HP ProLiant DL288 ISS Technology Update, Volume 7, Number 7

HP ProLiant DL288 Manual

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  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 1
    of memory latency and bandwidth on system performance Slow application response can cause an end user to experience anything from a frustrating delay to a missed opportunity in a split-second financial transaction. Part of the problem could be that the application is not optimized for the server, or
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 2
    for Double Data Rate (DDR) SDRAM. Some applications, such as high performance computing (HPC), 3D graphics, and multimedia, are sensitive to memory bandwidth because the data is seldom cached. A memory-intensive application running on a server with multi-core processors can saturate the shared
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 3
    /redundant memory controller in the PC server industry. I designed discrete logic on the ProLiant DL380 G2 server to HP: 20 Education: • University of Houston Bachelor of Science, Electrical Engineering, 1992 U.S. Patents: • Patent #7107493: System and method for testing memory errors in a computer
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 4
    problem with a memory device because once the data is corrected, the same error does not reoccur. Today's servers with large memory capacities typically experience several soft memory multiple bits. Fortunately, HP servers-with the exception of some single processor servers-feature Advanced ECC,
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 5
    testing Microsoft applications on HP Proliant servers, as well as on StorageWorks and Integrity servers. The ten solutions specific projects. Figure 2-1. Views of the HP Microsoft Solutions Lab. 1 Ziegler, J. F., Nelson, M. E., Shell, J. D., et al. "Cosmic Ray Soft Error Rates of 16-Mb DRAM Memory
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 6
    Web Server • Microsoft Windows Server 2008 Hyper-V Server virtualization on HP BladeSystem and ProLiant Servers In addition, the lab is busy with the following activities: • characterizing Active Directory for an HP customer • hosting a virtualized lab infrastructure for the HP Services organization
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 7
    2008 Premium Edition runs on two hardware servers, with the second server running Microsoft SQL Server 2008 Standard Edition for line-of-business applications. NOTE Line-of-business applications are computer applications that are specific for running a business, such as accounting, supply chain
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 8
    Advanced collaboration tools like Remote Web Workplace and SharePoint Services provide Web site administration and security allowing small networks and valuable data. Introduction to Windows Essential Business Server 2008 Windows Essential Business Server 2008 (Figure 2) is designed for the mid-
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 9
    and licenses Windows Server 2008, Microsoft Exchange, and several other essential security and IT management products. This simplifies installations and quickly implements networks. • Simplified management-From a central administration console, IT administrators can add users or review and respond
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 10
    2008 Release Candidate 0 (RC0) on HP ProLiant servers integration note http://h20000.www2.hp.com/bc/docs/support/SupportMa nual/c01467895/c01467895.pdf HP reference configuration for Microsoft Windows Essential Business Server on HP BladeSystem c3000 enclosure white paper http://h71028.www7
  • HP ProLiant DL288 | ISS Technology Update, Volume 7, Number 7 - Page 11
    hypervisor virtualization technologies in HP BladeSystem ProLiant server blades and ProLiant servers" technology brief "Implementing Microsoft Windows Server 2008 Hyper-V on HP ProLiant servers" integration note "Integrating HP Insight Management WBEM Providers with HP System Insight Manager
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ISS Technology Update
Volume 7, Number 7
Keeping you informed of the latest ISS technology
The influence of memory latency and bandwidth on system performance
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1
Meet the Expert—Vincent Nguyen
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3
Soft memory errors caused by natural phenomena
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4
Spotlight: HP Microsoft Solutions Lab benefits customers, partners,
and resellers
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5
Overview of Microsoft® Windows® Essential Server Solutions
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7
Recently published industry standard server technology communications
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11
Contact us
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11
The influence of memory latency and bandwidth on system performance
Slow application response can cause an end user to experience anything from a frustrating delay to a missed opportunity in a
split-second financial transaction. Part of the problem could be that the application is not optimized for the server, or vice versa.
One example is when a single-threaded application runs on a server with multi-core processors (See “Multi-core Technology” in
Volume 7, Number 6 of the
ISS Technology Update
).
Alternatively, slow application response can occur while the processor is waiting for data from system memory, commonly
referred to as memory latency. Memory latency is the time it takes for non-cached data to be retrieved from synchronous
dynamic random access memory (SDRAM) after a READ request from the processor. This time is measured in bus clock cycles,
with each clock cycle lasting a few billionths of a second, or nanoseconds. Although latency is measured in nanoseconds, it has
a relatively significant impact on system performance. In fact, system designers have found that a two percent reduction in
memory latency can cause a one percent improvement in system performance for some database applications. Conversely,
excessive latency can cause the processor to stall as it waits for data, bringing the entire system to a crawl.
As shown in Figure 1, the total response time consists of flight time of the read request on the front side bus (FSB), propagation
delay through the memory controller, flight time on the memory bus, response time of the SDRAM, and the time it takes for data
to travel back to the processor. Flight time is the time it takes for commands and data to travel along the FSB and memory bus.
Flight time is affected by the operating frequency of the buses.
The response time of the SDRAM is the delay, in clock cycles, while retrieving the data and driving it to the SDRAM pins on the
bus. This delay is also referred to as CAS latency (see right column: “SDRAM operation”).