Theoretical Computer Science 2022 — различия между версиями
Материал из Wiki - Факультет компьютерных наук
Bbauwens (обсуждение | вклад) |
Bbauwens (обсуждение | вклад) |
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|| <span style="color:gray">23.02</span> || <span style="color:gray">Holliday</span> || | || <span style="color:gray">23.02</span> || <span style="color:gray">Holliday</span> || | ||
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| − | || 02.03 || NP-completeness || [https://www.dropbox.com/s/90m0yxt62f02mmm/classNP.pdf?dl=0 notes] | + | || 02.03 || The class NP and NP-completeness || [https://www.dropbox.com/s/90m0yxt62f02mmm/classNP.pdf?dl=0 notes] |
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| − | + | || 02.03 || Circuits, proof of the Levin-Cook theorem, more reductions || [https://www.dropbox.com/s/nen161dakmq3646/circuits.pdf?dl=0 circuits] [https://www.dropbox.com/s/wlrssw0q1tfx49p/moreReductions.pdf?dl=0 reductions] | |
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| − | || 16.03 || | + | || 16.03 || PSPACE, PSPACE-hardness, EXP, BPP, Polynomial time hierarchy || |
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| − | || 23.03 || Parameterized complexity ( | + | || 23.03 || Parameterized complexity (1): the class FPT and kernelization || |
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| − | || 30.03 || Projects || | + | || 30.03 || Parameterized complexity (2): W-hierarchy, graph domination || |
| + | |- | ||
| + | || 13.04 || Projects || | ||
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| − | || | + | || 20.04 || Exam || |
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Версия 18:08, 9 марта 2022
Содержание
Classes
Wednesdays 18:10–21:00, on zoom
Teacher: Bruno Bauwens
For practical information join the telegram group
Grading
Exam: 40%
Homework: 20%
Project: 40%
There are 2 homeworks with deadlines: 23.02, 09.03 before the lecture
Course Materials
The main reference for the first 4 lectures is Sipser's book "Introduction to the theory of computation", chapters 1, 2–7.
| Video | Summary | Notes |
|---|---|---|
| 19.01 | Regular languages: (non)deterministic automata and their equivalence, pumping lemma, closure properties | lecture 1 |
| 25.01 | Turing machines and register machines | lecture 2 |
| 09.02 | undecidability of: Halting program, Wang tiling, Fractran Godel's incompleteness theorems | lecture 3.A 3.B |
| 16.02 | The classes P, EXP, PSPACE, EXPSPACE. Dynamic programming. Time and space hierarchy theorems. | seminar |
| 23.02 | Holliday | |
| 02.03 | The class NP and NP-completeness | notes |
| 02.03 | Circuits, proof of the Levin-Cook theorem, more reductions | circuits reductions |
| 16.03 | PSPACE, PSPACE-hardness, EXP, BPP, Polynomial time hierarchy | |
| 23.03 | Parameterized complexity (1): the class FPT and kernelization | |
| 30.03 | Parameterized complexity (2): W-hierarchy, graph domination | |
| 13.04 | Projects | |
| 20.04 | Exam |
Office hours
| Person | Monday | Tuesday | Wednesday | Thursday | Friday |
|---|---|---|---|---|---|
| Bruno Bauwens, S834, Zoom | 14:00-20:00 |
Warn me in advance by email.
