The Scalable Coherent Interface (SCI) defines a high-speed interconnect that provides for a distributed shared memory with optional cache coherence [IEE92]. Up to 64 K nodes can be closely coupled in one or more rings that are concatenated via SCI switches. However, it has become appearent that data-packet overload in a single SCI receiver leads to poor throughput i
This paper provides experimental data and analysis to quantify both the peak and sustained performan...
Due to their excellent cost/performance ratio, clusters of PCs can be attractive high-performance co...
Scalable Coherent Interface (SCI, IEEE/ANSI Std 1596-1992) (SCI1, SCI2) is a high performance interc...
The Scalable Coherent Interface (SCI) project (IEEE P1596) found a way to avoid the limits that are ...
The goal of the SCINET project is to investigate the applicability of the scalable-coherent-interfac...
SCI is based on unidirectional point-to-point links connected in rings. Separate rings can be connec...
We present a new analytical performance model of the IEEE P1596 Standard Coherent Interface, which i...
This paper describes a new interconnect standard, the Scalable Coherent Interface (SCI, ANSI/IEEE S...
In this paper we wish to show some of the possible ways in which small SCI-rings can be connected to...
In this paper we discuss our experience with highperformance cluster computing using Scalable Cohere...
A Local Area Network (LAN) can be built using the ANSI/IEEE Standard 1592-1992 Scalable Coherent Int...
this paper we present an analytical model of a ring-based shared-memory multiprocessor operating the...
Recently several network technologies which support user-level communication between processes using...
A cluster is a group of independent compute nodes which are coupled by an interconnection network. T...
In bringing high end performance to low cost workstation hardware, the level of efficiency in the in...
This paper provides experimental data and analysis to quantify both the peak and sustained performan...
Due to their excellent cost/performance ratio, clusters of PCs can be attractive high-performance co...
Scalable Coherent Interface (SCI, IEEE/ANSI Std 1596-1992) (SCI1, SCI2) is a high performance interc...
The Scalable Coherent Interface (SCI) project (IEEE P1596) found a way to avoid the limits that are ...
The goal of the SCINET project is to investigate the applicability of the scalable-coherent-interfac...
SCI is based on unidirectional point-to-point links connected in rings. Separate rings can be connec...
We present a new analytical performance model of the IEEE P1596 Standard Coherent Interface, which i...
This paper describes a new interconnect standard, the Scalable Coherent Interface (SCI, ANSI/IEEE S...
In this paper we wish to show some of the possible ways in which small SCI-rings can be connected to...
In this paper we discuss our experience with highperformance cluster computing using Scalable Cohere...
A Local Area Network (LAN) can be built using the ANSI/IEEE Standard 1592-1992 Scalable Coherent Int...
this paper we present an analytical model of a ring-based shared-memory multiprocessor operating the...
Recently several network technologies which support user-level communication between processes using...
A cluster is a group of independent compute nodes which are coupled by an interconnection network. T...
In bringing high end performance to low cost workstation hardware, the level of efficiency in the in...
This paper provides experimental data and analysis to quantify both the peak and sustained performan...
Due to their excellent cost/performance ratio, clusters of PCs can be attractive high-performance co...
Scalable Coherent Interface (SCI, IEEE/ANSI Std 1596-1992) (SCI1, SCI2) is a high performance interc...