Users Guide
Dynamic Power Supply Engagement
Dynamic Power Supply Engagement (DPSE) mode is disabled by default. DPSE saves power by optimizing the power eciency of
the PSUs supplying power to the chassis. This also increases the PSU life, and reduces heat generation.
CMC monitors total enclosure power allocation, and moves the PSUs to Standby state. Moving the PSUs to standby state:
• Enables delivery of the total power allocation of the chassis through fewer PSUs.
• Increases the eciency of the online PSUs as they run at higher utilization.
• Improves the eciency and durability of the standby PSUs.
To operate remaining PSUs at their maximum eciency:
• No Redundancy mode with DPSE is highly power ecient, with optimal PSUs online. PSUs that are not needed are placed in
standby mode.
• PSU Redundancy mode with DPSE also provides power eciency. At least two supplies are online. One PSU powers the
conguration, while the other provides redundancy in case of PSU failure. PSU Redundancy mode oers protection against the
failure of any one PSU, but oers no protection in the event of an AC grid loss.
• Grid Redundancy mode with DPSE, where at least two of the supplies are active, one on each power grid, provides a good
balance between eciency and maximum availability for a partially loaded modular enclosure conguration.
• Disabling DPSE provides the lowest eciency as all six supplies are active and share the load. This results in lower utilization of
each power supply.
DPSE can be enabled for all three power supply redundancy congurations — No Redundancy, Power Supply Redundancy, and
Grid Redundancy.
• In a No Redundancy conguration with DPSE, the M1000e can have up to ve power supply units in Standby state. In a six PSU
conguration, some PSU units are placed in Standby and stay unutilized to improve power eciency. Removal or failure of an
online PSU in this conguration causes a PSU in Standby state to become Online. However, standby PSUs can take up to 2
seconds to become active, so some server modules may lose power during the transition in the No Redundancy conguration.
NOTE: In a three PSU conguration, server load may prevent any PSUs from transitioning to Standby
• In a Power Supply Redundancy conguration, the enclosure always keeps an additional PSU powered on and marked Online in
addition to the PSUs required to turn on the enclosure. Power utilization is monitored and up to four PSUs could be moved to
Standby state depending on the overall system load. In a six PSU conguration, a minimum of two power supply units are always
turned on.
Since an enclosure in the Power Supply Redundancy conguration always has an extra PSU engaged, the enclosure can
withstand the loss of one online PSU. The enclosure can also have enough power for the installed server modules. The loss of
the online PSU causes a standby PSU to come online. Simultaneous failure of multiple PSUs may result in the loss of power to
some server modules while the standby PSUs are turning on.
• In Grid Redundancy conguration, all power supplies are engaged when the chassis is turned on. Power utilization is monitored,
and if system conguration and power utilization allows, PSUs are moved to the Standby state. The Online status of PSUs in a
grid mirrors that of the other grid. Hence, the enclosure can sustain the loss of power to an entire grid without interruption of
power to the enclosure.
An increase in power demand in the Grid Redundancy conguration causes the engagement of PSUs from the Standby state.
This maintains the mirrored conguration needed for dual-grid redundancy.
NOTE: With DPSE Enabled, the Standby PSUs are brought Online to reclaim power if power demand increases in all
three Power Redundancy policy modes.
Default Redundancy Conguration
The default redundancy conguration for a chassis depends on the number of PSUs it contains, as shown in the following table.
Table 44. Default Redundancy
Conguration
PSU Conguration Default Redundancy Policy Default Dynamic PSU Engagement Setting
Six PSUs Grid Redundancy Disabled
194