Sixty-four small computers are connected by a network of point-to-point communication channels in the plan of a binary 6-cube. This “Cosmic Cube” computer is a hardware simulation of a future VLSI implementation that will consist of single-chip nodes. The machine offers high degrees of concurrency in applications and suggests that future machines with thousands of nodes are both feasible and attractive
In this paper we wish to show some of the possible ways in which small SCI-rings can be connected to...
The IBM Cyclops-64 (C64) chip employs a multi-threaded architecture that integrates a large number o...
This paper analyzes a new multiprocessor interconnection network - the folded cube-connected cycles ...
Sixty-four small computers are connected by a network of point-to-point communication channels in th...
Sixty-four small computers are connected by a network of point-to-point communication channels in th...
Collaboration between computer science and physics has produced a concurrent supercomputer capable o...
mes the bottleneck limiting the scalability of parallel algorithms. Thus, choosing the correct commu...
This report outlines the history, current status, current developments, and plans for the message-pa...
PC-CUBE is an ensemble of IBM PCs or close compatibles connected in the hypercube topology with ordi...
PC-CUBE is an ensemble of IBM PCs or close compatibles connected in the hypercube topology with ordi...
During the period following the completion of the Cosmic Cube experiment [1], and while commercial d...
The architecture and applications of the class of highly parallel distributed-memory multiprocessors...
Describes a broadcast cube system (BCS) architecture for high speed scientific computation and logic...
We discuss communication algorithms relevant for neural network modeling on distributed memory concu...
A trend of emerging large-scale multi-core chip design is to employ multithreaded architectures- suc...
In this paper we wish to show some of the possible ways in which small SCI-rings can be connected to...
The IBM Cyclops-64 (C64) chip employs a multi-threaded architecture that integrates a large number o...
This paper analyzes a new multiprocessor interconnection network - the folded cube-connected cycles ...
Sixty-four small computers are connected by a network of point-to-point communication channels in th...
Sixty-four small computers are connected by a network of point-to-point communication channels in th...
Collaboration between computer science and physics has produced a concurrent supercomputer capable o...
mes the bottleneck limiting the scalability of parallel algorithms. Thus, choosing the correct commu...
This report outlines the history, current status, current developments, and plans for the message-pa...
PC-CUBE is an ensemble of IBM PCs or close compatibles connected in the hypercube topology with ordi...
PC-CUBE is an ensemble of IBM PCs or close compatibles connected in the hypercube topology with ordi...
During the period following the completion of the Cosmic Cube experiment [1], and while commercial d...
The architecture and applications of the class of highly parallel distributed-memory multiprocessors...
Describes a broadcast cube system (BCS) architecture for high speed scientific computation and logic...
We discuss communication algorithms relevant for neural network modeling on distributed memory concu...
A trend of emerging large-scale multi-core chip design is to employ multithreaded architectures- suc...
In this paper we wish to show some of the possible ways in which small SCI-rings can be connected to...
The IBM Cyclops-64 (C64) chip employs a multi-threaded architecture that integrates a large number o...
This paper analyzes a new multiprocessor interconnection network - the folded cube-connected cycles ...