Explore a seminar presentation from the Institute for Advanced Study's Computer Science/Discrete Mathematics series that delves into recent breakthroughs in quantum error correction, specifically focusing on quantum low-density parity-check (qLDPC) codes and their higher-dimensional applications. Learn about the construction of quantum locally testable codes (qLTCs) and qLDPC codes with transversal gates through detailed explanations of code distance analysis, local testability, and cup product structure. Gain insights from the collaborative research conducted by David Lin, Irit Dinur, Thomas Vidick, and Louis Golowich, examining how these advancements contribute to achieving asymptotically optimal code rates and distances in quantum error correction systems.
Quantum Locally Testable Codes and Codes with Transversal Gates
Institute for Advanced Study via YouTube
Overview
Syllabus
Quantum Locally Testable Codes and Codes with Transversal Gates - David (Ting-Chun) Lin
Taught by
Institute for Advanced Study
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