Graduate Coursework
University Of California, Los Angeles
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Active Circuits |
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RC : CR Decomposition Theory, Active RC integrators,
Circuit synthesis using GIC, Oscillator circuits, CMOS
analog circuits, Single and Double terminated network
synthesis. Grade: Excellent |
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Computer Aided Design (CAD) |
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Matrix based circuit analysis, Numerical methods for solving differential equations, Sensitivity analysis, Digital versus analog simulation techniques. Grade: Excellent |
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Digital Signal Processing |
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Basic signal processing concepts, Fourier Analysis, Z transform, DFT and FFT algorithms, Digital Filters (IIR and FIR), CAD for Digital Filter Synthesis. Grade: Excellent |
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Digital Electronics |
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Physical devices, Basic logic gates in BJT and CMOS, High speed circuit techniques in BJT and CMOS, Delay, power and area considerations ,Complex circuits (Adders, shifters, …) Introduction to HDL. Grade: Very Good |
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Selected Topics |
1- Field Programmable Gate Array (FPGA)
Grade: Excellent |
University Of
California, Los Angeles (UCLA)
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EE212A Theory and Design of Digital Filters |
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Approximation of filter specifications. Use of design charts.Structures for recursive digital filters. FIR filter design techniques. Comparison of IIR and FIR structures.Implementation of digital filters. Limit cycles. Overflow oscillations. Discrete random signals. Wave digital filters. Grade: A |
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EE215A Analog Integrated Circuit Design |
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Bipolar and CMOS operational amplifier design; gain stages, frequency compensation,output stages; voltage references; analysis of noise and distortion; wideband amplifiers Grade: A+ |
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M216A LSI in Computer System Design |
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LSI/VLSI design and application in computer systems. Fundamental design techniques that can be used to implement complex integrated systems on a chip. Grade: A+ / Ranking First |