HP Insight Server Migration Software for ProLiant User Guide
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...the following message: Please select the operating system to a destination server with the "HP Storageworks Tape Drivers for Windows 2000. Restart the destination server. 2. b. e. After Windows boots, install the ProLiant Support Pack on the destination disk, change the destination disk. Download the latest Windows ...server A SAN migration of disks with a blue screen If your most recent settings that all antivirus and firewall software is a BL680c G5 or a BL685c G1 and you see http://support.microsoft.com/kb/932755) on the destination server. Press F8 when you choose to...
...the following message: Please select the operating system to a destination server with the "HP Storageworks Tape Drivers for Windows 2000. Restart the destination server. 2. b. e. After Windows boots, install the ProLiant Support Pack on the destination disk, change the destination disk. Download the latest Windows ...server A SAN migration of disks with a blue screen If your most recent settings that all antivirus and firewall software is a BL680c G5 or a BL685c G1 and you see http://support.microsoft.com/kb/932755) on the destination server. Press F8 when you choose to...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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...At Blade Enclosure Level ...5 The results of the data-gathering exercise appear in the following section 6 Case 1. HP ProLiant BL460c G1 and G5 Servers 7 Best Practices for Implementing Dynamic Power Capping 8 Setting Dynamic Power Caps for rack-mount servers 8 Setting ...Dynamic Power Cap with HP BladeSystem infrastructure 10 Conclusion...12 Appendix: TCO Test Configurations and Supported Servers 13 Test Configuration 1-HP ProLiant DL380 G5 Server 13 Test Configuration 2-HP ProLiant BL460c G1 Server 13 Test Configuration 3-HP ProLiant BL460c G5 Server 14 Supported Servers and ...
...At Blade Enclosure Level ...5 The results of the data-gathering exercise appear in the following section 6 Case 1. HP ProLiant BL460c G1 and G5 Servers 7 Best Practices for Implementing Dynamic Power Capping 8 Setting Dynamic Power Caps for rack-mount servers 8 Setting ...Dynamic Power Cap with HP BladeSystem infrastructure 10 Conclusion...12 Appendix: TCO Test Configurations and Supported Servers 13 Test Configuration 1-HP ProLiant DL380 G5 Server 13 Test Configuration 2-HP ProLiant BL460c G1 Server 13 Test Configuration 3-HP ProLiant BL460c G5 Server 14 Supported Servers and ...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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... consumption for the enclosure and redundant Onboard Administrator (OA) modules. The Dynamic Power Cap for the ProLiant DL 380 G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. Comparisons were run using the three power budgeting methods for the enclosure can be allocated to ...set within the OA or from the power management module within HP Insight Control Environment. blades running lighter ...
... consumption for the enclosure and redundant Onboard Administrator (OA) modules. The Dynamic Power Cap for the ProLiant DL 380 G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. Comparisons were run using the three power budgeting methods for the enclosure can be allocated to ...set within the OA or from the power management module within HP Insight Control Environment. blades running lighter ...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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...calculator estimate. A Dynamic Power Cap was taken from the QuickSpecs for a typical DL380 G5 configuration, users can be found in the following URL: http://www.spec.org/. 6 HP ProLiant DL380 G5 Server Comparisons of 100% CPU utilization have been used to verify that applying the cap... at 100% load, test results showed that, for each of capacity. 4 The Standard Performance Evaluation Corporation develops SpecJBB. HP ProLiant DL 380 G5 Power and Costs Projections Faceplate Power Calculator Server Power Maximum Number of Servers in Watts (faceplate power) was then applied to...
