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Dr. Mitsuru Nagasawa, the founding President of the Toyota Institute of Technology at Chicago (TTIC), will retire this year. With his leadership, TTIC has developed active research and education programs in computer science, has become accredited to grant PhD degrees, and is active in the recruitment of graduate students and outstanding faculty. The Board of Trustees has appointed a committee of the Board, the Presidential Search Committee, to accept and review nominations and applications for the position of president, and to make a recommendation to the Board for an appointment. Inquiries can be sent to Stuart Rice at sarice@ttic.edu.

The National Science Foundation has awarded a grant of $408,305 to the Toyota Technological Institute at Chicago for support of the project entitled "Algorithm and Web Server for Low-homology Protein Threading", under the direction of Dr. Jinbo Xu.

This award is effective July 1 , 2010 and expires June 30, 2013.

This grant is awarded pursuant to the authority of the National Science Foundation Act of 1950, as amended (42 U.S.C. 1861-75).

David McAllester has won the 2010 AAAI Classic Paper award for the paper “Systematic Nonlinear Planning" with David Rosenblitt, which appeared in the AAAI conference in 1991.

The AAAI Classic Paper award honors the author(s) of paper(s) deemed most influential, chosen from a specific conference year. Each year, the time period considered will advance by one year. The 2010 award is being given to the most influential paper(s) from the Ninth National Conference on Artificial Intelligence, held in 1991 in Anaheim, California, and will be presented to Dr. McAllister at the AAAI – 10 conference in Atlanta, Georgia on July 11 - 15.

The papers are judged on the basis of impact, for example:

- Started a new research (sub)area
- Led to important applications
- Answered a long-standing question/issue or clarified what had been murky
- Made a major advance that figures in the history of the subarea
- Has been picked up as important and used by other areas within (or outside of) AI
- Has been very heavily cited

This award will be posted on the AAAI website soon. There was no award given in 2009.

Jinbo Xu was awarded a grant from the National Institute of Health effective May 14, 2010, and the project title is New Computational Methods for Data-driven Protein Structure Prediction. The budget for the first year is $268,555 and the project period is from the start date noted above to April 30, 2015.

The project described was supported by Award Number R01GM089753 from the National Institute Of General Medical Sciences. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of General Medical Sciences or the National Institutes of Health.

Karen Livescu hosted a regional speech research meeting, the 2nd Illinois Speech Day, on May 10, 2010. About fifty people from Illinois and farther away participated. Among the institutions represented, in addition to TTIC, were the University of Chicago, Northwestern University, University of Illinois at Urbana Champaign, University of Washington, Massachusetts Institute of Technology, and Carnegie Mellon University. The program can be found here.

TTIC congratulates Jian Peng, a TTIC third-year Ph.D. student who was awarded the prestigious Microsoft Research Ph.D. Fellowship this month (February 2010). The Microsoft Research Ph.D. Fellowship is a two-year fellowship program for outstanding Ph.D. students, and supports men and women in their third and fourth years of Ph.D. graduate studies.

The fellowship award will cover 100 percent of recipient’s tuition and fees for two academic years (2010 and 2011), provide a stipend to cover living expenses while in school, a travel allowance for recipients to attend professional conferences or seminars, and offers recipients the opportunity to complete one salaried internship over the duration of the year following the award.

Jian works with TTIC’s professor Jinbo Xu on mathematical modellings in computational biology. His other research interests include machine learning and algorithms. For more information about Jian, check out his webpage.

Other TTIC News

Distinguished Lecture Series 2007-2008

Avi Wigderson

Thursday, March 6th

Avi Widgerson Institute for Advanced Study, Princeton University

"Randomness: a computational complexity view"

Widgerson's research interests lie in Randomness and Computation, Algorithms and Optimization, Complexity Theory, Circuit Complexity, Proof Complexity, Quantum Computation and Communication, Cryptography and Distributed Computation.

Abstract:

Man has grappled with the meaning and utility of randomness for centuries. Research in the Theory of Computation in the last thirty years has enriched this study considerably. I'll describe two main aspects of this research on randomness, demonstrating its power and weakness respectively.

