Quantum Advantage

Quantum advantage in computation seeks to demonstrate that quantum computers can outperform classical computers on specific tasks. Current research focuses on establishing this advantage in machine learning, particularly through quantum neural networks (including variational quantum circuits and quantum kernel methods), quantum reinforcement learning algorithms, and quantum generative models. These efforts aim to improve performance metrics like speed, accuracy, and robustness against adversarial attacks, with implications for diverse fields such as finance, drug discovery, and materials science. While challenges remain, particularly concerning noise and scalability, demonstrating practical quantum advantage in these areas is a major goal driving current research.

Papers

September 7, 2022

A learning theory for quantum photonic processors and beyond
Matteo Rosati
Quantum Physic Quantum Circuit Quantum Advantage Learning Theory Continuous Variable Quantum Photonic Processor

July 31, 2022

Parameter-Parallel Distributed Variational Quantum Algorithm
Yun-Fei Niu, Shuo Zhang, Chen Ding, Wan-Su Bao, He-Liang Huang
Variational Quantum Algorithm Intermediate Scale Quantum Quantum Advantage Quantum Processor Parallel Implementation

July 7, 2022

Quantum Advantage in Variational Bayes Inference
Hideyuki Miyahara, Vwani Roychowdhury
Variational Method Quantum Advantage Quantum Annealing Variational Bayes Variational Bayesian Inference

June 30, 2022

Quantum Advantage Seeker with Kernels (QuASK): a software framework to speed up the research in quantum machine learning
Francesco Di Marcantonio, Massimiliano Incudini, Davide Tezza, Michele Grossi
Quantum Machine Learning Quantum Kernel Small Kernel Quantum Advantage Software Framework

June 9, 2022

Quantum Policy Iteration via Amplitude Estimation and Grover Search -- Towards Quantum Advantage for Reinforcement Learning
Simon Wiedemann, Daniel Hein, Steffen Udluft, Christian Mendl
Reinforcement Learning Quantum Algorithm Quantum Advantage Quantum Reinforcement Learning Amplitude Estimation Quantum Framework Quantum Policy

June 8, 2022

Predict better with less training data using a QNN
Barry D. Reese, Marek Kowalik, Christian Metzl, Christian Bauckhage, Eldar Sultanow
Training Data Quantum Advantage Quantum Convolution

April 21, 2022

Dynamical simulation via quantum machine learning with provable generalization
Joe Gibbs, Zoë Holmes, Matthias C. Caro, Nicholas Ezzell, Hsin-Yuan Huang, Lukasz Cincio, Andrew T. Sornborger, Patrick J. Coles
Quantum Machine Learning Quantum Machine Quantum Advantage Near Term Quantum Quantum Dynamic Dynamic Simulation Provable Generalization

April 8, 2022

Quantum Machine Learning Framework for Virtual Screening in Drug Discovery: a Prospective Quantum Advantage
Stefano Mensa, Emre Sahin, Francesco Tacchino, Panagiotis Kl. Barkoutsos, Ivano Tavernelli
Machine Learning Quantum Machine Learning Drug Discovery Quantum Advantage Virtual Screening Quantum Kernel Estimation

January 21, 2022

Generalization Metrics for Practical Quantum Advantage in Generative Models
Kaitlin Gili, Marta Mauri, Alejandro Perdomo-Ortiz
Generative Model Generative Modeling Quantum Computer Quantum Advantage Quantum Circuit Born Machine Generalization Metric

December 15, 2021

Experimental quantum advantage with quantum coupon collector
Min-Gang Zhou, Xiao-Yu Cao, Yu-Shuo Lu, Yang Wang, Yu Bao, Zhao-Ying Jia, Yao Fu, Hua-Lei Yin, Zeng-Bing Chen
Quantum Physic Quantum Advantage Quantum Technology

December 12, 2021

Quantum kernels for real-world predictions based on electronic health records
Zoran Krunic, Frederik F. Flöther, George Seegan, Nathan Earnest-Noble, Omar Shehab
Quantum Machine Learning Electronic Health Record Quantum Computer Quantum Kernel Quantum Advantage

December 1, 2021

November 10, 2021

A Hierarchy for Replica Quantum Advantage
Sitan Chen, Jordan Cotler, Hsin-Yuan Huang, Jerry Li
Part Whole Hierarchy Quantum State Quantum Advantage N$ Qubit Replica Theory