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Quantum and Nanocomputing
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Related lectures (27)
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Quantum Computing Fundamentals
Covers quantum computing fundamentals, ADC architectures, oversampling advantages, noise shaping, glitch phenomena, and digital integrated circuit noise.
Quantum Computing: Molecular Transistors and Logic Gates
Delves into molecular transistors, logic gates, and their design using molecular technology.
Current Sources and Integrated Circuit Amplifiers
Explores current sources, amplifiers, voltage gain, and circuit design in integrated circuits.
Experimental Results Presentation: Tabor Experiment Analysis
Covers the analysis of experimental results from the Tabor experiment, focusing on voltage measurements and circuit design.
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.
Quantum and Nanocomputing
Explores Cryo-CMOS components, quantum computing stack, amplifier performance, noise specifications, and impedance matching in electronic circuits.
Bio-Nano-Chip Design: Capacitance Measurement and DNA Detection
Explores Bio-CMOS circuits for DNA detection, including CBCM circuits and Analog Integrators, and discusses a circuit front-end for label-free DNA detection.
Designing 3-Dimensional NAND Circuits: Key Considerations
Covers the design considerations for 3-dimensional NAND circuits, focusing on transistor sizing and performance optimization.
Circuit Simulation Basics
Covers the basics of circuit simulation using LT-SPICE and lab equipment overview.
Voltage Summator: Frequency-Independent Inverter Assembly
Explores the design of a voltage summator with a frequency-independent inverter assembly.
