Lecture

Quantum Computing Fundamentals

Description

This lecture covers the fundamentals of quantum computing, including qubit realization, cryo-CMOS components, scalable quantum computers, and quantum communication. It delves into topics such as cryo-CMOS modeling, ADC architectures, sigma-delta ADCs, and dynamic element matching. The advantages of oversampling, quantization noise shaping, and noise shaping in ADCs are also discussed. The lecture explores different DAC architectures, glitch phenomena, and noise in digital integrated circuits. It concludes with insights into power dissipation, delay of digital gates, energy-delay tradeoff, and sequential circuits, emphasizing latch design and abstraction levels.

Instructors (2)

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Official source

https://mediaspace.epfl.ch/media/0_klg8grmz

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Ontological neighbourhood

Information engineering

Signal processing: Sampling theory, Digital image processing, Filtering theory

Electrical engineering

Electronic engineering: Digital electronics

Power engineering: Electric power transmission

Physics

Electromagnetism: Electrical networks

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