...calculator estimate. A Dynamic Power Cap was taken from the QuickSpecs for a typical DL380 G5 configuration, users can be found in the following URL: http://www.spec.org/. 6 HP ProLiant DL380 G5 Server Comparisons of 100% CPU utilization have been used to verify that applying the cap... at 100% load, test results showed that, for each of capacity. 4 The Standard Performance Evaluation Corporation develops SpecJBB. HP ProLiant DL 380 G5 Power and Costs Projections Faceplate Power Calculator Server Power Maximum Number of Servers in Watts (faceplate power) was then applied to...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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...were calculated at 100% CPU load, most customers will gain the ability to $6,719 per server, a decrease of 49%. HP ProLiant BL460c G1 and G5 Servers Comparisons of faceplate, power calculator, and SPECjbb benchmark with Dynamic Power Capping for the BL460c G1 server and c7000 as... increase the number of blade servers deployed per circuit from 16 servers using faceplate to $7,679 per server, a decrease of 39%. HP ProLiant BL460c G5 Server Power and Costs Projections Faceplate Enclosure Power w/16 Blade Servers Maximum Number of 8,340 W 16Blade Server* Blade System Sizer (Enclosure...
...were calculated at 100% CPU load, most customers will gain the ability to $6,719 per server, a decrease of 49%. HP ProLiant BL460c G1 and G5 Servers Comparisons of faceplate, power calculator, and SPECjbb benchmark with Dynamic Power Capping for the BL460c G1 server and c7000 as... increase the number of blade servers deployed per circuit from 16 servers using faceplate to $7,679 per server, a decrease of 39%. HP ProLiant BL460c G5 Server Power and Costs Projections Faceplate Enclosure Power w/16 Blade Servers Maximum Number of 8,340 W 16Blade Server* Blade System Sizer (Enclosure...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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.... Dynamic Power Capping is part of an additional enclosure. To begin using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as the HP Power Calculator or HP BladeSystem Sizer to reclaim additional power capacity by setting caps lower than the values ...iLO and Insight Control Environment software, setting an initial Dynamic Power Cap baseline using the ProLiant DL380 G5 server as their primary means of pooled power, means that they can be found at www.hp.com/go/tryinsightcontrol. Blade Servers and 1 Enclosures 2 Enclosures 2 Enclosures Enclosures in ...
.... Dynamic Power Capping is part of an additional enclosure. To begin using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as the HP Power Calculator or HP BladeSystem Sizer to reclaim additional power capacity by setting caps lower than the values ...iLO and Insight Control Environment software, setting an initial Dynamic Power Cap baseline using the ProLiant DL380 G5 server as their primary means of pooled power, means that they can be found at www.hp.com/go/tryinsightcontrol. Blade Servers and 1 Enclosures 2 Enclosures 2 Enclosures Enclosures in ...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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... for our ProLiant DL380 G5 configuration, we would set the initial Dynamic Power Cap at least one week to ensure that aligns to the server's application duty cycle. In these situations, you are attached. Steps to remove any negative performance impact. Use HP Power Calculator to observe power usage for your HP ProLiant server (see...
... for our ProLiant DL380 G5 configuration, we would set the initial Dynamic Power Cap at least one week to ensure that aligns to the server's application duty cycle. In these situations, you are attached. Steps to remove any negative performance impact. Use HP Power Calculator to observe power usage for your HP ProLiant server (see...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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Test Configuration 1-HP ProLiant DL380 G5 Server 1 HP ProLiant DL380 G5 server 2 Quad-Core Intel® Xeon® Processor E5450 8 1GB PC2-5300 DDR2 Fully Buffered Low-Power DIMMs 4 Hot Plug SFF SAS 10K 72GB Hard ... Power: 208VAC Circuit Size: 8.6kW (30 Amp, 3-phase) Operating Temperature: 22°C ±0.5°C Power calculated using HP Power Calculator REV111601 Power measured using Voltech PM1000 Power Analyzer Test Configuration 2-HP ProLiant BL460c G1 Server 16 HP ProLiant BL460c G1 Servers 2 Intel® Xeon® Processor L5450 4 4GB PC2-5300 DDR2 Fully Buffered Low-Power...
