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Lecture
Quantum Computing Fundamentals
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Related lectures (31)
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Quantum and nanocomputing
Explores digital design principles, ADC architectures, FPGA-based ADCs, figures of merit, and lower bounds in digital design.
Cryo-CMOS electrical interfaces for large-scale quantum computers
Delves into Cryo-CMOS technology for quantum computers, focusing on challenges and advancements in cryogenic CMOS circuits.
Smart Sensors for the IoT: ADCs Fundamentals
Explores ADCs fundamentals for IoT smart sensors, covering quantization, non-idealities, and topologies.
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.
Digital Circuits: Basics
Covers digital signal processing, binary and Boolean logic, and practical examples of digital circuits.
Timing Analysis: Synchronous Circuit Design
Covers timing analysis of synchronous circuits, focusing on flip-flops, timing constraints, and metastability issues.
Digital Circuits: Logic Basics
Introduces digital circuits, covering binary systems, logic operators, Boolean algebra, memory elements, and practical examples like BCD decoders and shift registers.
Digital Logic Circuits: Memory Elements and Sequential Logic
Introduces sequential logic circuits and memory elements, focusing on their role in digital systems and practical applications.
Digital Systems Overview: Evolution and Integration
Explores the evolution of digital systems, from transistors to integrated circuits, emphasizing the impact of Moore's law and practical FPGA work.
Digital Integrated Circuits: Evolution and Design
Covers the evolution of digital integrated circuits, market demands impact, modern IC functionalities, microprocessors history, and Moore's law.
