HP Hewlett Packard Network Card BL685c G5 User Manual

Performance characterization of HP ProLiant BL685c G5  
with Quad-Core AMD Opteron processors (2.3 GHz)  
in a 64-bit HP Server Based Computing environment  
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Executive summary  
Important:  
This document describes a performance characterization performed  
utilizing the HP 64-bit test harness, which incorporates a Microsoft® Office  
2003 workload.  
Test results cannot be compared directly with the results of tests performed  
using the 32-bit Office XP- or Office 2003-based harness.  
The HP ProLiant BL685c G5 server blade delivers uncompromising performance and expandability in  
a dense form factor. With up to four Quad-Core AMD Opteron™ processors, 64 GB of DDR2  
memory, two hot plug serial hard drives, four integrated network adapters and three I/O expansion  
slots, the HP ProLiant BL685c G5 server blade can support the most demanding enterprise-class  
applications.  
A four-socket1 HP ProLiant BL685c G5 server blade with the AMD Opteron Processor Model 8356  
(2.3 GHz) can provide optimal support for up to the following numbers of users (as described in  
Table 2) in a 64-bit HP Server Based Computing (SBC) environment:  
Heavy Users  
Medium Users  
Light Users  
301  
444  
544  
Since the kernel memory constraints that limit scalability in a 32-bit HP SBC environment have been  
removed, this performance characterization demonstrates that customers can expect to fully utilize the  
resources of this server in a 64-bit environment, even when running their 32-bit applications.  
Testing performed in March 2008 is described.  
Audience  
This performance characterization is intended primarily for IT professionals planning HP SBC  
solution deployments. The performance and sizing information provided herein is designed to help  
customers estimate the number of HP ProLiant BL685c G5 server blades required for a particular  
environment.  
Introduction  
The HP ProLiant BL685c G5 server blade (shown in Figure 1) is ideal for multi-threaded, multi-tasked  
environments, high-performance computing, and HP SBC.  
Note:  
This server blade is deployed within an HP BladeSystem enclosure. For  
more information, refer to Appendix A – HP BladeSystem.  
1 Four-processor, also known as 4P  
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Figure 1. HP ProLiant BL685c G5 server blade  
AMD Opteron processors  
The HP ProLiant BL685c G5 server blade supports up to four Quad-Core AMD Opteron 8300 Series  
processors. This native quad-core processor delivers the following benefits:  
Outstanding performance  
The Quad-Core Opteron processor is designed for optimal multi-threaded application performance.  
Its native quad-core implementation features four cores on a single die for more efficient data  
sharing, while the enhanced cache structure and integrated memory controller can sustain  
application throughput. This processor provides outstanding processing power and, together with its  
performance-per-watt enhancements, can improve IT responsiveness while maintaining data center  
costs.  
Enhanced power efficiency  
Thanks to Enhanced AMD PowerNow!™ technology and the introduction of AMD CoolCore™  
technology, Quad-Core Opteron processors are very power-efficient, helping to reduce power  
needs and cooling costs in the data center.  
(For more on power management enhancements, see AMD Dual Dynamic Power Management.)  
Optimal virtualization  
Featuring AMD Virtualization™ (AMD-V™) technology with nested paging acceleration, Quad-Core  
Opteron processors can accelerate the performance of virtualized applications and improve  
efficiency when switching between virtual machines; as a result, customers can typically host more  
virtual machines and users per system, maximizing the consolidation and power-saving benefits of  
virtualization.  
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Investment protection  
By leveraging AMD’s Common Core Strategy and Same Socket Technology, Quad-Core Opteron  
processors can minimize changes to the customer’s software and data center infrastructure,  
protecting IT investments and simplifying management.  
AMD Dual Dynamic Power Management  
Dual Dynamic Power Management functionality allows each processor to maximize the power-saving  
benefits of Enhanced AMD PowerNow! without compromising performance, reducing idle power  
consumption and enabling per-processor power management in multi-socket systems to further reduce  
power consumption.  
By powering core and memory controller voltage planes independently, Dual Dynamic Power  
Management can enhance both performance and power management.  
Benefits include:  
Increased performance  
The memory controller is able to run at a higher frequency, helping to reduce memory latency and  
thus improving application performance.  