Test Configuration 1-HP ProLiant DL380 G5 Server 1 HP ProLiant DL380 G5 server 2 Quad-Core Intel® Xeon® Processor E5450 8 1GB PC2-5300 DDR2 Fully Buffered Low-Power DIMMs 4 Hot Plug SFF SAS 10K 72GB Hard ... Power: 208VAC Circuit Size: 8.6kW (30 Amp, 3-phase) Operating Temperature: 22°C ±0.5°C Power calculated using HP Power Calculator REV111601 Power measured using Voltech PM1000 Power Analyzer Test Configuration 2-HP ProLiant BL460c G1 Server 16 HP ProLiant BL460c G1 Servers 2 Intel® Xeon® Processor L5450 4 4GB PC2-5300 DDR2 Fully Buffered Low-Power...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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...;0.5°C Power calculated using HP BladeSystem Sizer v3.4.1 Power measured using Voltech PM1000 Power Analyzer Supported Servers and Enclosures Dynamic Power Capping supported on the following servers and enclosures: HP BladeSystem c7000 enclosure HP ProLiant BL 2x220 G5 server HP ProLiant BL260 G5 server HP ProLiant BL460c G1 server HP ProLiant BL460c G5 server HP ProLiant BL495c G5 server HP ProLiant BL685 G5 server HP ProLiant DL360 G5 server HP ProLiant DL380 G5 server 14
...;0.5°C Power calculated using HP BladeSystem Sizer v3.4.1 Power measured using Voltech PM1000 Power Analyzer Supported Servers and Enclosures Dynamic Power Capping supported on the following servers and enclosures: HP BladeSystem c7000 enclosure HP ProLiant BL 2x220 G5 server HP ProLiant BL260 G5 server HP ProLiant BL460c G1 server HP ProLiant BL460c G5 server HP ProLiant BL495c G5 server HP ProLiant BL685 G5 server HP ProLiant DL360 G5 server HP ProLiant DL380 G5 server 14
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... infrastructure 10 Conclusion...12 Appendix: TCO Test Configurations and Supported Servers 13 Test Configuration 1-HP ProLiant DL380 G5 Server 13 Test Configuration 2-HP ProLiant BL460c G1 Server 13 Test Configuration 3-HP ProLiant BL460c G5 Server 14 Supported Servers and Enclosures...14 For more information...15 Feedback...15 Dynamic Power Capping TCO and Best Practices White Paper Executive Summary...
... infrastructure 10 Conclusion...12 Appendix: TCO Test Configurations and Supported Servers 13 Test Configuration 1-HP ProLiant DL380 G5 Server 13 Test Configuration 2-HP ProLiant BL460c G1 Server 13 Test Configuration 3-HP ProLiant BL460c G5 Server 14 Supported Servers and Enclosures...14 For more information...15 Feedback...15 Dynamic Power Capping TCO and Best Practices White Paper Executive Summary...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... @ $25k per circuit from the QuickSpecs for the ProLiant DL 380 G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. Faceplate value represents the maximum possible input power required for the DL380 G5 are listed below (Table 1). Measure Peak Power Consumption and..., power calculator, and SPECjbb benchmark with the same configuration used . HP ProLiant DL 380 G5 Power and Costs Projections Faceplate Power Calculator Server Power Maximum Number of 69%. HP ProLiant DL380 G5 Server Comparisons of the Dynamic Power Capping solution. Capping. More information ...
... @ $25k per circuit from the QuickSpecs for the ProLiant DL 380 G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. Faceplate value represents the maximum possible input power required for the DL380 G5 are listed below (Table 1). Measure Peak Power Consumption and..., power calculator, and SPECjbb benchmark with the same configuration used . HP ProLiant DL 380 G5 Power and Costs Projections Faceplate Power Calculator Server Power Maximum Number of 69%. HP ProLiant DL380 G5 Server Comparisons of the Dynamic Power Capping solution. Capping. More information ...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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...most customers will see the most dramatic increase in servers per kW * While technically more dramatic. For the ProLiant BL460c G5 server, the results are listed below (Tables 2 and 3). HP Note Tests assume a 30AMP, 208V 3-phase circuit for a usable total of 8.6kW of capacity. While ...Maximum Number of 49%. Users can potentially increase the number of blade servers deployed per server, a decrease of nearly 75%. HP ProLiant BL460c G1 and G5 Servers Comparisons of faceplate, power calculator, and SPECjbb benchmark with Dynamic Power Capping for the BL460c G1 server and c7000 as...
