hahaha,derek,rudolph,arvind¡ This paper presents the communication architecture of the START-VOYAGER system, a parallel machine composed of a cluster of unmodified IBM 604e-based SMP’s connected via a high speed interconnection network. A custom network interface unit (NIU) plugs into a processor card slot of each SMP, providing a high-performance message passing substrate that supports both fast user-level message passing and cache-line coherent shared memory. The substrate consists of four hardware implemented message passing mechanisms to achieve high performance over a wide spectrum of communication patterns. START-VOYAGER also introduces a novel protection scheme which improves upon past designs by not requiring strictly synchronized g...
SpiNNaker (Spiking Neural Network architecture) is a massively parallel computing machine, comprisin...
Parallel computing has contributed significantly to Defence applications. This field has helped in t...
As time progresses, computer architects continue to create faster and more complex micropro-cessors ...
This paper presents the communication architecture of the START-VOYAGER system, a parallel machine c...
No single message passing mechanism can efficiently support all types of communication that commonly...
Electrical Engineering and Computer Science StarT-Voyager is a network of workstations being designe...
This paper describes the StarT-Voyager Cluster Area Network (ClAN) Parallel System. ClAN is a new cl...
StarT-ng is a joint MIT-Motorola project to build a high-performance message passing machine from co...
Parallel computing on clusters of workstations and personal computers has very high potential, since...
Modern multicomputer architectures provide high-performance hardware support for the error-free deli...
Rapid advances in hardware technology have led to wide diversity in parallel computer architectures....
Parallel computing on clusters of workstations and personal computers has very high potential, sinc...
StarT-X A One-Man-Year Exercise in Network Interface Engineering This paper presents the StarT-X PCI...
Message passing is a common method for writing programs for distributed-memory parallel computers. U...
The efficient implementation of collective communication patterns in a parallel machine is a challen...
SpiNNaker (Spiking Neural Network architecture) is a massively parallel computing machine, comprisin...
Parallel computing has contributed significantly to Defence applications. This field has helped in t...
As time progresses, computer architects continue to create faster and more complex micropro-cessors ...
This paper presents the communication architecture of the START-VOYAGER system, a parallel machine c...
No single message passing mechanism can efficiently support all types of communication that commonly...
Electrical Engineering and Computer Science StarT-Voyager is a network of workstations being designe...
This paper describes the StarT-Voyager Cluster Area Network (ClAN) Parallel System. ClAN is a new cl...
StarT-ng is a joint MIT-Motorola project to build a high-performance message passing machine from co...
Parallel computing on clusters of workstations and personal computers has very high potential, since...
Modern multicomputer architectures provide high-performance hardware support for the error-free deli...
Rapid advances in hardware technology have led to wide diversity in parallel computer architectures....
Parallel computing on clusters of workstations and personal computers has very high potential, sinc...
StarT-X A One-Man-Year Exercise in Network Interface Engineering This paper presents the StarT-X PCI...
Message passing is a common method for writing programs for distributed-memory parallel computers. U...
The efficient implementation of collective communication patterns in a parallel machine is a challen...
SpiNNaker (Spiking Neural Network architecture) is a massively parallel computing machine, comprisin...
Parallel computing has contributed significantly to Defence applications. This field has helped in t...
As time progresses, computer architects continue to create faster and more complex micropro-cessors ...