Computer Science/Discrete Mathematics Seminar I
Disjoint Pairs in Set Systems and the Combinatorics of Low-Rank Matrices
In this talk, I will discuss the solution to several problems in two closely related settings: set families in 2^[n] with many disjoint pairs, and low-rank matrices with many zero entries.
Highlights include a resolution of an old question of Daykin and Erdős on the maximum number of disjoint set pairs, a proof of a conjecture by Singer and Sudan motivated by the log-rank conjecture in communication complexity, and tight bounds for a problem posed by Alon, Gilboa, and Gueron related to a long-standing question in coding theory about cover-free families.
Our proofs use probabilistic, entropy, and discrepancy methods, revealing connections to additive combinatorics and coding theory.
Joint with Z. Hunter, A. Milojević and I. Tomon.
Date & Time
February 02, 2026 | 11:00am – 12:00pm
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02/02/2026 11:00
02/02/2026 12:00
Computer Science/Discrete Mathematics Seminar I
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Topic: Disjoint Pairs in Set Systems and the Combinatorics of Low-Rank Matrices
Speakers: Benjamin Sudakov, ETH Zürich
More: https://www.ias.edu/math/events/computer-sciencediscrete-mathematics-seminar-i-613
In this talk, I will discuss the solution to several problems in two
closely related settings: set families in 2^[n] with many disjoint
pairs, and low-rank matrices with many zero entries.
Highlights include a resolution of an old question of Daykin and
Erdős on the maximum number of disjoint set pairs, a proof of a
conjecture by Singer and Sudan motivated by the log-rank conjecture in
communication complexity, and tight bounds for a problem posed by
Alon, Gilboa, and Gueron related to a long-standing question in coding
theory about cover-free families.
Our proofs use probabilistic, entropy, and discrepancy methods,
revealing connections to additive combinatorics and coding theory.
Joint with Z. Hunter, A. Milojević and I. Tomon.
Simonyi Hall 101 and Remote Access
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Location
Simonyi Hall 101 and Remote AccessSpeakers
Benjamin Sudakov, ETH Zürich