Covering algorithms used in combinatorial game theory puzzles
What you will learn
Learn about concept of combinatorial game theory
Common algorithms used in combinatorial game theory problems
Practice algorithm questions from popular online coding competitions
Thorough understanding on the correctness and efficiency of the algorithms
Look at algorithms from a mathematical point of view
Implement these algorithms yourself or with a bit of guidance
Description
This is a series of courses on popular algorithms used especially in the field of competitive programming!
Competitive programming is a mental sport that tests students on a variety of logical or mathematical problems, and the use of algorithms is essential in improving the efficiency of your solution.
The aim of competitive programming is to write source code of computer programs that are able to solve given problems. Typical such tasks belong to one of the following categories: combinatorics, number theory, graph theory, algorithmic game theory, computational geometry, string analysis, and data structures.
This course focuses not only on the implementation of algorithms but also on the mathematics behind these algorithms since they are requisite in understanding the correctness and efficiency of the algorithms. Specifically, rigid proofs for algorithms will be covered in this series of lectures.
This is the first course in the series Algorithms in Competitive Programming: Maths Puzzles II. In this course, we will be learning about combinatorial game theory, a rather niche topic in competitive programming. However, it is(arguably) one of the most interesting topics and there is more mathematical logic behind these combinatorial puzzles than you would have imagined.
If you find this course intriguing or you want to learn more about competitive programming algorithms, please look forward to future addition to the series!
A typical course structure is as follows:
– Problem description
– A naive approach
– Introducing the algorithm
– Mathematical proof of the correctness and efficiency of the algorithm
– A sample problem
– Short quiz
– Hands-on practice
English
Language
Content
Introduction
Introduction
Revision Quiz: Time Complexity
Nim’s Game
Combinatorial Game Theory
Representation of an Nim’s Game
Nim’s Game: Winning Strategy
Nim’s Game: Code Implementation
Nim’s Game
Classical Nim’s Game
Nim’s Game: Some Variants
Example 1
Example 1: Code Implementation
Example 1
Example 2
Example 2: Code Implementation
Example 2
More Advanced Combinatorial Games
Example(Sourced From USACO Gold Category)
Code Implementation
Example(Sourced From USACO Gold Category)
Conclusion
Conclusion
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