New advances in reconfigurable optical interconnect technologies will allow the fabrication of cheap, fast and run-time adaptable networks for connecting processors and memory modules in large shared-memory multiprocessor machines. Since, in some technologies, the switching times of these components are high compared to the memory access time, reconfiguration can only take place on a time scale significantly above individual memory accesses. In this paper, we present preliminary results of our investigation into the exploitability of the space and time locality of address streams by a reconfigurable network. 1
Abstract Communications overhead is one of the most important factors affecting per-fonnance in mess...
this paper, we apply the locality concept to the communication patterns of parallel programs operat...
Many future embedded systems are likely to contain System-on-Chip solutions with on-chip networks, a...
Abstract — New advances in reconfigurable optical interconnect technologies will allow the fabricati...
Abstract. Recent advances in the development of reconfigurable optical interconnect technologies all...
In highly parallel computer systems, reconfigurable interconnect network topologies can improve the....
Run-time reconfigurable interconnection networks can provide significant performance gains in shared...
Communication between processors and memories has always been a limiting factor in making efficient ...
In VLSI systems, Rent’s rule characterizes the locality of interconnect between different subsystems...
We present how a custom reconfigurable optical network can be incorporated into Distributed Shared-m...
For data dominated applications, power consumption and memory bandwidth bottlenecks can be significa...
As bit rates increase, optical interconnects based high-performance computing (HPC) systems improve ...
Coherent read misses in shared-memory multiprocessors account for a substantial fraction of executio...
This paper develops a performance model of an optically interconnected parallel computer system oper...
Photonic Networks-on-Chip (NoCs) have become a promising route to interconnect processor cores on ch...
Abstract Communications overhead is one of the most important factors affecting per-fonnance in mess...
this paper, we apply the locality concept to the communication patterns of parallel programs operat...
Many future embedded systems are likely to contain System-on-Chip solutions with on-chip networks, a...
Abstract — New advances in reconfigurable optical interconnect technologies will allow the fabricati...
Abstract. Recent advances in the development of reconfigurable optical interconnect technologies all...
In highly parallel computer systems, reconfigurable interconnect network topologies can improve the....
Run-time reconfigurable interconnection networks can provide significant performance gains in shared...
Communication between processors and memories has always been a limiting factor in making efficient ...
In VLSI systems, Rent’s rule characterizes the locality of interconnect between different subsystems...
We present how a custom reconfigurable optical network can be incorporated into Distributed Shared-m...
For data dominated applications, power consumption and memory bandwidth bottlenecks can be significa...
As bit rates increase, optical interconnects based high-performance computing (HPC) systems improve ...
Coherent read misses in shared-memory multiprocessors account for a substantial fraction of executio...
This paper develops a performance model of an optically interconnected parallel computer system oper...
Photonic Networks-on-Chip (NoCs) have become a promising route to interconnect processor cores on ch...
Abstract Communications overhead is one of the most important factors affecting per-fonnance in mess...
this paper, we apply the locality concept to the communication patterns of parallel programs operat...
Many future embedded systems are likely to contain System-on-Chip solutions with on-chip networks, a...