Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
Page 1
... 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 For more information...15 Feedback...15 HP ProLiant DL380 G5 Server 6 Case 2. 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 For more information...15 Feedback...15 HP ProLiant DL380 G5 Server 6 Case 2. Dynamic Power Capping...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
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...Dynamic Power Capping Establishing the dynamic power capping settings for rack-mount servers is still larger (32 blades for the BL460 G5 vs. 28 blades for the BL460 G1 vs. 23 servers for a usable total of 8.6 kW of HP Insight Control Environment. The first portion of Dynamic Power ...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 the HP Power Calculator or HP BladeSystem Sizer to the licensing options. Please note that more than the numbers shown ...
...Dynamic Power Capping Establishing the dynamic power capping settings for rack-mount servers is still larger (32 blades for the BL460 G5 vs. 28 blades for the BL460 G1 vs. 23 servers for a usable total of 8.6 kW of HP Insight Control Environment. The first portion of Dynamic Power ...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 the HP Power Calculator or HP BladeSystem Sizer to the licensing options. Please note that more than the numbers shown ...
Dynamic Power Capping TCO and Best Practices White Paper (EMEA edition)
Page 9
... the HP Power Calculator with Rack-Mount Servers Step Step 1 Step 2 Step 3 Action Update server BIOS, iLO firmware, and Insight Control Environment software. Table 5. Steps to Best Practices with your specific configuration using the HP Power Calculator default settings for our DL380 G5 TCO...download and apply the following updates to your HP ProLiant server (see Appendix), our configuration yields a power estimate of 450 Watts. • The HP Power Calculator output becomes the initial Dynamic Power Cap for your ProLiant rack-mount server. If the Dynamic Power Cap is invoked...
... the HP Power Calculator with Rack-Mount Servers Step Step 1 Step 2 Step 3 Action Update server BIOS, iLO firmware, and Insight Control Environment software. Table 5. Steps to Best Practices with your specific configuration using the HP Power Calculator default settings for our DL380 G5 TCO...download and apply the following updates to your HP ProLiant server (see Appendix), our configuration yields a power estimate of 450 Watts. • The HP Power Calculator output becomes the initial Dynamic Power Cap for your ProLiant rack-mount server. If the Dynamic Power Cap is invoked...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
Page 1
... 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 and Enclosures...14 For more information...15 Feedback...15 HP ProLiant DL380 G5 Server 6 Case 2. 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 and Enclosures...14 For more information...15 Feedback...15 HP ProLiant DL380 G5 Server 6 Case 2. Dynamic Power Capping...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
Page 8
... dramatic decrease in tables 1, 2, and 3. As with refinement of this section described the same process for the DL380 G5). Since Dynamic Power Capping for rack-mount servers using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as an example. Customers leveraging the 2 x 220 blade or the BL260c blade may find that more...
... dramatic decrease in tables 1, 2, and 3. As with refinement of this section described the same process for the DL380 G5). Since Dynamic Power Capping for rack-mount servers using the ProLiant BL 460c G1 and G5 servers and the HP BladeSystem c7000 enclosure as an example. Customers leveraging the 2 x 220 blade or the BL260c blade may find that more...
Dynamic Power Capping TCO and Best Practices White Paper (WW edition)
Page 9
... is also a free trial for list of time that may not exceed the capacity of HP Power Calculator from the following updates to your ProLiant rack-mount server in question, this duty cycle could be found at 450 Watts. • Using Insight ...rack-mount server using HP Power Calculator, and refining Dynamic Power Cap settings based on server performance. Each step in conjunction with actual peak power usage. Based on our TCO benchmarking, we would adjust our Dynamic Power Cap downward to 368 Watts. • Finally, continue to observe power usage for our ProLiant DL380 G5...
... is also a free trial for list of time that may not exceed the capacity of HP Power Calculator from the following updates to your ProLiant rack-mount server in question, this duty cycle could be found at 450 Watts. • Using Insight ...rack-mount server using HP Power Calculator, and refining Dynamic Power Cap settings based on server performance. Each step in conjunction with actual peak power usage. Based on our TCO benchmarking, we would adjust our Dynamic Power Cap downward to 368 Watts. • Finally, continue to observe power usage for our ProLiant DL380 G5...