...most customers will see the most dramatic increase in servers per kW * While technically more dramatic. For the ProLiant BL460c G5 server, the results are listed below (Tables 2 and 3). HP Note Tests assume a 30AMP, 208V 3-phase circuit for a usable total of 8.6kW of capacity. While ...Maximum Number of 49%. Users can potentially increase the number of blade servers deployed per server, a decrease of nearly 75%. HP ProLiant BL460c G1 and G5 Servers Comparisons of faceplate, power calculator, and SPECjbb benchmark with Dynamic Power Capping for the BL460c G1 server and c7000 as...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... Sizer to no performance loss. The second portion of pooled power, means that they can fit on actual power usage. HP ProLiant BL460c G5 Server Power and Costs Projections Faceplate Blade System Sizer (Enclosure) Load Testing and Dynamic Power Capping Enclosure Power 8,340 W 4,722 W 4,257...is part of capacity. The first portion of this section described the same process for your HP servers is different based on different blade server models. As with the ProLiant DL380 G5, the overall number of blade servers deployed per kW * While technically more dramatically increase server...
... Sizer to no performance loss. The second portion of pooled power, means that they can fit on actual power usage. HP ProLiant BL460c G5 Server Power and Costs Projections Faceplate Blade System Sizer (Enclosure) Load Testing and Dynamic Power Capping Enclosure Power 8,340 W 4,722 W 4,257...is part of capacity. The first portion of this section described the same process for your HP servers is different based on different blade server models. As with the ProLiant DL380 G5, the overall number of blade servers deployed per kW * While technically more dramatically increase server...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... later Comment BIOS update applied to each server iLO update applied to the server's application duty cycle. Component Requirement for our DL380 G5 TCO benchmark configuration (see Appendix for your HP ProLiant server (see Appendix), our configuration yields a power estimate of time that may be as short as a few days or as long...
... later Comment BIOS update applied to each server iLO update applied to the server's application duty cycle. Component Requirement for our DL380 G5 TCO benchmark configuration (see Appendix for your HP ProLiant server (see Appendix), our configuration yields a power estimate of time that may be as short as a few days or as long...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... Test Configurations and Supported Servers The following tables contain the configuration of the servers as tested. Test Configuration 1-HP ProLiant DL380 G5 Server 1 HP ProLiant DL380 G5 server 2 Quad-Core Intel® Xeon® Processor E5450 8 1GB PC2-5300 DDR2 Fully Buffered Low-...30 Amp, 3-phase) Operating Temperature: 22°C ±0.5°C Power calculated using HP Power Calculator REV111601 Power measured using Voltech PM1000 Power Analyzer Test Configuration 2-HP ProLiant BL460c G1 Server 16 HP ProLiant BL460c G1 Servers 2 Intel® Xeon® Processor L5450 4 4GB PC2-5300 ...
