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Manuscript Title: TRIQS/CTHYB: A Continuous-Time Quantum Monte Carlo Hybridization Expansion Solver for Quantum Impurity Problems
Authors: Priyanka Seth, Igor Krivenko, Michel Ferrero, Olivier Parcollet
Program title: TRIQS/CTHYB
Catalogue identifier: AEYU_v1_0
Distribution format: tar.gz
Journal reference: Comput. Phys. Commun. 200(2016)274
Programming language: C++/Python.
Computer: Any architecture with suitable compilers including PCs and clusters.
Operating system: Unix, Linux, OSX.
RAM: Highly problem-dependent
Keywords: Many-body physics, Impurity solvers, Strongly-correlated systems, DMFT, Monte Carlo, C++, Python.
PACS: 71.10.-w, 71.27.+a, 71.10.Fd, 71.30.+h.
Classification: 7.3, 4.4.

External routines: TRIQS, cmake.

Nature of problem:
Accurate solvers for quantum impurity problems are needed in condensed matter theory.

Solution method:
We present an efficient C++/Python open-source implementation of a continuous-time hybridization expansion solver.

Running time:
Tests take less than a minute. Otherwise it is highly problem dependant (from minutes to several days).