Code optimization for quantum computing

Extension: PDF | 155 pages

Classical and Quantum Simulations of Many-Body Systems by Valentin Murg explores recent advances in simulating quantum systems using both classical and quantum methods. It highlights new algorithms and "analog" quantum simulators, offering valuable insights into complex models.

Extension: PDF | 177 pages

Dynamics and Simulation of Open Quantum Systems by Michael Philip Zwolak presents computational and conceptual approaches to efficiently simulate quantum systems interacting with their environment. It delves into numerical renormalization techniques, providing a valuable resource for understanding quantum dynamics in complex environments.

Extension: PDF | 13 pages

What is a quantum simulator? by Tomi H Johnson, Stephen R Clark and Dieter Jaksch defines quantum simulators and their role in scientific discovery. This document explores the distinctions between simulation and computation, offering valuable insights for those interested in the current and future landscape of quantum simulation.

Extension: PDF | 28 pages

Quantum Optimization and Quantum Learning - A Survey por Yangyang Li, Senior Member, Mengzhuo Tian and others, provides a comprehensive overview of quantum algorithms, focusing on quantum optimization and learning. This paper motivates further exploration into quantum intelligent algorithms by showcasing their competitiveness against traditional methods.

Extension: PDF | 12 pages

Quantum computing for transport optimization por Christopher D B Bentley, Samuel Marsh and others explores quantum computing's intersection with transport, focusing on optimization problems. It presents a framework for assessing the suitability of transport optimization for quantum algorithms, highlighting potential performance enhancements and novel prototype implementation.