Computer Interconnection Structures: Taxonomy, Characteristics, and Examples
ACM Computing Surveys (CSUR)
Multiprocessor Organization—a Survey
ACM Computing Surveys (CSUR)
Computer Communications Network Design and Analysis
Computer Communications Network Design and Analysis
The MuNet: A scalable decentralized architecture for parallel computation
ISCA '80 Proceedings of the 7th annual symposium on Computer Architecture
An adaptive multimicroprocessor array computing structure for radar signal processing applications
ISCA '79 Proceedings of the 6th annual symposium on Computer architecture
Experimental Polyprocessor System (EPOS)—architecture
ISCA '79 Proceedings of the 6th annual symposium on Computer architecture
X-Tree: A tree structured multi-processor computer architecture
ISCA '78 Proceedings of the 5th annual symposium on Computer architecture
Efficient message routing in Mega-Micro-Computer networks
ISCA '76 Proceedings of the 3rd annual symposium on Computer architecture
The Roscoe distributed operating system
SOSP '79 Proceedings of the seventh ACM symposium on Operating systems principles
Hierarchical multiprocessor organizations
ISCA '77 Proceedings of the 4th annual symposium on Computer architecture
A large scale, homogeneous, fully distributed parallel machine, I
ISCA '77 Proceedings of the 4th annual symposium on Computer architecture
The design and analysis of algorithms for asynchronous multiprocessors.
The design and analysis of algorithms for asynchronous multiprocessors.
The switching structure and addressing architecture of an extensible multiprocessor: cm*.
The switching structure and addressing architecture of an extensible multiprocessor: cm*.
Decentralized algorithms in distributed systems
Decentralized algorithms in distributed systems
A bus network designed to support parallel processing
ACM '87 Proceedings of the 1987 Fall Joint Computer Conference on Exploring technology: today and tomorrow
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Low cost, compactness, and surprising compute power combine to make microprocessor computing elements attractive as building blocks for large parallel computers. Many applications ranging from brain simulation to real-time traffic control can be solved by using inherently parallel techniques executing on loosely-coupled ensembles of microcomputers known as network computers. However, network computer technology is still in its infancy. The main technical problems that remain to be solved relate to software control in distributed operating systems. The MICRONET network computer at SUNY/Stony Brook is being built as a testbed laboratory to experiment with decentralized control techniques, distributed programming languages, and distributed real-time monitoring.