Litcius/Paper detail

A Nonstochastic Optimization Algorithm for Neural-Network Quantum States

Xiang Li, Jia-Cheng Huang, Guang-Ze Zhang, Hao-En Li, Changsu Cao, Dingshun Lv, Han‐Shi Hu

2023Journal of Chemical Theory and Computation15 citationsDOI

Abstract

Neural-network quantum states (NQS) employ artificial neural networks to encode many-body wave functions in a second quantization through variational Monte Carlo (VMC). They have recently been applied to accurately describe electronic wave functions of molecules and have shown the challenges in efficiency compared with traditional quantum chemistry methods. Here, we introduce a general nonstochastic optimization algorithm for NQS in chemical systems, which deterministically generates a selected set of important configurations simultaneously with energy evaluation of NQS. This method bypasses the need for Markov-chain Monte Carlo within the VMC framework, thereby accelerating the entire optimization process. Furthermore, this newly developed nonstochastic optimization algorithm for NQS offers comparable or superior accuracy compared to its stochastic counterpart and ensures more stable convergence. The application of this model to test molecules exhibiting strong electron correlations provides further insight into the performance of NQS in chemical systems and opens avenues for future enhancements.

Topics & Concepts

Computer scienceArtificial neural networkQuantum Monte CarloMonte Carlo methodQuantumConvergence (economics)AlgorithmQuantization (signal processing)ENCODEVariational Monte CarloMathematical optimizationChemistryMathematicsPhysicsArtificial intelligenceQuantum mechanicsEconomicsStatisticsBiochemistryGeneEconomic growthQuantum many-body systemsMachine Learning in Materials ScienceQuantum Computing Algorithms and Architecture