Improved power management  
By operating independently from the memory controller, the cores in a Quad-Core Opteron  
processor can exploit the power savings offered by Enhanced PowerNow! more often, resulting in  
reduced power and cooling bills. In addition, the processor reduces power to the northbridge2  
when memory is not in use, while continuing to provide full power to the cores.  
The following sections of this paper describe the testing performed by HP to characterize the  
performance and scalability of an HP ProLiant BL685c G5 server blade in a 64-bit HP SBC  
environment.  
Note:  
A 64-bit HP SBC environment eliminates the kernel memory constraints that  
can limit server scalability in a 32-bit HP SBC environment. For more  
2 Or memory controller hub (MCH)  
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Test methodology  
HP continues to upgrade existing HP ProLiant servers and introduce new servers to meet particular  
business needs. To help customers select the appropriate server for their particular HP SBC  
environment, HP publishes this and other performance characterizations so that you can compare  
individual server performance and scalability.  
This section describes how HP determined the optimal number of users supported by an HP ProLiant  
BL685c G5 server blade with the Opteron Processor Model 8356 (2.3 GHz) – henceforth referred to  
as the HP ProLiant BL685c G5 server blade – in a 64-bit test harness.  
Important:  
As with any laboratory testing, the performance metrics quoted in this  
paper are idealized. In a production environment, these metrics may be  
impacted by a variety of factors.  
HP recommends proof-of-concept testing in a non-production environment  
using the actual target application as a matter of best practice for all  
application deployments. Testing the actual target application in a  
test/staging environment identical to, but isolated from, the production  
environment is the most effective way to characterize system behavior.  
This section provides more information on test tools, user profiles and test scenarios.  
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Test tools  
To facilitate the placement and management of simulated loads on an HP SBC server, HP used  
Terminal Services Scalability Planning Tools (TSScaling), a suite of tools developed by Microsoft to  
help organizations with Microsoft Windows® Server 2003 Terminal Server capacity planning.  
Table 1 describes these tools.  
Table 1. Components of TSScaling  
Component  
Description  
Automation tools  
Robosrv.exe  
Robocli.exe  
Qidle.exe  
Drives the server-side of the load simulation  
Helps drive the client-side of the load simulation  
Test tools  
Help files  
Determines if any scripts have failed and require  
operator intervention  
Tbscript.exe  
A script interpreter that helps drive the client-side load  
simulation  
TBScript.doc  
Terminal Server bench scripting documentation  
A scalability test environment set-up guide  
A testing guide  
TSScalingSetup.doc  
TSScalingTesting.doc  
More information  
Roboserver (Robosrv.exe) and Roboclient (Robocli.exe): Terminal Server capacity planning  
User profiles  
To simulate typical workloads in this environment, HP used scripts based on the Heavy, Medium, and  
Light User profiles described in Table 2.  
Table 2. User profiles incorporated into the test scripts  
User class  
Activities  
Heavy User  
Heavy Users (also known as Structured Task Workers) tend to open multiple applications  
simultaneously and remain active for long periods. Heavy Users often leave applications open  
when not in use.  
Medium User  
Medium Users (also known as Knowledge Workers) are defined as users who gather, add value  
to, and communicate information in a decision-support process. Cost of downtime is variable but  
highly visible. These resources are driven by projects and ad-hoc needs towards flexible tasks.  
These workers make their own decisions on what to work on and how to accomplish the task.  
Sample tasks include: marketing, project management, sales, desktop publishing, decision  
support, data mining, financial analysis, executive and supervisory management, design, and  
authoring.  
Light User  
Light Users (also known as Data Entry Workers) input data into computer systems. Activities  
include transcription, typing, order entry, clerical work and manufacturing.  
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Table 3 outlines the activities performed by each user class utilizing Office 2003 products.  
Table 3. Activities incorporated into the test scripts for each user class  
Activity description  
Heavy User  
Medium User  
Light User  
Access  
Open a database, apply a filter, search through  
records, add records, and delete records.  
X
X
Excel  
Open, print and save a large spreadsheet.  
X
X
X
X
Excel_2  
Create a new spreadsheet, enter data, and create  
a chart. Print and save the spreadsheet.  
InfoPath  
Outlook  
Enter data3 into a form; save the form over an  
existing form.  
X
X
First pass: Email a short message.  
Second pass: Email a reply with an attachment.  
X
X
Outlook_2  
PowerPoint  
Create a long reply.  
