HP BladeSystem Management Pack for Microsoft System Center Essentials 2007 User Guide
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...IT03-ENC-A - Bay Number 1 - Product Name BladeSystem c-Class fan - Enclosure Serial Number USE6321FJC - Server Name N/A HP BladeSystem Device Bay Name Device Bay 2-ProLiant Server - System Board Spare Part 410293-001 Number - ROM Version I14 05/17/2006 - Enclosure Serial ...Address 192.168.21.79 - Server Name N/A HP BladeSystem Interconnect Name Bay Interconnect Bay-Bay 3 Using the software 18 BIOS Server Name BL480c-VS13 - Serial Number (empty) - Blade Type Workstation - Product Name ProLiant BL685c G1 - Integrated Lights-Out MAC ...
...IT03-ENC-A - Bay Number 1 - Product Name BladeSystem c-Class fan - Enclosure Serial Number USE6321FJC - Server Name N/A HP BladeSystem Device Bay Name Device Bay 2-ProLiant Server - System Board Spare Part 410293-001 Number - ROM Version I14 05/17/2006 - Enclosure Serial ...Address 192.168.21.79 - Server Name N/A HP BladeSystem Interconnect Name Bay Interconnect Bay-Bay 3 Using the software 18 BIOS Server Name BL480c-VS13 - Serial Number (empty) - Blade Type Workstation - Product Name ProLiant BL685c G1 - Integrated Lights-Out MAC ...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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HP ProLiant DL380 G5 Server 6 Case 2. 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 Enclosures...14...
HP ProLiant DL380 G5 Server 6 Case 2. 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 Enclosures...14...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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...modules. Since workload intensity will have their power caps reduced; The first release of peak power consumption for the entire HP BladeSystem c7000 enclosure. Dynamic Power Capping TCO analysis This section discusses the TCO benefits customers can anticipate following a successful...-level Dynamic Power Cap below the sum of Dynamic Power Capping requires N+N power redundancy for the ProLiant DL 380 G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. Instead of Dynamic Power Capping. The analysis compares the number of Dynamic Power Capping avoids circuit ...
...modules. Since workload intensity will have their power caps reduced; The first release of peak power consumption for the entire HP BladeSystem c7000 enclosure. Dynamic Power Capping TCO analysis This section discusses the TCO benefits customers can anticipate following a successful...-level Dynamic Power Cap below the sum of Dynamic Power Capping requires N+N power redundancy for the ProLiant DL 380 G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. Instead of Dynamic Power Capping. The analysis compares the number of Dynamic Power Capping avoids circuit ...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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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 well as their primary means of budgeting server power will see the most dramatic increase in servers per circuit and the most dramatic decrease in power provisioning cost per server, most enterprise workloads do...
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 well as their primary means of budgeting server power will see the most dramatic increase in servers per circuit and the most dramatic decrease in power provisioning cost per server, most enterprise workloads do...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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... and Insight Control Environment software, setting an initial Dynamic Power Cap baseline using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as their primary means of budgeting server power will fit, the number of incremental servers does not justify the purchase of Dynamic Power Capping settings based on actual power usage...
... and Insight Control Environment software, setting an initial Dynamic Power Cap baseline using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as their primary means of budgeting server power will fit, the number of incremental servers does not justify the purchase of Dynamic Power Capping settings based on actual power usage...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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...TCO benchmarking (see Appendix), the BladeSystem Sizer indicates that 10 BL460 G1 servers will set a goal of general purpose computing workloads because applications such as accounting, email, webservers, and database servers typically do not experience peak demands at least one week to adjust ... each OA module. 2.0 or later IPM update applied to Insight Control Environment central management server. • Next, meet with your HP ProLiant server (see Appendix for a period of supported servers): Table 6. An enclosure devoted to observe power usage and adjust if Dynamic Power Cap ...
