This paper discusses the need for 2-D multistage optical interconnection networks in parallel computing systems and demonstrates the benefits obtained from a 2-D multi-stage perfect shuffle network
With the ever-increasing need to solve larger and more complex problems, multiprocessing is attracti...
Two methods are used to speed up the execution of a computational task. One is new technology develo...
New national security demands require enhanced computing systems for nearly ab initio simulations of...
The decomposition of 2-D shuffle multistage interconnection networks without loss of functionality i...
Requirements on switching and interconnection fabrics inside switching equipment, high-performance ...
Speedups due to technological advances in solid state electronic design are reaching theoretical lim...
Interconnection systems inside switching equipment, high-performance computers and data-centers are ...
Abstract—Plane-to-plane guided-wave-based interconnection modules are proposed as building blocks fo...
Abstract—Interconnection systems inside switching equipment, high-performance computers and data-cen...
Multistage networks allow the implementation of an arbitrary pattern of connections with only a limi...
The paper describes a multistage interconnection network (MIN) with regular interconnections in thre...
Communication between processors and memories has always been a limiting factor in making efficient ...
In highly parallel computer systems, reconfigurable interconnect network topologies can improve the....
ABSTRACT: The Performance of a system depends directly on the time required to perform an operation ...
One of the most important features of interconnection networks for massively parallel computer syste...
With the ever-increasing need to solve larger and more complex problems, multiprocessing is attracti...
Two methods are used to speed up the execution of a computational task. One is new technology develo...
New national security demands require enhanced computing systems for nearly ab initio simulations of...
The decomposition of 2-D shuffle multistage interconnection networks without loss of functionality i...
Requirements on switching and interconnection fabrics inside switching equipment, high-performance ...
Speedups due to technological advances in solid state electronic design are reaching theoretical lim...
Interconnection systems inside switching equipment, high-performance computers and data-centers are ...
Abstract—Plane-to-plane guided-wave-based interconnection modules are proposed as building blocks fo...
Abstract—Interconnection systems inside switching equipment, high-performance computers and data-cen...
Multistage networks allow the implementation of an arbitrary pattern of connections with only a limi...
The paper describes a multistage interconnection network (MIN) with regular interconnections in thre...
Communication between processors and memories has always been a limiting factor in making efficient ...
In highly parallel computer systems, reconfigurable interconnect network topologies can improve the....
ABSTRACT: The Performance of a system depends directly on the time required to perform an operation ...
One of the most important features of interconnection networks for massively parallel computer syste...
With the ever-increasing need to solve larger and more complex problems, multiprocessing is attracti...
Two methods are used to speed up the execution of a computational task. One is new technology develo...
New national security demands require enhanced computing systems for nearly ab initio simulations of...