The inner workings of a Chess bot's mind are a fascinating realm of computational strategy, where algorithms and calculations replace the complex cognitive processes of a human player. In this unique domain, the quest for creating a "good" or "bad" algorithm becomes an engaging challenge, blending the worlds of research and engineering.
In this Python-driven competition designed for advanced undergraduate and graduate students, participants embark on a week-long journey to unravel the mysteries of Chess bot intelligence. Equipped with a code skeleton, unit tests, and a captivating twist, they delve deep into the heart of artificial intelligence and chess strategy.
The core question at the heart of this competition is: What makes a Chess bot excel or falter in its decision-making? Participants will explore various facets of this question, including algorithmic efficiency, board evaluation functions, opening book strategies, and endgame techniques. They'll need to balance the delicate trade-off between computational power and strategic depth, striving to strike the perfect equilibrium that defines a "good" algorithm.
Throughout the competition, participants will leverage their programming skills to fine-tune their bots. Participants will experiment with different machine learning methods and heuristics to create a bot that can think many moves ahead and work effieciently in a timely manner.
Sponsored by Chess.com, this competition will offer a chance for participants to showcase their skills live. After evaluation, the top performing bots will compete in a tournament-style competition, broadcasted live on the Collegiate Chess League Twitch channel.
Nov. 5, 2023 - Nov. 12, 2023
Brandeis University
415 South St, Medfield, MA 02052, USA
$1,000