Intelligent Power and Temperature Monitoring (IPTM)

Intelligent Power and Temperature Monitoring (IPTM) is a combination of Intelligent Power Monitoring (IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources.) and Intelligent Thermal Management (ITM) features that optimize AP operations in changing power and temperature conditions. These features adapt the performance of the AP to provide consistent network experience according to the power usage and operating temperature of the AP.

To manage this optimization, a set of reduction steps may be configured and associated with a priority value. When triggered, IPTM applies the sequence of reduction steps as defined by the priority definition until the AP is functioning within the power budget and threshold temperature. This happens dynamically as IPTM constantly monitors the power consumption and temperature of the AP and applies the corresponding reduction steps.

IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources. and ITM must be enabled separately using the CLI Command-Line Interface. A console interface with a command line shell that allows users to execute text input as commands and convert these commands to appropriate functions.. However, the reduction steps applied for IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources. and ITM are the same and are configured using the ipm-power-reduction-step-prio ipm-step <reduction step> priority <priority value> parameter in the ipm command. The IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources. and ITM settings configured for the AP can be viewed using the show running configuration command.

Important Points to Remember

Intelligent Power Management

Intelligent Power Management (IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources.)  measures the power utilization of the AP and dynamically adapts to the power budget. IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources. dynamically limits the power requirement of the AP as per the available power resources. This is in contrast to the existing static power management method where the power profiles such as POE-AF, POE-AT, PoE Power over Ethernet. PoE is a technology for wired Ethernet LANs to carry electric power required for the device in the data cables. The IEEE 802.3af PoE standard provides up to 15.4 W of power on each port.-DC, or LLDP Link Layer Discovery Protocol. LLDP is a vendor-neutral link layer protocol in the Internet Protocol suite used by network devices for advertising their identity, capabilities, and neighbors on an IEEE 802 local area network, which is principally a wired Ethernet. are hard-coded for each AP.

The following CLI Command-Line Interface. A console interface with a command line shell that allows users to execute text input as commands and convert these commands to appropriate functions. command enables IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources.:

(Instant AP)(config)# ipm

(Instant AP)(ipm)# enable

Reporting Power Values to Central

Instant APs can measure and periodically report their power information such as current, average, minimum, and maximum power consumption values sampled over the previous one minute and report the same to Aruba Central. When Instant APs measure the power values, they send the information to the conductor Instant AP over a PAPI Process Application Programming Interface. PAPI controls channels for ARM and Wireless Intrusion Detection System (WIDS) communication to the conductor controller. A separate PAPI control channel connects to the local controller where the SSID tunnels terminate. message. This information is saved and sent to Central.

This functionality is not supported on 203H Series, 203R Series, 207 Series, 303 Series, 303P Series, 320 Series, 360 Series, 500 Series, 500H Series access points.

The following CLI Command-Line Interface. A console interface with a command line shell that allows users to execute text input as commands and convert these commands to appropriate functions. command is used to view the power monitoring information:

(Instant AP) #show aps power-monitor

Intelligent Thermal Management

Intelligent Thermal Management (ITM) measures the internal temperature of the AP and dynamically adapts operations to reduce the internal temperature. The operations of the AP are throttled down when the internal temperature exceeds the maximum threshold temperature. The reduction steps applied to control the temperature are defined using the ipm-power-reduction-step-prio ipm-step parameter in the ipm command.

ITM is not supported on 203H Series, 203R Series, 207 Series, 300 Series, 303 Series, 303H Series, 310 Series, 318 Series, 320 Series, 330 Series, 340 Series, 370 Series, 370EX Series, AP-387, 500 Series, 500H Series, 510 Series, 530 Series, 550 Series, and 630 Series access points.

IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources. must be enabled for ITM to function.

The following CLI Command-Line Interface. A console interface with a command line shell that allows users to execute text input as commands and convert these commands to appropriate functions. command enables ITM:

(Instant AP)(config)# itm

Configuring Reduction Steps

The reduction steps and their order is configured using the ipm-power-reduction-step-prio ipm-step <reduction step> priority <priority value> parameter in the ipm command. The priority values range from 1-16, with 1 being the highest and 16 being the lowest. When triggered, the reduction steps are applied sequentially starting with the reduction step that is assigned the highest priority value. The reduction steps are applied only when the AP exceeds the power budget or threshold temperature.

