DocumentCode
1222715
Title
Where buses cannot go
Author
Boxer, Aaron
Author_Institution
Concurrent Comput. Corp., Westford, MA, USA
Volume
32
Issue
2
fYear
1995
fDate
2/1/1995 12:00:00 AM
Firstpage
41
Lastpage
45
Abstract
No aspect of computer design is sacred, not even the system bus, which is giving way to switches in multiprocessing systems, where performance is key. System buses, which string computers together out of circuit boards, have come to strangle system performance in many cases. Another interconnection architecture, though, can free a system from the bus´s clutch. Variously known as a switch, crossbar, or crosspoint, it has long been used in speciality computers and is now making its way into lower-cost machines. Meanwhile, silicon and packaging technology have been refined to the point that the crossbar architecture can vie with the system bus for a place in low-cost multiprocessors. More specifically, the crossbar is well suited to use in distributed memory systems, where there is a need for broad path ways for communications between the chunks of memory themselves. The roots of such an approach go deep. In fact, it may be said to have started with an idea for keeping as much data traffic as possible out of general circulation: cache memory
Keywords
distributed memory systems; multiprocessor interconnection networks; system buses; crossbar; crossbar architecture; crosspoint; distributed memory systems; interconnection architecture; multiprocessing systems; multiprocessors; switch; system bus;
fLanguage
English
Journal_Title
Spectrum, IEEE
Publisher
ieee
ISSN
0018-9235
Type
jour
DOI
10.1109/6.343986
Filename
343986
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