A NASA Perspective on Quantum Computing - Recent Results in Distributed Computing
Offered By: Simons Institute via YouTube
Course Description
Overview
Explore a NASA perspective on quantum computing, focusing on recent advancements in distributed computing, in this 34-minute talk by Eleanor Rieffel from NASA Ames Research Center. Gain insights into the NASA Quantum Artificial Intelligence Laboratory (QuAIL) and its research on quantum computers' potential impact on NASA missions. Delve into the quantum CONGEST-CLIQUE Model (qCCM) and learn about two quantum algorithms for approximately optimal Steiner Tree and exact directed minimum spanning tree problems. Understand how these algorithms combine classical approaches with fast quantum subroutines to achieve fewer communication rounds than known classical algorithms. Examine the importance of constants and logarithmic factors in both quantum and classical algorithms, and consider the practical implications for implementation. Conclude by exploring open questions in the field of quantum computing and its applications to NASA's future missions.
Syllabus
A NASA Perspective on Quantum Computing, with Emphasis on Recent Results in Distributed Computing
Taught by
Simons Institute
Related Courses
Advanced Algorithms and ComplexityUniversity of California, San Diego via Coursera Advanced Data Structures in Java
University of California, San Diego via Coursera Conception et mise en œuvre d'algorithmes.
École Polytechnique via Coursera Practical Steps for Building Fair AI Algorithms
Fred Hutchinson Cancer Center via Coursera 算法设计与分析 Design and Analysis of Algorithms
Peking University via Coursera