Computer Science/Discrete Mathematics Seminar II
Informal Talk on the Quantum Soundness of the Low (individual) Degree Test
A common tool in the construction of probabilistically checkable proofs is low degree encodings. Babai, Fortnow and Lund proved the local testability of the individual low degree code, and used it to provide a multi-prover interactive proof (MIP) protocol for every non-deterministic exponential time (NEXP) language. In 2019, Ji, Natarajan, Vidick, Wright and Yuen settled the analogous quantum question, showing that there is a quantum MIP protocol (MIP*) for every recursively enumerable (RE) language. Arguably, the most technical part in their argument is the quantum local testability of the individual low degree code. I aim to present both the classical and quantum local testability results with some detail
Date & Time
April 14, 2026 | 10:30am – 12:30pm
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04/14/2026 10:30
04/14/2026 12:30
Computer Science/Discrete Mathematics Seminar II
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Topic: Informal Talk on the Quantum Soundness of the Low (individual) Degree Test
Speakers: Michael Chapman, Institute for Advanced Study
More: https://www.ias.edu/math/events/computer-sciencediscrete-mathematics-seminar-ii-620
A common tool in the construction of probabilistically checkable
proofs is low degree encodings. Babai, Fortnow and Lund proved the
local testability of the individual low degree code, and used it to
provide a multi-prover interactive proof (MIP) protocol for every
non-deterministic exponential time (NEXP) language. In 2019, Ji,
Natarajan, Vidick, Wright and Yuen settled the analogous quantum
question, showing that there is a quantum MIP protocol (MIP*) for
every recursively enumerable (RE) language. Arguably, the most
technical part in their argument is the quantum local testability of
the individual low degree code. I aim to present both the classical
and quantum local testability results with some detail
Simonyi 101 and Remote Access
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Location
Simonyi 101 and Remote AccessSpeakers
Michael Chapman, Institute for Advanced Study