von Manteuffel A, Studerus C. Reduze 2 - Distributed Feynman Integral Reduction. 2012.Reduze is a computer program for reducing Feynman integrals to masterintegrals employing a variant of Laporta's reduction algorithm. This articledescribes version 2 of the program. New features include the distributedreduction of single topologies on multiple processor cores. The parallelreduction of different topologies is supported via a modular, load balancingjob system. Fast graph and matroid based algorithms allow for theidentification of equivalent topologies and integrals
The computation of two-electron repulsion integrals (ERIs) is often the most expensive step of integ...
AbstractIntegration by parts reduction is a standard component of most modern multi-loop calculation...
Proper distribution of operations among parallel processors in a large scientific computation execut...
Studerus C. Reduze-Feynman Integral Reduction in C++. Comput.Phys.Commun. 2010;181(7):1293-1300.Redu...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
In this article, we present a new implementation of the Laporta algorithm to reduce scalar multi-loo...
von Manteuffel A, Studerus C. Top quark pairs at two loops and Reduze 2. In: Riemann T, ed. Proceedi...
A status report is provided on the design of Rediflow II, a proposed multiprocessor architecture bas...
We introduce an algebro-geometrically motived integration-by-parts (IBP) re- duction method for mult...
Abstract. We review an approach for the computation of Feynman integrals by use of multiple polyloga...
Languages such as High Performance Fortran implement parallel algorithms by distributing large data ...
summary:In recent years, scientists have discussed the possibilities of increasing the computing pow...
Design and analysis of concurrent algorithms, emphasizing those suitable for use in distributed netw...
We describe the use and distributed implementation of a functional language based on the graph-reduc...
This paper describes a new concept for the parallel implementation of functional languages on a netw...
The computation of two-electron repulsion integrals (ERIs) is often the most expensive step of integ...
AbstractIntegration by parts reduction is a standard component of most modern multi-loop calculation...
Proper distribution of operations among parallel processors in a large scientific computation execut...
Studerus C. Reduze-Feynman Integral Reduction in C++. Comput.Phys.Commun. 2010;181(7):1293-1300.Redu...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
In this article, we present a new implementation of the Laporta algorithm to reduce scalar multi-loo...
von Manteuffel A, Studerus C. Top quark pairs at two loops and Reduze 2. In: Riemann T, ed. Proceedi...
A status report is provided on the design of Rediflow II, a proposed multiprocessor architecture bas...
We introduce an algebro-geometrically motived integration-by-parts (IBP) re- duction method for mult...
Abstract. We review an approach for the computation of Feynman integrals by use of multiple polyloga...
Languages such as High Performance Fortran implement parallel algorithms by distributing large data ...
summary:In recent years, scientists have discussed the possibilities of increasing the computing pow...
Design and analysis of concurrent algorithms, emphasizing those suitable for use in distributed netw...
We describe the use and distributed implementation of a functional language based on the graph-reduc...
This paper describes a new concept for the parallel implementation of functional languages on a netw...
The computation of two-electron repulsion integrals (ERIs) is often the most expensive step of integ...
AbstractIntegration by parts reduction is a standard component of most modern multi-loop calculation...
Proper distribution of operations among parallel processors in a large scientific computation execut...