... Test Configurations and Supported Servers The following tables contain the configuration of the servers as tested. Test Configuration 1-HP ProLiant DL380 G5 Server 1 HP ProLiant DL380 G5 server 2 Quad-Core Intel® Xeon® Processor E5450 8 1GB PC2-5300 DDR2 Fully Buffered Low-...30 Amp, 3-phase) Operating Temperature: 22°C ±0.5°C Power calculated using HP Power Calculator REV111601 Power measured using Voltech PM1000 Power Analyzer Test Configuration 2-HP ProLiant BL460c G1 Server 16 HP ProLiant BL460c G1 Servers 2 Intel® Xeon® Processor L5450 4 4GB PC2-5300 ...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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...;0.5°C Power calculated using HP BladeSystem Sizer v3.4.1 Power measured using Voltech PM1000 Power Analyzer Supported Servers and Enclosures Dynamic Power Capping supported on the following servers and enclosures: HP BladeSystem c7000 enclosure HP ProLiant BL 2x220 G5 server HP ProLiant BL260 G5 server HP ProLiant BL460c G1 server HP ProLiant BL460c G5 server HP ProLiant BL495c G5 server HP ProLiant BL685 G5 server HP ProLiant DL360 G5 server HP ProLiant DL380 G5 server 14
...;0.5°C Power calculated using HP BladeSystem Sizer v3.4.1 Power measured using Voltech PM1000 Power Analyzer Supported Servers and Enclosures Dynamic Power Capping supported on the following servers and enclosures: HP BladeSystem c7000 enclosure HP ProLiant BL 2x220 G5 server HP ProLiant BL260 G5 server HP ProLiant BL460c G1 server HP ProLiant BL460c G5 server HP ProLiant BL495c G5 server HP ProLiant BL685 G5 server HP ProLiant DL360 G5 server HP ProLiant DL380 G5 server 14
Integrating Microsoft Windows Server 2003 R2 on HP ProLiant servers
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... platforms Server platform ProLiant BL10e4 ProLiant BL10e G24 ProLiant BL20p4 ProLiant BL20p G24 ProLiant BL20p G34 ProLiant BL20p G44 ProLiant BL25p4 ProLiant BL30p4, 5 ProLiant BL35p4 ProLiant BL40p4, 5 ProLiant BL45p ProLiant BL460c ProLiant BL480c ProLiant CL380 ProLiant DL140 ProLiant DL140 G2 ProLiant DL140 G3 ProLiant DL145 ProLiant DL145 G2 ProLiant DL320 ProLiant DL320 G24, 5 ProLiant DL320 G34 ProLiant DL360 ProLiant DL360 G24 ProLiant DL360 G34, 5 ProLiant DL360 G44 ProLiant DL360 G4p4 ProLiant DL360 G5 ProLiant DL380 (6671000 MHz) ROM family I03 I07 I01 I04 I08...
... platforms Server platform ProLiant BL10e4 ProLiant BL10e G24 ProLiant BL20p4 ProLiant BL20p G24 ProLiant BL20p G34 ProLiant BL20p G44 ProLiant BL25p4 ProLiant BL30p4, 5 ProLiant BL35p4 ProLiant BL40p4, 5 ProLiant BL45p ProLiant BL460c ProLiant BL480c ProLiant CL380 ProLiant DL140 ProLiant DL140 G2 ProLiant DL140 G3 ProLiant DL145 ProLiant DL145 G2 ProLiant DL320 ProLiant DL320 G24, 5 ProLiant DL320 G34 ProLiant DL360 ProLiant DL360 G24 ProLiant DL360 G34, 5 ProLiant DL360 G44 ProLiant DL360 G4p4 ProLiant DL360 G5 ProLiant DL380 (6671000 MHz) ROM family I03 I07 I01 I04 I08...
Critical factors in intra-rack power distribution planning for high-density systems
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... other scenario, the server is used in the "For more information" section for a high-density server system based on HP ProLiant DL 360 G5 servers. Figure 8. Both configurations employ redundant power (two supplies per system) and use monitored PDUs and fixed cord extension bars... (Figure 8). The maximum configuration operates off three-phase power. HP ProLiant DL360 G5 system and power distribution components HP ProLiant DL360 G5 server Monitored PDU Fixed cord Extension Bar Table 3 shows the difference in power requirements of outlets required...
... other scenario, the server is used in the "For more information" section for a high-density server system based on HP ProLiant DL 360 G5 servers. Figure 8. Both configurations employ redundant power (two supplies per system) and use monitored PDUs and fixed cord extension bars... (Figure 8). The maximum configuration operates off three-phase power. HP ProLiant DL360 G5 system and power distribution components HP ProLiant DL360 G5 server Monitored PDU Fixed cord Extension Bar Table 3 shows the difference in power requirements of outlets required...