-Randomness is paramount to computational efficiency:

The use of randomness can dramatically enhance computation (and do other wonders) for a variety of problems and settings. In particular, examples will be given of probabilistic algorithms (with tiny error) for natural tasks in different areas of mathematics, which are exponentially faster than their (best known) deterministic counterparts.

-Computational efficiency is paramount to understanding randomness:

I will explain the computationally-motivated definition of "pseudorandom" distributions, namely ones which cannot be distinguished from the uniform distribution by efficient procedure from a given class. We then show how such pseudorandomness may be generated deterministically, from (appropriate) computationally difficult problems. Consequently, randomness is probably not as powerful as it seems above.

I'll conclude with the power of randomness in other computational settings, primarily probabilistic proof systems. We discuss the remarkable properties of Zero-Knowledge proofs and of Probabilistically Checkable proofs.

Talk Time & Place:
3:30pm - Biological Sciences Learning Center (room 115- 1st floor)
924 East 57th St.
Chicago, IL 60637

Prabhakar Raghavan

Tuesday, April 1st

Prabhakar Raghavan Yahoo! Research

"New sciences for a new web"

Raghavan has been Head of Yahoo! Research since 2005. His research interests include text and web mining, and algorithm design. He is a Consulting Professor of Computer Science at Stanford University and Editor-in-Chief of the Journal of the ACM.

Abstract:

The web has made a widely-hailed transition from its original incarnation to a putative state of "Web 2.0". This transition has stemmed from the clever use of AJAX and efficient grid computing to enhance a user's perception of responsiveness and interaction. In the process, the web experience has changed from a human interacting with a browser, to the emergence of a plethora of social media experiences. One consequence is that moving beyond the current notion of Web 2.0 demands research advances that straddle the boundaries between computational and social sciences, the latter including microeconomics, cognitive psychology and sociology. It also raises difficult questions on the use of data - ranging from the algorithmic to the societal.

This lecture will attempt to chart this interdisciplinary research agenda, arguing that the most influential research will require heavy interaction between these "hard" and "soft" sciences.

Talk Time & Place:
3:30pm - Biological Sciences Learning Center (room 109- 1st floor)
924 East 57th St.
Chicago, IL 60637

Simon Peyton Jones

Thursday, June 12th

Simon Peyton Jones Microsoft Research - Cambridge

"Exploiting Multicores with Nested Data Parallelism in Haskell"

Simon Peyton Jones has been at Microsoft Research (Cambridge) since 1998. His main research interest is in functional programming languages, their implementation, and their application. He has led a succession of research projects focused around the design and implementation of production-quality functional-language systems for both uniprocessors and parallel machines. He was a key contributor to the design of the now-standard functional language Haskell, and is the lead designer of the widely-used Glasgow Haskell Compiler (GHC). He has written two textbooks about the implementation of functional languages.

More generally, he is interested in language design, rich type systems, software component architectures, compiler technology, code generation, runtime systems, virtual machines, and garbage collection. He is particularly motivated by direct use of principled theory to practical language design and implementation - a reason he loves functional programming so much.

His home page is at http://research.microsoft.com/~simonpj

Abstract:

There are many approaches to exploiting multi-cores, but a particularly promising one is the "data-parallel" paradigm, because it combines massive parallelism (on both shared and distributed memory) with a simple, single-control-flow programming model. Indeed, I think that data parallelism is the only way we will be able to exploit tens or hundreds of processors effectively.

Alas, data-parallel programming is usually restricted to "flat" data parallelism, which is good for implementers but bad for programmers. Instead, I'll describe the "nested" data parallel programming model, first developed in the 90's by Blelloch and Sabot. It is great for programmers but much harder to implement; as a result, it's virtually unknown in practice. It's really only feasible to support nested data parallelism in a purely functional language, so we are building a high-performance implementation in Haskell.

In this talk I'll explain what nested data parallelism is, why it's important, and what progress we have made. Fear not: I won't assume you know any Haskell. Yet.

Talk Time & Place:
3:30pm - Biological Sciences Learning Center (room 115- 1st floor)
924 East 57th St.
Chicago, IL 60637