Overview
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Explore a groundbreaking compilation framework for quantum computing in this conference talk from ISCA 2024. Delve into Atomique, a quantum compiler designed for reconfigurable neutral atom arrays (RAAs), also known as field programmable qubit arrays (FPQAs). Learn how this innovative approach leverages coherent atom movements during circuit execution to significantly reduce the cost of long-range interactions in quantum computing. Discover the key components of Atomique, including its qubit-array mapper, qubit-atom mapper, and router, and understand how they work together to optimize qubit mapping, atom movement, and gate scheduling. Gain insights into the performance improvements achieved by Atomique across diverse benchmarks, including generic circuits, quantum simulation, and QAOA circuits, and see how it outperforms existing architectures like IBM Superconducting and fixed atom arrays (FAAs). Presented by Hanrui Wang from MIT HAN Lab, this 12-minute talk offers a comprehensive look at the future of quantum compiler design for scalable and efficient quantum computing systems.
Syllabus
ISCA 2024 "Atomique: A Quantum Compiler for Reconfigurable Neutral Atom Arrays" by Hanrui Wang
Taught by
MIT HAN Lab