Optimizing the number of processing nodes and I/O nodes in a shared disk parallel database system: SPAX

In a shared disk architecture such as a SPAX system, messages for concurrency/coherency control and data transmission due to disk sharing degrade the system performance. But the network speed in a SPAX system is sufficiently fast, and network traffic does not deteriorate the system performance. Howe...

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Main Authors: Young Kyu Park, Seongil Jin, Sung Hyun Cho, Joon Seok Lee
Format: Conference Proceeding
Language:English
Subjects:
Communication system control
Computer architecture
Computer science
Concurrent computing
Control systems
Data engineering
Database systems
Switches
System performance
Telecommunication computing
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Seongil Jin
Sung Hyun Cho
Joon Seok Lee
description In a shared disk architecture such as a SPAX system, messages for concurrency/coherency control and data transmission due to disk sharing degrade the system performance. But the network speed in a SPAX system is sufficiently fast, and network traffic does not deteriorate the system performance. However, the number of processing nodes and that of I/O nodes for disk I/O can be a bottleneck in the SPAX system. The authors study the effect of the number of processing nodes and I/O nodes on the system performance.
doi_str_mv 10.1109/HPC.1997.592228
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Communication system control
Computer architecture
Computer science
Concurrent computing
Control systems
Data engineering
Database systems
Switches
System performance
Telecommunication computing
title Optimizing the number of processing nodes and I/O nodes in a shared disk parallel database system: SPAX
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