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Quantum and nanocomputing
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Related lectures (32)
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Digital Circuits: Basics
Covers digital signal processing, binary and Boolean logic, and practical examples of digital circuits.
Brush-up on Electronics Design
Covers electronics design, including sensitivity analysis, proposals, hardware components, design process steps, ADC architectures, SNR, digital circuit design, and noise margins.
Analog-Digital & Digital-Analog Converters
Covers Analog-Digital and Digital-Analog conversion, including sampling, quantization, Flash converter, weighted current generation, and R2R network.
Implementation of Sampling and Quantization
Covers the generation of signals with noise, sampling, and conversion to digital.
Analog CMOS Integrated Circuits: Fundamentals
Covers the fundamentals of analog CMOS integrated circuits, emphasizing transistor-level design principles and the historical impact of CMOS technology.
Introduction to Sampling
Covers the concept of sampling, the sampling theorem, signal reconstruction, and the conversion of analogue signals to digital signals.
Quantum Signal Processing
Covers IQ demodulation of noisy quantum signals using FPGA and MATLAB.
Analog-Digital Conversion: Fundamentals
Explores the basics of analog-to-digital and digital-to-analog conversion processes, including sampling and coding.
Digitization: ADC Operation and Architectures
Explains ADC operation, quantization, encoding, and different architectures, covering ENOB, SNDR, and ADC comparison.
Principles of Digital Communication
Covers the principles of digital communication, focusing on the Nyquist Sampling Theorem and signal space dimension.
