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Lecture
Quantum Computing Fundamentals
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Related lectures (31)
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Digital Logic Circuits: Memory and Decoder Fundamentals
Provides an overview of digital logic circuits, focusing on memory systems and binary decoders, including their operation and access protocols.
Quantum Metrology: Superconducting Electronics & Qubits
Explores quantum metrology, superconducting electronics, detectors, qubits, and quantum supremacy, emphasizing advancements in quantum computing.
Quantum Metrology: Superconducting Devices and Qubits
Explores quantum metrology, superconducting devices, qubits, and quantum computing principles.
Quantum and Nanocomputing
Explores Cryo-CMOS components, quantum computing stack, amplifier performance, noise specifications, and impedance matching in electronic circuits.
Digital Logic Circuits: CMOS and Verilog Design
Discusses digital logic circuits, CMOS technology, and Verilog for circuit design.
Electrical Metrology: Noise Reduction Techniques
Explores noise reduction techniques in electrical metrology, covering properties of charge, current, voltage, noise sources, and filtering methods.
Digital Design: Lowerbounds and Recommendations
Covers abstraction levels, EPFL design flow, lowerbounds, and layout recommendations.
Quantum and Nanocomputing: Qubit Realization & Control
Covers the design, control, and readout of superconducting qubits.
Low-Power Analog IC Design: Inversion Coefficient
Explores the concept of inversion coefficient in low-power analog IC design, emphasizing trade-offs for minimal power consumption.
Fundamentals of Digital Systems: Sequential Logic and Memory Elements
Introduces the fundamentals of digital systems, focusing on sequential logic and memory elements like latches and flip-flops.
