Large-Scale Entanglement on Physical Quantum Computers - IPAM at UCLA
Offered By: Institute for Pure & Applied Mathematics (IPAM) via YouTube
Course Description
Overview
Explore a comprehensive lecture on large-scale entanglement in physical quantum computers presented by Gary Mooney from the University of Melbourne at IPAM's Many-body Quantum Systems via Classical and Quantum Computation Workshop. Delve into the fundamental role of entanglement in quantum mechanics and its significance as a computational resource for achieving quantum advantage. Examine the challenges in generating, verifying, and preserving highly entangled states across multiple qubits, and understand how characterizing multi-qubit entanglement serves as a benchmark for assessing emerging quantum technologies. Review recent achievements in generating bipartite entanglement in 65-qubit graph states and genuine-multipartite entanglement in 27-qubit Greenberger-Horne-Zeilinger (GHZ) states on IBM Quantum devices. Gain insights into the latest advancements in quantum computing and the potential implications for quantum information processing.
Syllabus
Gary Mooney - Large-scale Entanglement on Physical Quantum Computers - IPAM at UCLA
Taught by
Institute for Pure & Applied Mathematics (IPAM)
Related Courses
Intro to Computer ScienceUniversity of Virginia via Udacity Quantum Mechanics for IT/NT/BT
Korea University via Open Education by Blackboard Emergent Phenomena in Science and Everyday Life
University of California, Irvine via Coursera Quantum Information and Computing
Indian Institute of Technology Bombay via Swayam Quantum Computing
Indian Institute of Technology Kanpur via Swayam