TODAY - Distinguished Lectures Series by Prof. László Lovász

Monday, April 29, 2013

Professor László Lovász from Eötvös Loránd University in Budapest, Hungary will be a distinguished guest of the CS Department
and will give a series of talks as follows:

**
Lecture 1:**

Large Networks, Graph Limits, And Why Are They Useful

Tuesday, April 30, 14:30-15:30, Taub Building 337

The lecture is for CS Faculty and students as well as general audience,

If you have a very large network (which may be deterministic or the result of some random procedure), we may want to approximate it by a smaller object, or by an infinite (analytic) object. The former question is related to Szemer\'edi's Regularity Lemma and its variants, the latter, to "graph limits". A theory of convergent graph sequences and their limits has been worked out by Benjamini and Schramm (for graphs with bounded degree) and by Borgs, Chayes, Lov\'asz, S\'os, Szegedy and Vesztergombi (for dense graphs). Focusing on the dense case, I will describe the motivation for graph limit theory and some basic facts.

**
Lecture 2:**

Limits of Dense Graphs: Algorithms And Extremal Graph Theory

May 1, 13:30-14:30, Taub Building 337

The lecture is for mathematically minded audience

Applications of graph limit theory to algorithmic problems present novel challenges; some of the classical algorithmic problems must be rephrased, and a new kind of complexity theory emerges. Much of this has been worked out in the theory of "Graph Property Testing" in computer science, where we assume that information about such graphs is obtained by an appropriate sampling procedure. Graph limits offer a new perspective on this field, along with some new results.

Many questions in extremal graph theory can be phrased like this: what is the maximum of a certain linear combination of densities of given graphs in any graph G? Answers to such questions are often quite difficult. Graph limits make it possible to pose and in some cases answer some general questions about extremal graphs: Which inequalities between subgraph densities are valid? Can all valid inequalities be proved using just Cauchy-Schwarz? Is there always an extremal graph? Which graphs are extremal?

**
Lecture 3:**

Limits of Sparse Graphs: Distributed Algorithms And Group Theory

May 2, 14:30-15:30, Taub Building 337

The lecture is for mathematically minded audience

The limit theory of bounded-degree graphs is very interesting, but substantially more challenging than the dense theory. Limit objects can be defined in more than one sense; an interesting class of infinite graphs, which are called graphings and have been known from group theory and ergodic theory for a while, can be used to describe limit objects. Algorithmic questions in this theory are closely related to distributed computing in constant time.

**
Bio:**

László Lovász, born in 1948 in Budapest, is a Hungarian-American mathematician, best known for his work in combinatorics, combinatorial optimization, graph theory and their impact on computer science, for which he was awarded the Wolf Prize and the Knuth Prize in 1999, and the Kyoto Prize in 2010. He received the Fulkerson Prize twice (1982, 2012), Hungary's Széchenyi Grand Prize (2008), Bolyai prize (2007), Gödel Prize (2001).

Lovász received his Candidate of Sciences degree in 1970 at Hungarian Academy of Sciences. His advisor was Tibor Gallai. Until 1975, Lovász worked at the Eötvös University, between 1975-1982 he led the Department of Geometry at the University of Szeged.

In 1982 he returned to the Eötvös University, where he created the Department of Computer Science.

Lovász was a professor at Yale University during the 1990s and was a collaborative member of the Microsoft Research Center until 2006. He returned to Eötvös Loránd University, Budapest, where he was the director of the Mathematical Institute (2006-2011). He served as president of the International Mathematical Union between January 1, 2007 and December 31, 2010.

Youtube Interview: Avi Wigderson interviews László Lovász.

Large Networks, Graph Limits, And Why Are They Useful

Tuesday, April 30, 14:30-15:30, Taub Building 337

The lecture is for CS Faculty and students as well as general audience,

If you have a very large network (which may be deterministic or the result of some random procedure), we may want to approximate it by a smaller object, or by an infinite (analytic) object. The former question is related to Szemer\'edi's Regularity Lemma and its variants, the latter, to "graph limits". A theory of convergent graph sequences and their limits has been worked out by Benjamini and Schramm (for graphs with bounded degree) and by Borgs, Chayes, Lov\'asz, S\'os, Szegedy and Vesztergombi (for dense graphs). Focusing on the dense case, I will describe the motivation for graph limit theory and some basic facts.

Limits of Dense Graphs: Algorithms And Extremal Graph Theory

May 1, 13:30-14:30, Taub Building 337

The lecture is for mathematically minded audience

Applications of graph limit theory to algorithmic problems present novel challenges; some of the classical algorithmic problems must be rephrased, and a new kind of complexity theory emerges. Much of this has been worked out in the theory of "Graph Property Testing" in computer science, where we assume that information about such graphs is obtained by an appropriate sampling procedure. Graph limits offer a new perspective on this field, along with some new results.

Many questions in extremal graph theory can be phrased like this: what is the maximum of a certain linear combination of densities of given graphs in any graph G? Answers to such questions are often quite difficult. Graph limits make it possible to pose and in some cases answer some general questions about extremal graphs: Which inequalities between subgraph densities are valid? Can all valid inequalities be proved using just Cauchy-Schwarz? Is there always an extremal graph? Which graphs are extremal?

Limits of Sparse Graphs: Distributed Algorithms And Group Theory

May 2, 14:30-15:30, Taub Building 337

The lecture is for mathematically minded audience

The limit theory of bounded-degree graphs is very interesting, but substantially more challenging than the dense theory. Limit objects can be defined in more than one sense; an interesting class of infinite graphs, which are called graphings and have been known from group theory and ergodic theory for a while, can be used to describe limit objects. Algorithmic questions in this theory are closely related to distributed computing in constant time.

László Lovász, born in 1948 in Budapest, is a Hungarian-American mathematician, best known for his work in combinatorics, combinatorial optimization, graph theory and their impact on computer science, for which he was awarded the Wolf Prize and the Knuth Prize in 1999, and the Kyoto Prize in 2010. He received the Fulkerson Prize twice (1982, 2012), Hungary's Széchenyi Grand Prize (2008), Bolyai prize (2007), Gödel Prize (2001).

Lovász received his Candidate of Sciences degree in 1970 at Hungarian Academy of Sciences. His advisor was Tibor Gallai. Until 1975, Lovász worked at the Eötvös University, between 1975-1982 he led the Department of Geometry at the University of Szeged.

In 1982 he returned to the Eötvös University, where he created the Department of Computer Science.

Lovász was a professor at Yale University during the 1990s and was a collaborative member of the Microsoft Research Center until 2006. He returned to Eötvös Loránd University, Budapest, where he was the director of the Mathematical Institute (2006-2011). He served as president of the International Mathematical Union between January 1, 2007 and December 31, 2010.

Youtube Interview: Avi Wigderson interviews László Lovász.