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Recent Developments in Asymptotically Good Quantum LDPC Codes

Offered By: Kavli Institute for Theoretical Physics via YouTube

Tags

Integrable Models Courses Condensed Matter Physics Courses String Theory Courses Mathematical Physics Courses Conformal Field Theory Courses Integrable Deformations Courses Non-Equilibrium Dynamics Courses Integrable Quantum Field Theories Courses Spin Chains Courses Quantum LDPC Codes Courses

Course Description

Overview

Explore recent advancements in asymptotically good quantum LDPC codes in this 47-minute conference talk delivered by Eugene Tang from MIT. Recorded as part of the Noisy Intermediate-Scale Quantum Systems: Advances and Applications conference at the Kavli Institute for Theoretical Physics, this presentation offers insights into cutting-edge research in quantum error correction. Delve into the complexities of quantum low-density parity-check codes and their potential for achieving high performance in quantum computing systems. Gain a deeper understanding of how these developments contribute to the broader field of quantum information science and their implications for building more robust quantum computers. Suitable for researchers, students, and professionals in quantum computing, physics, and information theory.

Syllabus

Recent developments in asymptotically good quantum LDPC codes ▸ Eugene Tang (MIT)


Taught by

Kavli Institute for Theoretical Physics

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