Create a new presentation, insert clipart, and  
apply animation. View the presentation after each  
slide is created.  
X
X
X
PowerPoint2  
Word  
Open and view a large presentation with heavy  
animation and many colors and gradients.  
X
Create, save, print, and email a document.  
X
Test scenarios  
For the Heavy User type, HP initiated testing by running the appropriate script with a group of 15  
simulated users. Start times were staggered to eliminate authentication overhead. After these sessions  
finished, HP added 15 more users, then repeated the testing. Further groups of 15 users were added  
until the maximum number of users was reached.  
For Medium and Light User types, HP utilized groups of ten users.  
Performance and scalability metrics  
While the scripts were running, HP monitored a range of Windows Performance Monitor (Perfmon)  
counters to help characterize server performance and scalability. In particular, HP has monitored CPU  
utilization (% Processor Time) to establish the optimal number of users supported on an HP SBC server  
– by definition, the number of users active when processor utilization reaches 80%. At this time, a  
limited number of additional users or services can be supported; however, user response times may  
become unacceptable.  
To validate scalability metrics obtained using Perfmon, HP also runs canary scripts to characterize  
Heavy User response times – a very practical metric – for discrete activities such as an application  
being invoked or a modal box appearing. By monitoring response times as more and more users log  
on, HP has been able to demonstrate that these times are acceptable when the optimal number of  
users (as determined using Perfmon counter values) is active.  
3 Data entry for Office InfoPath 2003 requires significant processor resources  
4 Shortened version for Heavy Users  
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Note:  
When running canary scripts, HP considers user response times to become  
unacceptable when they increase markedly over a baseline measurement.  
Test topology  
Figure 2 illustrates the HP SBC test environment.  
Figure 2. The tested environment  
Note:  
Test environments such as that shown in Figure 2 are available to customers  
at HP Solution Centers to help solve a wide variety of business problems.  
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Configurations  
Table 4 summarizes the configurations of servers and clients used in the test environment.  
Table 4. System configurations  
Server  
Configuration  
HP SBC server  
4P HP ProLiant BL685c G5 server blade with:  
Opteron Processor Model 8356 (2.3 GHz)  
– 512 KB L2 cache per core; 2 MB L3 cache  
32 GB RAM  
Integrated Smart Array E200i controller with RAID 0  
Two 36 GB 15,000 rpm SAS hard drives  
– 48 GB page file on system partition  
NC373i Multifunction Gigabit Server Adapter  
Windows Server 2003 R2 Enterprise x64 Edition with Service Pack 2;  
Terminal Services enabled  
Office 2003  
Exchange Server/  
2P HP ProLiant DL360 G5 server with:  
Internet Information Services  
Dual-Core Intel® Xeon® processor (3.2 GHz)  
2 x 2 MB L2 cache  
2 GB RAM  
Four 72 GB 15,000 rpm SAS hard drives  
Integrated Smart Array P400i controller with RAID 5  
NC373i Multifunction Gigabit Server Adapter  
Windows Server 2003 Enterprise Edition  
Microsoft Exchange Server 2003  
Microsoft Internet Information Services (IIS) 6.0  
Domain Controller  
2P HP ProLiant DL360 G5 server with:  
Dual-Core Xeon processor (3.2 GHz)  
2 x 2 MB L2 cache  
2 GB RAM  
Four 72 GB 15,000 rpm SAS hard drives  
Integrated Smart Array P400i controller with RAID 5  
NC373i Multifunction Gigabit Server Adapter  
Windows Server 2003 Enterprise Edition  
Continued  
10  
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Table 4. System configurations (continued)  
Server  
Configuration  
Client  
Variety of Intel Pentium®-based Compaq Evo workstations (600 MHz – 2.533 GHz),  
each with:  
At least 256 MB of memory  
1024 x 768/16-bit color depth  
100 Mbps NIC  
Windows 2000 Professional or Windows XP  
HP SBC server summary  
Table 5 summarizes the configuration of the tested HP SBC server.  
