• New Center for Computational Intractability--- an NSF-funded collaboration of IAS,NYU,Princeton and Rutgers.

News:

• Women in Theory workshop - June 14-18, 2008.
• Princeton Center for Theoretical Computer Science is starting in Fall 2008.
• Additive Combinatorics and Computer Science Mini Course - August 23-24, 2007.

• Women in Theory workshop - June 14-18, 2008.
• Additive Combinatorics and Computer Science Mini Course - August 23-24, 2007.

Breaking news (Nov'07): Princeton Center for Theoretical Computer Science is starting in Fall 2008.

Breaking news (Nov'07): Princeton Center for Theoretical Computer Science is starting in Fall 2008.

• Postdoc positions available starting Fall'08. Details coming soon.

• Opportunities to study in or visit at princeton. In particular, see the following Information for Prospective Graduate Students and Interns

• Theory seminars, talks, and special workshops in Princeton university.

• Additive Combinatorics and Computer Science Mini Course - August 23-24.

• Information for Prospective Graduate Students and Interns

Announcements

• Additive Combinatorics and Computer Science Mini Course - August 23-24.

• Stuff to do in and around Princeton.
• Information for Prospective Graduate Students and Interns

Theoretical computer science (TCS) studies efficient algorithms and protocols, which ultimately enable much of modern computing. But even more than that, the very concept of computation gives a fundamental new lens for examining the world around us. It underlies many 20th century inventions such as cryptography, computational biology, machine learning, quantum computing, etc. An abiding interest in the power of computation has been a regular feature of life at Princeton since the times of Turing, Church, Goedel and von Neumann (all Princeton residents). The TCS group continues today to pursue research in many areas of theory, including complexity theory, algorithms, data structures, computational geometry, cryptography, machine learning, and computational economics. We have close connections with faculty in other groups, including computational biology, graphics, networks and systems.

Princeton is a wonderful place for TCS research. The presence of active research groups at the CS and Math depts, as well as the nearby Institute of Advanced Study (not to mention Rutgers/Dimacs half an hour away) ensures that almost every day there is an exciting talk to go to, or an exciting visitor to meet.

• Projects we are involved in and some recent publications.

• Projects we are involved in and Some recent publications.

Most of us consider Princeton the world's best place for TCS. The presence of active research groups at the CS and Math depts, as well as the nearby Institute of Advanced Study (not to mention Rutgers/Dimacs half an hour away) ensures that almost every day there is an exciting talk to go to, or an exciting visitor to meet.

Theoretical computer science (TCS) studies efficient algorithms and protocols, which ultimately enable much of modern computing. But even more than that, the very concept of computation gives a fundamental new lens for examining the world around us. It underlies many 20th century inventions such as cryptography, computational biology, machine learning, quantum computing, etc. An abiding interest in the power of computation has been a regular feature of life at Princeton since the times of Turing, Church, Goedel and von Neumann (all Princeton residents). The TCS group continues today to pursue research in many areas of theory, including complexity theory, algorithms, data structures, computational geometry, cryptography, machine learning, and computational economics. We have close connections with faculty in other groups, including computational biology, networks and systems.

Theoretical computer science (TCS) studies efficient algorithms and protocols, which ultimately enable much of modern computing. But even more than that, the very concept of computation gives a fundamental new lens for examining the world around us. It underlies many 20th century inventions such as cryptography, computational biology, machine learning, quantum computing, etc. An abiding interest in the power of computation has been a regular fixture at Princeton since the times of Turing, Church, Goedel and von Neumann (all Princeton residents). The TCS group continues today to pursue research in many areas of theory, including complexity theory, algorithms, data structures, computational geometry, cryptography, machine learning, and computational economics. We have close connections with faculty in other groups, including computational biology, networks and systems.

Theoretical computer science (TCS) studies efficient algorithms and protocols, which ultimately enable much of modern computing. But even more than that, the very concept of computation gives a fundamental new lens for examining the world around us. This expansive view of computation has been a fixture at Princeton since the times of Turing, Church, Goedel and von Neumann (all Princeton residents). The TCS group continues today to pursue research in many areas of theory, including complexity theory, algorithms, data structures, computational geometry, cryptography, machine learning, and computational economics. We have close connections with faculty in other groups, including computational biology, networks and systems.

Theoretical computer science (TCS) studies efficient algorithms and protocols, which ultimately enable much of modern computing. But even more than that, the very concept of computation gives a fundamental new lens for examining the world around us. This view of computing has been a fixture at Princeton since the times of Turing, Church, Goedel and von Neumann (all Princeton residents). The TCS group continues today to pursue research in many areas of theory, including complexity theory, algorithms, computational geometry, and cryptography.

• Projects we are involved in and Some recent papers.

• Stuff to do in and around Princeton.

• Stuff to do in Princeton.

• Faculty and students at the group including some affiliated faculty.
• Theory seminars and talks.

since its inception in the 1930s with the works of Turing, Church, Goedel and von Neumann

since its inception in the 1930's with the works of Turing, Church, Goedel and von Neumann

(all of whom were Princeton residents). The theory group continues today to pursue research in many areas of theory, including complexity theory, algorithms, computational geometry, and cryptography.

Theoretical Computer Science at Princeton University

Theoretical computer science seeks to understand the inherent capabilities and limitations of computing devices. Princeton University has been a center for research in the field ever since its inception in the 1930's by the works of Turing, Church, Goedel and Von-Neumann (all of whom Princeton residents). The theory group continues today to pursue research in many areas of theory, including complexity theory, algorithms, computational geometry, and cryptography.

From this page you can find the following information about our group:

• Faculty and Students at the group including some affiliated faculty.
• Theory Seminars and talks.
• Some recent papers by theory group members.
• Theory courses offered in Princeton.
• Resources and links to web sites of neighboring institutions and other theory-related sites.