TU Kaiserslautern: Homepage of Janko Boehm


Singular/GPI-Space Framework

News

Release of pfd-parallel, an application for massively parallel modular methods in commutative algebra and algebraic geometry. (07 Jan 2024)

Release of v0.2 pfd-parallel, an application for massively parallel partial fraction decomposition. (20 July 2023)

Five hour lecture course at the workshop Computational Geometry, University of Nottingham, organized by Alessio Corti (Imperial), Alexander Kasprzyk (Nottingham): Janko Boehm: Recent Advances in Open Source Computer Algebra with a tutorial by Alexander Dinges (Aug 29 - Sept 02, 2022)

Release of v0.1 pfd-parallel, an application for massively parallel partial fraction decomposition. (18 Sept 2022)

Release of v0.1 git-fans, an application for massively parallel partial fraction decomposition. (18 Sept 2022)

Release 22.06 of GPI-Space (24 Jun 2022)

Release of v0.2 PFD, an application for massively parallel partial fraction decomposition. (Mar 2022)

Release 22.03 of GPI-Space (24 Mar 2022)

Release of the official Spack package for GPI-Space (28 Jan 2022)

Release 21.12.1 of GPI-Space including hotfix (13 Dec 2021)

Release of v0.1 PFD, an application for massively parallel partial fraction decomposition. (19 Nov 2021)

Release 21.09 of GPI-Space (29 Sept 2021)

Minisymposium at the joint DMV-ÖMG annual meeting (online). Massively Parallel Methods in Geometry and Applications Speakers include: F: Aga (Fraunhofer ITWM, Uni Saarland), L. Kastner (TU Berlin), Y. Ren (Durham University), M. Zeyen (Fraunhofer ITWM), Y. Zhang (USTC), M. Wittmann (TU Kaiserslautern) (Sept 27 - Oct 01, 2021)

Talk at SIAM AG 21 (online): MS8: Confirmable Workflows and Large Computations in Algebraic Geometry Janko Boehm: Massively Parallel Computations in Computer Algebra using the Singular/GPI-Space Framework (August 16, 2021)

New paper of the team: Janko Boehm, Anne Frühbis-Krüger. Massively parallel computations in algebraic geometry. Proceedings of the 2021 on International Symposium on Symbolic and Algebraic Computation, 11–14 (2021)

Tutorial at ISSAC 2021, St. Petersburg (online): Janko Boehm, Anne Frühbis-Krüger. Massively parallel computations in algebraic geometry (19-20 July, 2021)

Release 21.06 of GPI-Space (05 Jun 2021)

Release v0.2.0: This release includes the first batch of our flexible predefined workflows for direct usage from Singular. (04 Jun 2021)

Release v0.1.2: Stable version before significant refactoring. (04. Jun 2021)

New paper of the team: Janko Böhm, Dominik Bendle, Murray Heymann, Mirko Rahn, Lukas Ristau, Marcel Wittmann, Zihao Wu, Yingxuan Xu and Yang Zhang: Two-loop integration-by-parts relations in a usable form. arxiv.org/abs/2104.06866

Release 21.03 of GPI-Space (26. Mar 2021)

Release v0.1.1: Minor improvements and bug fixes (30. Dec 2020)

Release v0.1.0: First public release of the framework. (27. Dec 2020)

Release 20.12 of GPI-Space (14. Dec 2020)

New paper of the team: Janko Böhm, Dominik Bendle, Wolfram Decker, Alessandro Georgoudis, Franz-Josef Pfreundt, Mirko Rahn, and Yang Zhang: Module Intersection for the Integration-by-Parts Reduction of Multi-Loop Feynman Integrals. to appear in PoS (2021) arxiv.org/abs/2010.06895

First OpenSouce Release 20.09 of GPI-Space (04. Sep 2020)

New paper of the team: Dominik Bendle, Janko Böhm, Yue Ren, and Benjamin Schröter: Parallel Computation of tropical varieties, their positive part, and tropical Grassmannians. arxiv.org/abs/2003.13752

New paper of the team: Janko Böhm, Dominik Bendle, Wolfram Decker, Alessandro Georgoudis, Franz-Josef Pfreundt, Mirko Rahn, and Yang Zhang: Integration-by-parts reductions of Feynman integrals using Singular and GPI-Space. Journal of High Energy Physics 02 (2020) 79, 34 pp arxiv.org/abs/1908.04301

Minisymposium SIAM AG 19, Bern: Massively parallel computations in algebraic geometry: Franz-Josef Pfreundt, Mirko Rahn, Alexandra Carpen-Amarie: GPI-Space - Fraunhofer’s integrated solution to solve big problems on ultra scale machines Lukas Ristau: Using Petri nets for parallelizing algorithms in algebraic geometry Lars Kastner: Parallel enumeration of triangulations Yang Zhang: Module intersection method for multi-loop Feynman integral reduction Alessandro Georgoudis: Tools for perturbative calculations from algebraic geometry Christian Reinbold: A massively parallel fan traversal with applications to geometric invariant theory Dominik Bendle: Parallel algorithms for computing tropical varieties with symmetry Yue Ren: Space sextics and their tritangents

New paper of the team: Janko Böhm, Anne Frühbis-Krüger, Mirko Rahn.: Massively parallel computations in algebraic geometry - not a contradiction. Computeralgebrarundbrief 64 (2019), 8-13 arxiv.org/abs/1811.06092

New paper of the team: Janko Böhm, Wolfram Decker, Anne Frühbis-Krüger, Franz-Josef Pfreundt, Mirko Rahn, and Lukas Ristau: Towards Massively Parallel Computations in Algebraic Geometry. Foundations of Computational Mathematics (2020) arxiv.org/abs/1808.09727

New paper of the team: Anne Frühbis-Krüger, Lukas Ristau, and Bernd Schober: Embedded desingularization for arithmetic surfaces -- toward a parallel implementation. to appear in Math. Comp. (2021) arxiv.org/abs/1712.08131