Lecture

Quantum Computing: Molecular Transistors and Logic Gates

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Quantum and Nanocomputing: Magnetic Logic and Coupling

Explores magnetic logic and coupling in quantum and nanocomputing, emphasizing stability and memory in magnet interactions.

Logic Systems: TTL Gates and Analog Aspects

Explores TTL gates, analog aspects, and various logic gates in digital circuits.

Quantum and nanocomputing: Exercise session 3

Covers quantum computing, nanocomputing, logic gates, quantum circuits, algorithms, error correction, and cryptography.

Fault Tolerance

Covers the concept of fault tolerance in quantum computing and the implementation of error correction codes.

Quantum Metrology: Superconducting Electronics & Qubits

Explores quantum metrology, superconducting electronics, detectors, qubits, and quantum supremacy, emphasizing advancements in quantum computing.

Computational Quantum Physics

Introduces quantum computing basics, covering qubits, gates, circuits, and simulations.

Introduction to Logisim Evolution: Basics of Digital Circuit Design

Introduces Logisim Evolution, focusing on basic components for digital circuit design.

Quantum Information: Bloch Sphere and Gates

Covers the basics of quantum information, including the Bloch sphere representation and quantum gates.

Trapped Ions: Quantum Gates

Covers the fundamentals of trapped ions in quantum information and the importance of geometric phases in quantum optics.

Logic Systems: Karnaugh Maps and TTL Gates

Explores Karnaugh maps, TTL gates, analog aspects of digital logic, and prime implicants.

Quantum and Nanocomputing

Explores quantum and nanocomputing fundamentals, LTspice simulation, universal op amp models, voltage sources, transient analysis, AC behavior, and FFT analysis.

Karnaugh Maps: Grouping Techniques

Explores Karnaugh maps, grouping rules, and transistor logic in logic systems.

Germanium Quantum Technology

Delves into the use of germanium in quantum computing, emphasizing hole-based quantum systems and materials advancements.

Logic Gates and IC Technology

Explores the implementation of logic gates in semiconductor material, focusing on TTL and CMOS technologies, ICs, hazards, clocks, D flip-flops, and switch debouncing.

Quantum Information: Elements of Quantum Information

Explores quantum information, logic gates, and the Deutsch algorithm in quantum software engineering.

Complex Gates: Exercise-2 Solution

Covers the design of complex logic gates in VLSI.

Quantum Computing Paradigm

Introduces the paradigm of digital quantum computing, covering qubits, quantum logic gates, state preparation, and error correction.

Universality of the QC Paradigm

Explores the universality of quantum computing, controlled operations, Bell-state generation, and the Solovay-Kitaev theorem.

Quantum and Nanocomputing

Covers quantum and nanocomputing, focusing on molecules as conductive elements, molecular transistors, and field coupling elements.