Title :
Implementation trade-offs of the density matrix renormalization group algorithm on kilo-processor architectures
Author :
Nemes, C. ; Barcza, Gergely ; Nagy, Zsolt ; Legeza, Ors ; Szolgay, Peter
Author_Institution :
Fac. of Inf. Technol., Peter Pazmany Catholic Univ., Budapest, Hungary
Abstract :
Numerical analysis of strongly correlated quantum lattice models has a great importance in quantum physics. The exponentially growing size of the Hilbert space makes these computations difficult, however sophisticated algorithms have been developed to balance the size of the effective Hilbert space and the accuracy of the simulation. One of these methods is the density matrix renormalization group (DMRG) algorithm which has become the leading numerical tool in the study of low dimensional lattice problems of current interest. In the algorithm a high computational problem can be translated to a list of dense matrix operations, which makes it an ideal application to fully utilize the computing power residing in both current multi-core processors and novel kilo-processor architectures.
Keywords :
Hilbert spaces; multiprocessing systems; numerical analysis; physics computing; renormalisation; strongly correlated electron systems; DMRG algorithm; computing power; current multicore processors; density matrix renormalization group algorithm; effective Hilbert space size; iImplementation trade-offs; kiloprocessor architectures; low dimensional lattice problems; numerical analysis; quantum physics; sophisticated algorithms; strongly correlated quantum lattice model; Acceleration; Computer architecture; Eigenvalues and eigenfunctions; Graphics processing units; Hilbert space; Vectors;
Conference_Titel :
Circuit Theory and Design (ECCTD), 2013 European Conference on
Conference_Location :
Dresden
DOI :
10.1109/ECCTD.2013.6662251