Table 5. System summary for the HP ProLiant BL685c G5 server blade  
Component  
Description  
Operating system (OS)  
Version  
Microsoft Windows Server 2003, Enterprise x64 Edition  
5.2.3790 Service Pack 2, Build 3790  
Other OS description  
System name  
R2  
BL685G5  
System model  
System type  
ProLiant BL685c G5  
x64-based PC  
Processor  
(each of 16 cores)  
AMD64 Family 16 Model 2 Stepping 3 AuthenticAMD ~2311 MHz  
BIOS version/date  
SMBIOS version  
Windows directory  
System directory  
Boot device  
HP A08, 2/26/2008  
2.4  
C:\WINDOWS  
C:\WINDOWS\system32  
\Device\HarddiskVolume1  
United States  
Locale  
Hardware abstraction layer  
version  
5.2.3790.3959 (srv03_sp2_rtm.070216-1710)  
User name  
Time zone  
[Not available]  
New Zealand Standard Time  
Continued  
11  
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Table 5. System summary for the HP ProLiant BL685c G5 server blade (continued)  
Component  
Description  
32,765.62 MB  
30.78 GB  
Total physical memory  
Available physical memory  
Total virtual memory  
Available virtual memory  
Page file space  
79.06 GB  
78.78 GB  
48.00 GB  
Page file  
C:\pagefile.sys  
Performance test results  
This section outlines the test results used by HP to characterize the performance and scalability of the  
HP ProLiant BL685c G5 server blade.  
Perfmon values – Shows select Perfmon counter values for the Heavy User scenario  
Canary times – Shows Heavy User response times for a sample canary script  
Note:  
As with any laboratory benchmark, the performance metrics quoted in this  
performance brief are idealized. In a production environment, these metrics  
may be impacted by a variety of factors; for more information, refer to  
HP determined that there were no disk or network bottlenecks in the test  
environment.  
12  
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Perfmon values  
HP ran a series of performance tests using scripts based on the Heavy, Medium, and Light User  
profiles. Figure 3 shows the test results for Heavy Users.  
Figure 3. % Processor Time values for Heavy Users – showing that 301 Heavy Users were supported when processor utilization  
reached 80%  
Figure 3 shows the optimal number of Heavy Users supported by the HP ProLiant BL685c G5  
server blade to be 301.  
13  
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Canary times  
Figure 4 shows sample results for the HP ProLiant BL685c G5 server blade running a typical canary  
script.  
Individual user response times are shown in blue, with a yellow line depicting average response  
times.  
HP analyzed this figure to determine when response times began to increase markedly and  
consistently over a baseline level, indicating that user response times had become unacceptable.  
Figure 4. Canary time values show that response times began to become unacceptable when 340 Heavy Users were active  
Figure 4 indicates that the HP ProLiant BL685c G5 server blade could support 340 Heavy Users  
before response times started to increase markedly, validating the optimal value of 301 Heavy  
Users derived using % Processor Time values.  
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Test analysis summary  
Figure 5 summarizes the optimal numbers of users supported by the HP ProLiant BL685c G5 server  
blade.  
Figure 5. Optimal numbers of users supported in the 64-bit test harness  
For Heavy and Medium Users, HP characterized the scalability of the HP ProLiant BL685c G5 server  
blade through the numbers of users supported when CPU utilization reached 80%. For Light Users,  
response times became unacceptable before CPU utilization reached 80%.  
15  
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Appendix A – HP BladeSystem  
Out of the box, HP BladeSystem removes constraints imposed by conventional IT infrastructures,  
unifying server, storage, networking, power, and management capabilities in a change-ready,  
energy-thrifty, and cost-effective system. HP BladeSystem helps customers of all sizes – from large  
enterprises to small and medium businesses (SMBs) – make an easy transition to an Adaptive  
Infrastructure by enabling tighter and more dynamic connections between IT and the business process.  
With its simplified, flexible infrastructure, HP BladeSystem is prepared for change.  
Two HP BladeSystem enclosures are offered, the c7000 and c3000.  
HP BladeSystem c7000 enclosure  
The HP BladeSystem c7000 enclosure has been designed to tackle the toughest problems facing  
today’s IT infrastructures: cost, time, energy, and change. The c7000 enclosure consolidates the  
essential elements of a data center – power, cooling, management, connectivity, redundancy, and  
security – into a modular, self-tuning unit with built-in intelligence. In addition, this enclosure provides  
flexibility, scalability and support for future technologies.  
Figure A-1 shows the integration of server blades with HP BladeSystem scale-out infrastructure.  