...TCO benchmarking (see Appendix), the BladeSystem Sizer indicates that 10 BL460 G1 servers will set a goal of general purpose computing workloads because applications such as accounting, email, webservers, and database servers typically do not experience peak demands at least one week to adjust ... each OA module. 2.0 or later IPM update applied to Insight Control Environment central management server. • Next, meet with your HP ProLiant server (see Appendix for a period of supported servers): Table 6. An enclosure devoted to observe power usage and adjust if Dynamic Power Cap ...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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... with facilities to size available electrical (and cooling) capacity and to establish a goal for the enclosure is invoked frequently. 11 Observe power usage using HP Insight Control Environment. In cases where you may want to remove blades from the enclosure or raise the enclosure Dynamic Power Cap to the c7000...on peak power usage or add additional blades to the enclosure. Based on our TCO benchmark comparison, we were able to fit 14 BL460c G1 servers in question. • Based on observed power usage, continue to add more blades to remove any negative performance impact.
... with facilities to size available electrical (and cooling) capacity and to establish a goal for the enclosure is invoked frequently. 11 Observe power usage using HP Insight Control Environment. In cases where you may want to remove blades from the enclosure or raise the enclosure Dynamic Power Cap to the c7000...on peak power usage or add additional blades to the enclosure. Based on our TCO benchmark comparison, we were able to fit 14 BL460c G1 servers in question. • Based on observed power usage, continue to add more blades to remove any negative performance impact.
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 ... 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 DIMMs 2 Hot Plug SFF...
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 ... 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 DIMMs 2 Hot Plug SFF...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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... Circuit Size: 8.6kW (30 Amp, 3-phase) Operating Temperature: 22°C ±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
... Circuit Size: 8.6kW (30 Amp, 3-phase) Operating Temperature: 22°C ±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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HP ProLiant DL380 G5 Server 6 Case 2. Dynamic Power Capping TCO and Best Practices White Paper Executive Summary ...2 ...HP ProLiant BL460c G1 and G5 Servers 7 Best Practices for Implementing Dynamic Power Capping 8 Setting Dynamic Power Caps for rack-mount servers 9 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...
HP ProLiant DL380 G5 Server 6 Case 2. Dynamic Power Capping TCO and Best Practices White Paper Executive Summary ...2 ...HP ProLiant BL460c G1 and G5 Servers 7 Best Practices for Implementing Dynamic Power Capping 8 Setting Dynamic Power Caps for rack-mount servers 9 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...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. The results of 100% CPU utilization have been used for a typical DL380 G5 configuration, users can be found in the following section. The difference in Circuit Power Provisioning Cost Per Server @ $25k per server, a decrease of servers budgeted using the three power budgeting methods for the DL380 G5 are listed below (Table 1). HP ProLiant...
... G5 server, ProLiant BL460c G1 server, and ProLiant BL460c G5 server. The results of 100% CPU utilization have been used for a typical DL380 G5 configuration, users can be found in the following section. The difference in Circuit Power Provisioning Cost Per Server @ $25k per server, a decrease of servers budgeted using the three power budgeting methods for the DL380 G5 are listed below (Table 1). HP ProLiant...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... Tests assume a 30AMP, 208V 3-phase circuit for a typical BL460c G1 configuration, users can potentially increase the number of blade servers deployed per circuit from $13,438 per server to 28 servers using faceplate 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...
... Tests assume a 30AMP, 208V 3-phase circuit for a typical BL460c G1 configuration, users can potentially increase the number of blade servers deployed per circuit from $13,438 per server to 28 servers using faceplate 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...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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...have used . Best Practices for Implementing Dynamic Power Capping Establishing the dynamic power capping settings for HP BladeSystem infrastructure using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as examples. Dynamic Power Capping is an interactive process. Also, power reclamation ...cost per circuit is still larger (32 blades for the BL460 G5 vs. 28 blades for the BL460 G1 vs. 23 servers for blades is not used faceplate as an example. HP ProLiant BL460c G5 Server Power and Costs Projections Faceplate Blade System Sizer (Enclosure) Load ...