Point to Remember

The following are the reduction steps and their corresponding CLI Command-Line Interface. A console interface with a command line shell that allows users to execute text input as commands and convert these commands to appropriate functions. parameter:

Reduction Step

CLI Command

Reduce the CPU Central Processing Unit. A CPU is an electronic circuitry in a computer for processing instructions. frequency to 25%

cpu_throttle_25

Reduce the CPU Central Processing Unit. A CPU is an electronic circuitry in a computer for processing instructions. frequency to 50%

cpu_throttle_50

Reduce the CPU Central Processing Unit. A CPU is an electronic circuitry in a computer for processing instructions. frequency to 75%

cpu_throttle_75

Disable the 2nd Ethernet Ethernet is a network protocol for data transmission over LAN. port

disable_alt_eth

Disable PSE port 1

disable_pse1

Disable PSE port 2

disable_pse2

Disable the USB Universal Serial Bus. USB is a connection standard that offers a common interface for communication between the external devices and a computer. USB is the most common port used in the client devices. port

disable_usb

Reduce the radio chains of the 2.4 GHz Gigahertz. radio to 1x1

radio_2ghz_chain_1x1

Reduce the radio chains of the 2.4 GHz Gigahertz. radio to 2x2

radio_2ghz_chain_2x2

Reduce the radio chains of the 2.4 GHz Gigahertz. radio to 3x3

radio_2ghz_chain_3x3

Reduce the power of 2.4 GHz Gigahertz. radio by 3dB from maximum

radio_2ghz_power_3dB

Reduce the power of 2.4 GHz Gigahertz. radio by 6dB from maximum

radio_2ghz_power_6dB

Disable the 2.4 GHz Gigahertz. radio

radio_2ghz_disable

Reduce the radio chains of the 5 GHz Gigahertz. radio to 1x1

radio_5ghz_chain_1x1

Reduce the radio chains of the 5 GHz Gigahertz. radio to 2x2

radio_5ghz_chain_2x2

Reduce the radio chains of the 5 GHz Gigahertz. radio to 3x3

radio_5ghz_chain_3x3

Reduce the radio chains of the 5 GHz Gigahertz. radio to 4x4

radio_5ghz_chain_4x4

Reduce the power of 5 GHz Gigahertz. radio by 3dB from maximum

radio_5ghz_power_3dB

Reduce the power of 5 GHz Gigahertz. radio by 6dB from maximum

radio_5ghz_power_6dB

Disable the 5 GHz Gigahertz. radio

radio_5ghz_disable

Reduce the radio chains of the secondary 5 GHz Gigahertz. radio to 1x1

radio_5ghz_2_chain_1x1

Reduce the radio chains of the secondary 5 GHz Gigahertz. radio to 2x2

radio_5ghz_2_chain_2x2

Reduce the radio chains of the secondary 5 GHz Gigahertz. radio to 3x3

radio_5ghz_2_chain_3x3

Reduce the power of secondary 5 GHz Gigahertz. radio by 3dB from maximum

radio_5ghz_2_power_3dB

Reduce the power of secondary 5 GHz Gigahertz. radio by 6dB from maximum

radio_5ghz_2_power_6dB

Disable the secondary 5 GHz Gigahertz. radio

radio_5ghz_2_disable

Reduce the radio chain of 6 GHz Gigahertz. radio to 1x1

radio_6ghz_chain_1x1

Reduce the radio chain of 6 GHz Gigahertz. radio to 2x2

radio_6ghz_chain_2x2

Reduce the radio chain of 6 GHz Gigahertz. radio to 3x3

radio_6ghz_chain_3x3

Reduce the power of 6 GHz Gigahertz. radio by 3dB from maximum

radio_6ghz_power_3dB

Reduce the power of 6 GHz Gigahertz. radio by 6dB from maximum

radio_6ghz_power_6dB

Disable the 6 GHz Gigahertz. radio

radio_6ghz_disable

NOTE: Some reduction steps are only available for select AP platforms. For example, radio_5ghz_2_disable step is only available on access points with a secondary 5 GHz Gigahertz. radio such as AP-555 and not in other AP platforms.

The following CLI Command-Line Interface. A console interface with a command line shell that allows users to execute text input as commands and convert these commands to appropriate functions. commands configures the reduction steps and their priority:

(Instant AP) #configure terminal

(Instant AP)(config) # ipm

(Instant AP)(ipm) # ipm-power-reduction-step-prio ipm-step radio_6ghz_disable priority 1

(Instant AP)(ipm) # ipm-power-reduction-step-prio ipm-step radio_5ghz_chain_3x3 priority 2

(Instant AP)(ipm) # ipm-power-reduction-step-prio ipm-step radio_2ghz_power_6dB priority 3

(Instant AP)(ipm) # ipm-power-reduction-step-prio ipm-step cpu Central Processing Unit. A CPU is an electronic circuitry in a computer for processing instructions._throttle_75 priority 4

(Instant AP)(ipm) # exit

(Instant AP)(config) # exit

(Instant AP)# commit apply

committing configuration...

Verifying the Configuration

To verify the IPM Intelligent Power Monitoring. IPM is a feature supported on certain APs that actively measures the power utilization of an AP and dynamically adapts to the power resources. and ITM configuration, use the show running-config command:

(Instant AP)# show running-config

...

ipm

ipm-power-reduction-step-prio ipm-step radio_6ghz_disable priority 1

ipm-power-reduction-step-prio ipm-step radio_5ghz_chain_3x3 priority 2

ipm-power-reduction-step-prio ipm-step radio_2ghz_power_6dB priority 3

ipm-power-reduction-step-prio ipm-step cpu Central Processing Unit. A CPU is an electronic circuitry in a computer for processing instructions._throttle_75 priority 4