Updated Core Libraries of the ALPS Project
A. Gaenko, A. E. Antipov, G. Carcassi, T. Chen, X. Chen, Q. Dong, L., Gamper, J. Gukelberger, R. Igarashi, S. Iskakov, M. K\"onz, J. P. F. LeBlanc,, R. Levy, P. N. Ma, J. E. Paki, H. Shinaoka, S. Todo, M. Troyer, E. Gull
TL;DR
This paper introduces an updated, well-documented, and maintainable version of the core ALPS libraries, enhancing usability for the computational physics community focused on lattice models and strongly correlated systems.
Contribution
The paper presents a refactored version of ALPS core libraries emphasizing improved documentation, installation, and maintainability for physics simulation developers.
Findings
Enhanced documentation and usability
Simplified installation process
Improved software maintainability
Abstract
The open source ALPS (Algorithms and Libraries for Physics Simulations) project provides a collection of physics libraries and applications, with a focus on simulations of lattice models and strongly correlated systems. The libraries provide a convenient set of well-documented and reusable components for developing condensed matter physics simulation code, and the applications strive to make commonly used and proven computational algorithms available to a non-expert community. In this paper we present an updated and refactored version of the core ALPS libraries geared at the computational physics software development community, rewritten with focus on documentation, ease of installation, and software maintainability.
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