Explore recent advancements in quantum simulation through this 51-minute lecture by Nathan Wiebe from Microsoft Research. Delve into the challenges of quantum computation, focusing on dynamical simulation, unitary access, and sparse matrix access. Examine the limitations of Charter Suzuki methods and investigate alternative approaches such as linear combinations, time-dependent evolution, and Taylor series. Learn about randomized compilation techniques and their applications in quantum chemistry and ground state physics. Gain insights into the current problems and potential solutions in the field of quantum simulation.
Overview
Syllabus
Introduction
Why Quantum Simulation
dynamical simulation
unitary access
sparse matrix access
Charter Suzuki
Limitations of Charter Suzuki
Linear Combinations
Time Dependent Evolution
Taylor Series
Randomize Compilation
Different Methods
The Problem
Quantum Chemistry
Ground State
Physics
Taught by
Simons Institute
