Hierarchical Hypercube Networks (HHN) for Massively Parallel Computers

In this paper is presented the use of the discrete-time cellular neural network (DTCNN) paradigm to develop algorithms devised for general-purpose massively parallel processing (MPP) systems. This paradigm is defined in discrete N-dimensional spaces (lattices) and is characterized by the locality of

We describe the implementation of the cell multipole method CMM in a Ž . Ž . complete molecular dynamics MD simulation program MPSim for massively parallel supercomputers. Tests are made of how the program scales with size Ž . Ž . linearly and with number of CPUs nearly linearly in applications invo

This paper presents the new Flexible Hypercube architecture. The Flexible Hypercube is a fault-tolerant network topology that can be constructed for an arbitrary number of nodes and is incrementally expandable. This topology maintains the strong features of the Hypercube while overcoming deficiencie

## Abstract A parallel Fock matrix construction program for a hierarchical network has been developed on the molecular orbital calculation‐specific EHPC system. To obtain high parallelization efficiency on the hierarchical network system, a multilevel dynamic load‐balancing scheme was adopted, whic

A new interconnection network is proposed for the construction of a massively parallel computer system. The systematic construction of this interconnection network, denoted RCC-FULL, is performed by methodically connecting together a number of basic atoms where a basic atom is a set of fully interco