CSCI 361
Theory of Computation
Fall 2024
Division III
Quantitative/Formal Reasoning
Class Details
This course introduces a formal framework for investigating both the computability and complexity of problems. We study several models of computation including finite automata, regular languages, context-free grammars, and Turing machines. These models provide a mathematical basis for the study of computability theory–the examination of what problems can be solved and what problems cannot be solved–and the study of complexity theory–the examination of how efficiently problems can be solved. Topics include the halting problem and the P versus NP problem.
The Class:
Format: lecture
Limit: 24
Expected: 24
Class#: 1938
Grading: no pass/fail option, no fifth course option
Limit: 24
Expected: 24
Class#: 1938
Grading: no pass/fail option, no fifth course option
Requirements/Evaluation:
weekly problem sets and one or more exams
Prerequisites:
CSCI 256 or both a 300-level MATH course and permission of instructor
Enrollment Preferences:
current or expected Computer Science majors
Distributions:
Division III
Quantitative/Formal Reasoning
QFR Notes:
This course include regular and substantial problem sets in which quantitative/formal reasoning skills are practiced and evaluated.
Attributes:
COGS Interdepartmental Electives
Class Grid
Updated 1:49 am
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HEADERS
Column header 1
CLASSESColumn header 2DREQColumn header 3INSTRUCTORSColumn header 4TIMESColumn header 5CLASS#Column header 6ENROLLColumn header 7CONSENT
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CSCI 361 - 01 (F) LEC Theory of Computation
CSCI 361 - 01 (F) LEC Theory of ComputationDivision III Quantitative/Formal ReasoningTR 8:30 am - 9:45 am
1938 -
CSCI 361 - 02 (F) LEC Theory of Computation
CSCI 361 - 02 (F) LEC Theory of ComputationDivision III Quantitative/Formal ReasoningTR 9:55 am - 11:10 am
1939
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