. Chuai, High-Order Phase-locked Loop Design and Test for Time-Mode Signal Processing Applications, M. Eng. Thesis, McGill University, July 2010.

  17. 35.M. Guttman, Sampled-Data IIR Filtering Via Time-Mode Signal Processing, M. Eng. Thesis, McGill University, Feb. 2010.

  18. 36.E. Yoo, Investigating CMOS Amplifier Design Using the Degrees of Design Freedom Method, M. Eng. Thesis, McGill University, June 2009.

  19. 37.T. Alhajj, TCSIM: A Top-Down Approach To Mixed-Signal Circuits and Systems Design, M. Eng. Thesis, McGill University, February 2008.

  20. 38.S. Hong, A Study of Time Amplifier and Time Amplifier-Based Time-to-Voltage Converter for Data Converter Applications, M. Eng. Thesis, McGill University, January 2008.

  21. 39.D. An, “A Pipelined Metastability-Free Time-To-Voltage Converter With Adjustable Resolution,” M. Eng. Thesis, McGill University, August 2007.

  22. 40.S. Aouini, “A Programmable Analog Gaussian Noise Generator For Test Applications,” M. Eng. Thesis, McGill University, August 2006.

  23. 41.P. Salib, Test Core for On-Chip Metal-Oxide-Semiconductor Capacitance Measurement, M.Eng. Thesis, McGill University, August 2005.

  24. 42.P. Levine, "High-resolution Time Measurement and Calibration for On-Chip Test Systems," M.Eng. Thesis, McGill University, 2004.

  25. 43.M. Shafi-Harb, "Low-Power Low-Voltage High-Speed Delta-Sigma Analog-to-Digital Converters," M.Eng. Thesis, McGill University, 2003.

  26. 44.C. Taillefer,, "Reducing Measurement Uncertainty in a DSP-Based Mixed-Signal Test Environment," M.Eng. Thesis, McGill University, 2003

  27. 45.A. Chan, "Circuits for Time and Frequency Domain Characterization of Jitter," M.Eng. Thesis, McGill University, 2002

  28. 46.B. Pishdad,"Nyquist-Rate Analog-to-Digital Conversion with Calibration," M.Eng. Thesis, McGill University, 2002

  29. 47.C. Tan,"A DC Parametric Measurement System," M.Eng. Thesis, McGill University, 2002

  30. 48.S. Laberge,"DC Voltage Generation Using Periodic Bit-Stream Modulation," M.Eng. Thesis, McGill University, 2002

  31. 49.G. Duerden,"The Development of Bipolar Log-Domain Filters in a Standard CMOS Process," M.Eng. Thesis, McGill University, 2002

  32. 50.Y. Wu ,"Monolithic Nyquist-Rate ADC With Digital Calibration," M.Eng. Thesis, McGill University, 2001

  33. 51.N. Chandra, Top-Down Design Techniques for Delta-Sigma Modulators, M.Eng. Thesis, McGill University, 2001.

  34. 52.A. Aga, Monolithic Reconstruction Filters for Delta-Sigma Applications, M.Eng. Thesis, McGill University, 2001.

  35. 53.N. Abaskharoun, Circuits for On-Chip Sub-Nanosecond Signal Capture and Characterization, M.Eng. Thesis, McGill University, 2001.

  36. 54.A. Hematy, Digitally Programmable Analog Log-Domain Filters , M.Eng. Thesis, McGill University, November 1998.

  37. 55.A. Hajjar , An Integrable Mixed-Signal Test System, M.Eng., McGill University, November, 1998.

  38. 56.V. Leung, Analysis and Compensation of Log-Domain Filter Deviations due to Transistor Nonidealities, M.Eng. Thesis, McGill University, 1998.

  39. 57.C.-H. Leong, New Architectures for High-Order Bandpass Sigma-Delta Modulation in Digital-to-Analog Converters, M.Eng. Thesis, McGill University, 1998.

  40. 58.L. Louis, A Study of Delta-Sigma Modulators for Analog-to-Digital Conversion, M.Eng. Thesis, McGill University, 1998.

  41. 59.J. Abcarius, High-Speed/Low-Cost Delta-Sigma Modulation Techniques for Analog-to-Digital Conversion, M.Eng. Thesis, McGill University, 1998.

  42. 60.X. Haurie, The Design of High-Order Delta-Sigma Modulators and Oscillators," M.Eng. Thesis, McGill University, 1996 .

  43. 61.E. Hawrysh, Digital Architectures For Analog Signal Generation, M.Eng. Thesis, McGill University, 1996.

  44. 62.R. Wodnicki, A CMOS Foveated Image Sensor," M.Eng. Thesis, McGill University, 1996.

  45. 63.B. Veillette, A Study of Delta-Sigma Oscillator Circuits," M.Eng. Thesis, McGill University, 1995.

  46. 64.D. Perry, The Design of Log-Domain Filters Based On the Operational Simulation of LC Ladders," M.Eng. Thesis, McGill University, 1995.

  47. 65.P. Sinn, A Performance Comparison of Switched-Current Structures," M.Eng. Thesis, McGill University, 1994.

  48. 66.I. Song, Design of Switched-Current Filters Using Bilinear Integrators, M.Eng. Thesis, McGill University, 1994.

  49. 67.A. K. Lu, Analog Signal Generation Using Delta-Sigma Modulation, M.Eng. Thesis, McGill University, 1994.

  50. 68.A. Bishop, An Adaptive Phase-Locked-Loop for a Video CODEC, M.Eng. Thesis, McGill University, 1992.