Automated lattice perturbation theory routines
A collection of links to references describing automated lattice perturbation theory routines, strategies and issues.- C. Lehner, Automated lattice perturbation theory and relativistic heavy quarks in the Columbia formulation, PoS(LATTICE 2012)126 [arXiv:1211.4013]. This Computer Algebra System is now officially known as PhySyHCAl and is documented at this website.
- D. Hesse, R. Sommer and G.M. von Hippel, Automated lattice perturbation theory applied to HQET, PoS(LATTICE 2011) 209
- A.G. Hart et al., Automated generation of lattice QCD Feynman rules, Comput. Phys. Commun. 180 (2009) 2698 [arXiv:0904.0375]
and
A.G. Hart et al., Automatically generating Feynman rules for improved lattice field theories, J. Comput. Phys. 209 (2005) 340 [arXiv:hep-lat/0411026] - S. Takeda, Automatic generation of Feynman rules in the Schrödinger functional, Nucl. Phys. B 811 (2009) 36 [arXiv:0808.3065]
- S. Takeda and U. Wolff, Automatic generation of vertices for the Schrödinger functional, PoS(LATTICE 2007) 257 [arXiv:0709.4167]
- P. Ribeca, Automating lattice perturbation theory in the Schrödinger functional, Nucl. Phys. B (Proc. Suppl.) 140 (2005) 731
- S. Capitani and G. Rossi, The use of Schoonschip and Form in perturbative lattice calculations, (1995) [arXiv:hep-lat/9504014]
- B. Allés et al., Lattice perturbation theory by computer algebra: a three-loop result for the topological susceptibility, Nucl. Phys. B 413 (1994) 553 [arXiv:hep-lat/9301012]
- M. Luscher and P. Weisz, Efficient numerical techniques for perturbative lattice gauge theory computations, Nucl. Phys. B 266 (1986) 309