27-29 Jul 2014
Riga, Latvia
Extended Call for Participation Sixth International Summer School in Cognitive Sciences and Semantics Intensive course: Quantum computing, logic and cognition University of Latvia, Riga July 27-29, 2014 http://www.lu.lv/isscss/ Application: http://www.lu.lv/isscss/registration/nc/ Call for Participation Sixth International Summer School in Cognitive Sciences and Semantics Faculty: Andris Ambainis (Computer Science, University of Latvia, Riga, Latvia) Bob Coecke (Computer Science, University of Oxford, UK) Michael Glanzberg (Philosophy and Cognitive Science, Northwestern University, USA) Vyacheslavs Kashcheyevs (Physics, University of Latvia, Riga, Latvia) The course addresses a variety of theoretical and foundational issues in quantum computing. It will focus on the logical and physical scope of quantum computing. Topics to be addressed include the physical structure of quantum information, strategies and issues in experimental approaches to the physical representation and control of quantum information, mathematical models of quantum computing and quantum algorithms, diagrammatic patterns in quantum computing, and the relation of quantum computing computational models of cognition. Audience: The course is primarily intended for graduate students in Cognitive Science, Computer Science, and Mathematics Application: Please upload CV and letter of application stating educational background and research interests. Applications should be submitted by May 10 Applicants will be notified within 10 days after submission. The summer school will consist of 3 intensive days of lectures, seminars, and group discussions. After the course students will receive certificates. Tuition fee: 100 EUR covers meals and coffee breaks. Course Content Computer science perspectives on quantum physics and computing Prof. Andris Ambainis (University of Latvia, Riga, Latvia) Outline: the basics of quantum physics from computer science perspective mathematical model of quantum computing quantum algorithms quantum computing and conventional computer science Picturing quantum processes Prof. Bob Coecke (University of Oxford, UK) Outline: Diagrams as process theories String diagrams as quantum models Quantum-classical processes, complementarity and phases Language meaning in a quantum-like model Quantum computing, classical computing and cognitive architecture Prof. Michael Glanzberg (Northwestern University, USA) Outline: relation of quantum computing to cognitive architecture a. does it effect the classical model (e.g. Fodor). b. does it effect the connectionism/classical model debate c. does it have implications for interfaces across levels? classical computability, recursion, and quantum computing. Physical basis for quantum information Prof. Vyacheslavs Kashcheyevs (University of Latvia, Riga, Latvia) Outline: physical representation of quantum information experimental strategies for control of quanta quantum non-locality from empirical perspective questions: Dr. Jurgis Skilters jurgisskilters@gmail.com