Lecture

Quantum and Nanocomputing

Related lectures (32)

Quantum Computing: Fundamentals and Applications

Covers the fundamentals of quantum computing, including qubit realization, scalable quantum computers, quantum communication, and quantum algorithms.

Shor's Algorithm: Quantum Circuit & Period Finding

Covers Shor's algorithm for period finding in quantum computing, explaining the quantum circuit and algorithm used.

Quantum Computing: Fundamentals and Applications

Explores quantum computing fundamentals, qubit control, communication security, and quantum Fourier transform applications.

Quantum Random Number Generation

Explores quantum random number generation, discussing the challenges and implementations of generating good randomness using quantum devices.

Quantum and Nanocomputing

Delves into quantum computing fundamentals, including entanglement, quantum gates, and algorithms, emphasizing unitary transformations and quantum coherence.

Quantum and Nanocomputing

Explores the fundamentals and history of quantum computing, including qubit realization and the first and second quantum revolutions.

Quantum Compilation: Synthesis and Decomposition

Covers quantum computing fundamentals, compilation, error correction, unitary synthesis, quantum gates, and FPGA-based ADCs.

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.

Quantum and Nanocomputing

Explores quantum computing fundamentals, including qubits, gates, and entanglement, as well as the impact of quantum computing on society.

Quantum Circuits: Gates and Teleportation

Covers quantum circuits, gates, qubits, teleportation, and quantum communication principles.

Quantum and Nanocomputing

Covers the fundamentals of quantum computing, qubit control, readout techniques, qubit controller specifications, Horse Ridge architectures, power breakdown, and more.

Trapped Ions Quantum Computing

Explores analog and digital quantum computing, quantum jumps, cooling of atoms with light, quantum computer technologies, and trapped ion quantum bits.

Quantum Computing: Introduction

Covers quantum computing basics, quantum algorithms, error correction, and quantum bit manipulation.

Quantum Computing Basics

Covers the basics of quantum computing, focusing on superconducting qubits, scaling challenges, and potential applications.

Quantum Computing and Error Correction

Explores quantum computing, error correction, quantum gates, and hybrid quantum-classical algorithms.

Quantum Computation: Mechanisms and Advantages of Restricted Models

Covers the mechanisms behind quantum computation and explores the advantages of restricted computational models.

Quantum Key Distribution: Security and Applications

By the instructor Nicolas Sangouard explores Quantum Key Distribution, its vulnerabilities to quantum computers, and the importance of secure key distribution protocols.

Quantum computing: basics

Introduces the basics of quantum computing, covering qubits, superposition, entanglement, quantum gates, and algorithms, highlighting the efficiency of quantum computation.

Quantum Computing: Hardware Technologies and Applications

Explores quantum computing hardware technologies, applications, classical computing development, investments, and societal impact.

Quantum and nanocomputing

Covers the basics of number theory, RSA encryption, and Shor's period finding algorithm.