Figure A-1. Solving infrastructure issues with the HP BladeSystem c7000 enclosure  
This powerful 10U enclosure delivers the following features:  
Performance  
Up to 16 c-Class server blades  
Up to four redundant I/O fabrics  
Multi-terabit mid-plane to support current and future I/O connections  
N+N or N+1 power redundancy for maximum configuration flexibility  
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Management  
HP Onboard Administrator provides complete control of the infrastructure  
Interactive HP Insight Display allows easy setup and configuration from the front of the rack  
HP Insight Control Environment for HP BladeSystem automates deployment, provisioning, server and  
performance management, and patch and vulnerability management, providing a single, easy-to-  
use solution for heterogeneous environments  
Options  
HP Active Cool fan technology provides superior airflow, power and acoustic performance and is  
hot pluggable for easy upgrades (up to a maximum of 10 fans)  
Redundant HP Onboard Administrator module support ensures that enclosure management is  
always available  
Additional power supplies (up to a maximum of six) can be added to the enclosure to meet  
changing needs  
HP BladeSystem c3000 enclosure  
The HP BladeSystem c3000 enclosure brings additional capabilities to HP BladeSystem. This  
enclosure is ideal for remote sites needing two to eight server blades, mid-sized companies with  
between three and 100 servers, and enterprises with special data center requirements, such as DC  
power or very limited rack power and cooling capacities.  
A rack enclosure is shown in Figure A-2; a tower enclosure, designed with casters, is available for  
sites without racks.  
Figure A-2. The HP BladeSystem c3000 rack enclosure  
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Performance  
Up to eight c-Class server blades  
Up to three I/O fabrics  
Multi-terabit mid-plane to support current and future I/O connections  
N+N and N+1 power redundancy for maximum configuration flexibility  
Choice of AC (with support for low-line or high-line power) or DC power supplies  
Management  
HP Onboard Administrator provides complete control of the infrastructure  
Interactive HP Insight Display allows easy setup and configuration from the front of the rack  
HP Insight Control Environment for HP BladeSystem automates deployment, provisioning, server and  
performance management, and patch and vulnerability management, providing a single, easy-to-  
use solution for heterogeneous environments  
Options  
HP Active Cool fan technology provides superior airflow with enhanced power and acoustic  
performance and is hot pluggable for easy upgrades (up to a maximum of six fans)  
Additional power supplies (up to a maximum of six) can be added to your enclosure to meet  
changing needs  
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Appendix B – Using Microsoft Windows Server 2003 x64  
Editions  
Microsoft offers a new generation of high-performance platforms for 64-bit applications with  
continued support for 32-bit applications and existing deployment and management tools – all on the  
same platform. These new operating systems provide an evolutionary path to 64-bit technology,  
allowing 64-bit and 32-bit applications to run side-by-side during the gradual migration to 64-bit  
computing.  
64-bit editions of Windows Server 2003 running on Quad-Core AMD Opteron processors can  
improve the performance of HP SBC servers by processing more data per clock cycle, addressing  
more memory, and running some numerical calculations faster. Large data sets can be loaded entirely  
into memory, reducing the need for slower disk access; complex calculations that take hours to  
complete on a 32-bit system can be performed in minutes; and workloads that once required a large  
server farm can be performed by a single server.  
In addition, this new 64-bit platform also removes many of the limitations that have previously  
inhibited scalability in an HP SBC environment.  
Historical scalability limitations  
32-bit Windows operating systems can directly address 4 GB of memory, 2 GB of which is reserved  
for the operating system kernel and 2 GB for applications. Since kernel memory is shared by all  
applications, the relatively small size of this space can be particularly problematic in an HP SBC  
environment where a server may be responsible for hundreds of users and thousands of processes. In  
this scenario, kernel memory can become constrained, making user response times unacceptably long  
and effectively limiting the ability of the server to scale up.  
Historically, HP SBC environments have been implemented using 1P or 2P servers. Larger, more  
powerful servers have typically not been deployed for two main reasons:  
Kernel memory issues have limited the performance of more powerful servers; either a disk I/O  
bottleneck occurs or kernel memory is consumed before processor resources can be fully utilized  
Scalability in a 32-bit symmetric multi-processing (SMP) system is inherently non-linear above 2P  
With these 1P and 2P server farms, opportunities to scale up are limited. As a result, customers are  
forced to scale out, which can create new problems such as deployment and management  
complexity, high power and cooling requirements, under-utilized resources, and minimal opportunities  
for server consolidation.  
