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The fat tree network, invented by Charles E. Leiserson of MIT, is a universal network for provably efficient communication.〔Charles E. Leiserson (''Fat-trees: universal networks for hardware-efficient supercomputing'' ), IEEE Transactions on Computers, Vol. 34 , no. 10, Oct. 1985, pp. 892-901.〕 Unlike an ordinary computer scientist's notion of a tree, which has "''skinny''" links all over, the links in a fat-tree become "''fatter''" as one moves up the tree towards the root. By judiciously choosing the fatness of links, the network can be tailored to efficiently use any bandwidth made available by packaging and communications technology. In contrast, other communications networks, such as hypercubes and meshes, have communication requirements that follow a prespecified mathematical law, and therefore cannot be tailored to specific packaging technologies. ==Uses== The Connection Machine Model CM5 supercomputer (circa 1990) used a fat tree interconnection network. Mercury Computer Systems used a hypertree network, a variant of fat trees, in their multicomputer. From 2 to 360 compute nodes would reside in a circuit switched fat tree network, with each node having local memory that could be mapped by any other node. Each node in this heterogeneous system could be an Intel i860, a PowerPC, or a group of three SHARC DSPs. The fat tree network was particularly well suited to the FFT, which customers used for signal processing tasks like radar, sonar, medical imaging, and so on. A fat tree network is now preferred for the InfiniBand cluster architecture. The connectivity of the Internet is very similar to a fat tree, where the connection rates go up at higher tiers. There are differences however, since the Internet additionally has local connections (peering). The TH Express-2 interconnect by National University of Defense Technology (China) uses fat tree topology. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Fat tree」の詳細全文を読む スポンサード リンク
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