Particularmente atraente para aqueles com interesse em complexidade
computacional, e em computação quântica.

Quem está longe de MIT / Harvard também pode conferir o material online.

JM

* * *

Philosophy and Theoretical Computer Science
https://stellar.mit.edu/S/course/6/fa11/6.893/index.html
Instructor: Scott Aaronson
Information:
This new offering will examine the relevance of modern theoretical
computer science to traditional questions in philosophy, and
conversely, what philosophy can contribute to theoretical computer
science.  Topics include: the status of the Church-Turing Thesis and
its modern polynomial-time variants; quantum computing and the
interpretation of quantum mechanics; complexity aspects of the
strong-AI and free-will debates; complexity aspects of Darwinian
evolution; the claim that "computation is physical"; the
analog/digital distinction in computer science and physics; Kolmogorov
complexity and the foundations of probability; computational learning
theory and the problem of induction; bounded rationality and common
knowledge; new notions of proof (probabilistic, interactive,
zero-knowledge, quantum) and the nature of mathematical knowledge.
Intended for graduate students and advanced undergraduates in computer
science, philosophy, mathematics, and physics.  Participation and
discussion are an essential part of the course.
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