HP ProLiant DL170e G6 Server User Manual

Power capping 46

1 4 2 (empty)

1 4 3 115 n/a 186 (DC watts)

1 4 4 (empty)

1 4 5 (empty)

1 4 6 (empty)

1 4 7 (empty)

1 4 8 (empty)

1 4 Fans 14 (DC watts)

1 4 223 (Chassis total - DC watts)

1 4 268 (Chassis total - AC watts)

1 4 852 (Chassis cap - AC

watts)

1 5 (no SL enclosure present)

1 6 (no SL enclosure present)

1 7 (no SL enclosure present)

1 8 (no SL enclosure present)

1 9 (no SL enclosure present)

1 10 (no SL enclosure present)

2 1 (no SL enclosure present)

2 2 (no SL enclosure present)

2 3 (no SL enclosure present)

2 4 (no SL enclosure present)

2 5 (no SL enclosure present)

2 6 (no SL enclosure present)

2 7 (no SL enclosure present)

2 8 (no SL enclosure present)

2 9 (no SL enclosure present)

2 10 (no SL enclosure present)

3 (no Dist. Module present)

4 (no Dist. Module present)

5 (no Dist. Module present)

6 (no Dist. Module present)

7 (no Dist. Module present)

8 (no Dist. Module present)
Total servers = 10

Total chassis = 2

Total fan wattage = 35 (DC watts)

Total system wattage = 2265 (DC watts)

Total system wattage = 2425 (AC watts)
PDM Port Load

---- ---- ----

1 1 87 (AC watts)

1 2 150 (AC watts)

1 3 0 (AC watts)

1 4 464 (AC watts)

1 5 11 (AC watts)

2 (no PDM Extension present)

----

712
In the following example, the cap is set to 1500 AC watts. This information is saved as part of the baseline
data to the onboard SL-APM EEPROM.
When multiple chassis are present and a valid rack level cap is given, SL-APM will:

1.

Compute the total cap as a percentage against the sum of the eligible chassis’ max power values.

2.

For each chassis, multiply the percentage computed in step 1 against each chassis individual max
power value.