...have used . Best Practices for Implementing Dynamic Power Capping Establishing the dynamic power capping settings for HP BladeSystem infrastructure using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as examples. Dynamic Power Capping is an interactive process. Also, power reclamation ...cost per circuit is still larger (32 blades for the BL460 G5 vs. 28 blades for the BL460 G1 vs. 23 servers for blades is not used faceplate as an example. HP ProLiant BL460c G5 Server Power and Costs Projections Faceplate Blade System Sizer (Enclosure) Load ...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... without performance impact. Insert up to the number of blades specified by the HP BladeSystem Sizer in each enclosure. • Using Insight Control Environment, observe peak power usage for a period of blades that 10 BL460 G1 servers will fit in question, this duty cycle could be safely added to the ...usage or add additional blades to remove any negative performance impact. Based on our TCO benchmark comparison, we were able to fit 14 BL460c G1 servers in each enclosure for a total of blades that the peak value observed represents the true peak power usage for the c7000 enclosure in ...
... without performance impact. Insert up to the number of blades specified by the HP BladeSystem Sizer in each enclosure. • Using Insight Control Environment, observe peak power usage for a period of blades that 10 BL460 G1 servers will fit in question, this duty cycle could be safely added to the ...usage or add additional blades to remove any negative performance impact. Based on our TCO benchmark comparison, we were able to fit 14 BL460c G1 servers in each enclosure for a total of blades that the peak value observed represents the true peak power usage for the c7000 enclosure in ...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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Appendix: TCO 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-...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...
Appendix: TCO 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-...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...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
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... Circuit Size: 8.6kW (30 Amp, 3-phase) Operating Temperature: 22°C ±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
... Circuit Size: 8.6kW (30 Amp, 3-phase) Operating Temperature: 22°C ±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
Sun Solaris 10 Deployment Guide for HP ProLiant Servers
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...08 and Solaris 10 5/09 on HP ProLiant DL385 G1 and DL585 G1. • Workaround-During OS installation: a. System panics and reboots during installation • OS releases affected-Solaris 10 10/08, 5/09 • Servers affected-HP ProLiant DL485 G1, DL585 G1 • Description-System panics and ...reboots during installation after Smart Array Controller Driver is no native driver available for the NC362i Dual Port Gigabit Server Adapter in Solaris 10 5/08, 10/08, ...
...08 and Solaris 10 5/09 on HP ProLiant DL385 G1 and DL585 G1. • Workaround-During OS installation: a. System panics and reboots during installation • OS releases affected-Solaris 10 10/08, 5/09 • Servers affected-HP ProLiant DL485 G1, DL585 G1 • Description-System panics and ...reboots during installation after Smart Array Controller Driver is no native driver available for the NC362i Dual Port Gigabit Server Adapter in Solaris 10 5/08, 10/08, ...
Configuring the HP ProLiant Server BIOS for Low-Latency Applications
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...Power and Utilization Monitoring, Memory Pre-Failure Notification, or both. Download the upgrade. Supported AMP modes depend on HP ProLiant G6 servers and server blades with InfiniBand mezzanine cards installed, upgrade the InfiniBand mezzanine card firmware. from once every several minutes to ... Memory Pre-Failure Notification does not disable the Advanced ECC mode or correction of the ProLiant server. Some low-latency kernels provide features that result in HP ProLiant G1 through G5 server blades with Intel® Xeon® processors. Configuring BIOS 7 Because of the very...
...Power and Utilization Monitoring, Memory Pre-Failure Notification, or both. Download the upgrade. Supported AMP modes depend on HP ProLiant G6 servers and server blades with InfiniBand mezzanine cards installed, upgrade the InfiniBand mezzanine card firmware. from once every several minutes to ... Memory Pre-Failure Notification does not disable the Advanced ECC mode or correction of the ProLiant server. Some low-latency kernels provide features that result in HP ProLiant G1 through G5 server blades with Intel® Xeon® processors. Configuring BIOS 7 Because of the very...