Improving the performance of global communication on a three‐dimensional torus network

Kawakura, Yasushi; Tanabe, Noboru; Oyanagi, Shigeru

doi:10.1002/scj.4690270603

Systems & Computers in Japan

1996

DOI: 10.1002/scj.4690270603

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Improving the performance of global communication on a three‐dimensional torus network

Yasushi Kawakura

Noboru Tanabe

Shigeru Oyanagi

Abstract: SUMMARYA high-speed one-to-all broadcasting algorithm is proposed whose performance does not deteriorate much when the number of processors is increased in a massively parallel computer. For the network topology, 3D torus networks are considered. Two methods are discussed for a system which broadcasts by repeating one-to-one communications. One uses paths having a smaller maximum transfer number to reduce the number of transfers, and the other presets the hardware to reduce the overhead of individual one-toone… Show more

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2011

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Broadcasting Algorithms of Carbon Nanotubes

Manuel¹,

Guizani²

2011

Jnl of Comp & Theo Nano

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A carbon nanotube is like a cylinder rolled up from a single sheet of graphite, whose atoms are arranged in hexagons. It is expected that nanotechnology will revolutionize the computing, networking and telecommunication industries by producing faster and smaller non-silicon-based chipsets, memory, processors, and new-generation computers based on carbon nanotubes. Computer scientists predict that nano-computers will radically transform the computer industry in the coming years. The next target of computer engineers and scientists is parallel processors using nanotechnology. Nano-computing which is the computational aspect of nano architectures is an emerging technology and is at the early stage of its development. Keeping these latest trends in mind, we propose to study the computational aspects of nanotechnology-based fixed interconnection networks. In this paper, carbon nanotube is proposed as a new fixed interconnection architecture. The structural properties of carbon nanotube networks are studied. One of the important features of a "good" interconnection network is that it is "communication-friendly topological structure." A routing algorithm in a communication friendly topological structure helps to exchange messages between any two processors without any bottlenecks. This paper provides a broadcasting algorithm which runs in optimal time plus 1. Another interesting attribute of an interconnection network is servicefacility design which is also called domination problem. This paper exhibits that carbon nanotube architecture is communication-friendly and service-facility-friendly.

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Broadcasting Algorithms of Carbon Nanotubes

Manuel¹,

Guizani²

2011

Jnl of Comp & Theo Nano

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Improving the performance of global communication on a three‐dimensional torus network

Cited by 1 publication

References 6 publications

Broadcasting Algorithms of Carbon Nanotubes

Broadcasting Algorithms of Carbon Nanotubes

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