The 64-bit platform shatters the earlier 4 GB limitation – for example, Windows Server 2003 R2  
Datacenter x64 Edition with Service Pack (SP) 1 supports up to 2 TB of RAM – effectively removing  
kernel memory limitations and eliminating disk I/O bottlenecks. By deploying a Windows Server  
x64 Edition operating system, customers can fully utilize the resources of their existing HP SBC  
servers and take full advantage of new, more powerful systems – whether they are running 32- or  
64-bit applications.  
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More information  
For more information on the impact of 64-bit Windows Server 2003 x64 Editions in an HP SBC  
environment, refer to the HP white paper, “Scalability and performance of HP ProLiant servers on 64-  
bit Microsoft Windows Server 2003 in an HP SBC environment.”  
To learn about 64-bit computing in an HP SBC environment, refer to the HP white paper,  
“Fundamentals of 64-bit computing in an HP SBC environment.”  
20  
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Appendix C – SBC solution sizing  
As with any laboratory benchmark, the performance metrics quoted in this performance brief are  
idealized. In a production environment, these metrics may be impacted by a variety of factors,  
including the following:  
Overhead  
Agents and services (virus scanning, backup and restore, provisioning, security, management and  
more) automatically consume overhead. Rogue applications can consume additional overhead.  
The system architect may wish to provide a 25% – 30% buffer to accommodate this overhead.  
Future growth  
To accommodate future growth, the system architect may wish to provide an additional buffer.  
Alternatively, servers can be added as needed, taking advantage of the server farm’s inherent  
ability to scale out.  
User profiles  
The particular application in use directly impacts the number of users supported by a particular  
server. Further, user behavior can also impact scalability:  
Increased typing rates correspond to fewer users.  
Opening and closing applications (rather than switching between them) or moving quickly  
between tasks can place a heavier load on the server.  
For accurate sizing, system architects should closely match their user profiles with the Heavy,  
Medium, and Light User profiles specified by HP in Table 2. If the profiles do not match, more  
are available using the online sizer tool (described below); alternatively, the system architect  
can consult HP Services for more information.  
Background grammar checking  
Background grammar checking can significantly impact scalability, reducing the number of users  
supported by as much as 50%. HP disabled background grammar checking for the testing  
described in this performance brief.  
Online sizer tool  
To minimize risk, HP offers automated, online tools that can help the customer size an HP SBC  
solution. The algorithms and methodology used by the sizer are based on the results of customer  
surveys and thorough testing.  
A consolidated sizer is available for enterprise and small and medium business (SMB) environments.  
Figure C-1 shows a typical HP SBC sizer screen.  
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Figure C-1. The HP SBC sizer’s welcome screen  
Based on information provided by the customer, the sizer can provide a quick, consistent mechanism  
for identifying the “best-fit” server for a particular HP SBC environment and generate a Bill of  
Materials (BOM) for that server.  
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For more information  
HP ProLiant BL685c G5 server blade  
HP BladeSystem c-Class server blades  
HP ActiveAnswers for Server Based  
Computing  
HP ProLiant Essentials  
Rapid Deployment Pack (RDP)  
Consolidated HP SBC online sizer tool  
HP Services  
HP Solution Centers  
Microsoft Windows Server 2003  
Terminal Server enhancements in  
Windows Server 2003  
Citrix XenApp (formerly Presentation Server) http://www.citrix.com/site/PS/products/feature.asp?f  
Quad-Core AMD Opteron processors  
To help us improve our documents, please provide feedback at www.hp.com/solutions/feedback.  
© 2008 Hewlett-Packard Development Company, L.P. The information contained  
herein is subject to change without notice. The only warranties for HP products  
and services are set forth in the express warranty statements accompanying such  
products and services. Nothing herein should be construed as constituting an  
additional warranty. HP shall not be liable for technical or editorial errors or  
omissions contained herein.  
Microsoft and Windows are U.S. registered trademarks of Microsoft Corporation.  
AMD Opteron, AMD PowerNow!, AMD Dual Dynamic Power Management, AMD  
CoolCore, AMD Virtualization, and AMD-V are trademarks of Advanced Micro  
Devices, Inc. Intel, Xeon and Pentium are trademarks of Intel Corporation in the  
U.S. and other countries.  
4AA1-8624ENW, March 2008  
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