Explore a cutting-edge lecture on quantum computing's potential before achieving fault tolerance. Delve into experiments producing reliable expectation values from a noisy 127-qubit processor, demonstrating capabilities beyond classical computation. Examine evidence supporting quantum computing's utility in the pre-fault-tolerant era, presented by Abhinav Kandala from IBM Thomas J. Watson Research Center. Gain insights into recent classical benchmarking of these experiments and understand the challenges and opportunities in quantum computing amidst noise limitations. Discover how quantum processors can offer significant advantages even before large-scale fault tolerance is realized in this hour-long presentation from IPAM's Many-body Quantum Systems via Classical and Quantum Computation Workshop.
Evidence for the Utility of Quantum Computing Before Fault Tolerance - IPAM UCLA
Institute for Pure & Applied Mathematics (IPAM) via YouTube
Overview
Syllabus
Abhinav Kandala - Evidence for the utility of quantum computing before fault tolerance - IPAM UCLA
Taught by
Institute for Pure & Applied Mathematics (IPAM)
Related Courses
-
Evidence for the Utility of Quantum Computing Before Fault Tolerance
-
Quantum 101: Quantum Computing & Quantum Internet
-
Development and Applications of Germanium Quantum Technologies
-
Noise, Complexity, and Information Dynamics in Quantum Circuits - IPAM at UCLA
-
Circuit-to-Hamiltonian from Tensor Networks and Fault Tolerance - IPAM at UCLA
-
Dawn in the Age of Quantum Fault Tolerance
