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show wlan ht-ssid-profile

show wlan ht-ssid-profile [<profile-name>]

Description

This command displays the list of all high-throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network. profiles, or detailed configuration information for a specific high-throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network. profile.

Syntax

Parameter

Description

<profile-name>

Name of a high-throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network. profile.

Usage Guidelines

Issue this command without the <profile-name> parameter to display the entire high-throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network. profile list, including profile status and the number of references to each profile. Include a profile name to display detailed configuration information for that profile.

Examples

The example below shows that the managed device has two configured high-throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network. profiles. The References column lists the number of other profiles with references to the high-throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network. profile, and the Profile Status column indicates whether the profile is predefined. (User-defined profiles will not have an entry in the Profile Status column.)

(host) [mynode] #show wlan ht-ssid-profile

 

High-throughput SSID profile List

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

Name References Profile Status

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

default 2

dot1X_CP-htssid_prof 1

ade-sloan-htssid_prof 1

 

Total:3

The following example shows configuration settings defined for the profile default:

(host) #show wlan ht-ssid-profile default

 

High-throughput SSID profile "default"

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

Parameter Value

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

High throughput enable (SSID) Enabled

40 MHz channel usage Enabled

Very High throughput enable (SSID) Enabled

80 MHz channel usage (VHT) Enabled

BA AMSDU Enable Enabled

Temporal Diversity Enable Disabled

Legacy stations Allowed

Low-density Parity Check Enabled

Maximum number of spatial streams usable for STBC reception 1

Maximum number of spatial streams usable for STBC transmission 1

MPDU Aggregation Enabled

Max received A-MPDU size 65535 bytes

Max transmitted A-MPDU size 65535 bytes

Min MPDU start spacing 0 usec

Short guard interval in 20 MHz mode Enabled

Short guard interval in 40 MHz mode Enabled

Short guard interval in 80 MHz mode Enabled

Supported MCS set 0-31

VHT - Supported MCS map 9,9,9,9

VHT - Explicit Transmit Beamforming Enabled

VHT - Transmit Beamforming Sounding Interval 25 msec

VHT - Multi User Transmit Beamforming Enabled

Maximum VHT MPDU size 11454 bytes

Maximum number of MSDUs in an A-MSDU on best-effort AC 2 MSDUs

Maximum number of MSDUs in an A-MSDU on background AC 2 MSDUs

Maximum number of MSDUs in an A-MSDU on video AC 2 MSDUs

Maximum number of MSDUs in an A-MSDU on voice AC 0 MSDUs

The output of this command includes the following data columns:

Parameter

Description

High throughput enable (SSID)

Displays if the high-throughput (802.11n802.11n is a wireless networking standard to improve network throughput over the two previous standards, 802.11a and 802.11g. With 802.11n, there will be a significant increase in the maximum raw data rate from 54 Mbps to 600 Mbps with the use of four spatial streams at a channel width of 40 MHz.) feature is enabled or disabled on the SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network..

Default: Enabled.

40 MHz channel usage

Shows if the profile enables or disables the use of 40 MHzMegahertz channels.

Default: Enabled.

Very High throughput enable (SSID)

Displays if the very high-throughput (802.11ac802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band.) feature is enabled or disabled on the SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network..

Default: Enabled.

80 MHz channel usage (VHT)

Displays the status of the 80 MHzMegahertz channel for very high-throughput is enabled or disabled.

Default: Enabled.

BA AMSDU Enable

Displays if the AP has enabled or disabled the ability to receive Aggregated-MACMedia Access Control. A MAC address is a unique identifier assigned to network interfaces for communications on a network. Service Data Unit (A-MSDU) in Block ACK (BA) negotiation.

Default: Enabled.

Temporal Diversity Enable

Displays if temporal diversity has been enabled or disabled. When this feature is enabled and the client is not responding to 802.11802.11 is an evolving family of specifications for wireless LANs developed by a working group of the Institute of Electrical and Electronics Engineers (IEEE). 802.11 standards use the Ethernet protocol and Carrier Sense Multiple Access with collision avoidance (CSMA/CA) for path sharing. packets, the AP will launch two hardware retries; if the hardware retries are not successful then it attempts software retries.

Default: Disabled.

Legacy stations

Allows or disallows associations from legacy (non-HTHigh Throughput. IEEE 802.11n is an HT WLAN standard that aims to achieve physical data rates of close to 600 Mbps on the 2.4 GHz and 5 GHz bands.) stations. By default, this parameter is enabled (legacy stations are allowed).

Low-density Parity Check

If enabled, the AP will advertise Low-density Parity Check (LDPCLow-Density Parity-Check. LDPC is a method of transmitting a message over a noisy transmission channel using a linear error correcting code. An LDPC is constructed using a sparse bipartite graph.) support. LDPCLow-Density Parity-Check. LDPC is a method of transmitting a message over a noisy transmission channel using a linear error correcting code. An LDPC is constructed using a sparse bipartite graph. improves data transmission over radio channels with high levels of background noise.

Default: Enabled.

Maximum number of spatial streams usable for STBC reception

 

Displays the maximum number of spatial streams usable for Space-Time Block Code (STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer.) reception. 0 disables STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer. reception, 1 uses STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer. for MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 0-7. Higher MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. values are not supported.

(Supported on the AP‑105, 130 Series, and 170 Series only. The configured value will be adjusted based on AP capabilities.)

NOTE: If transmit beamforming is enabled, STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer. will be disabled for beamformed frames.

Maximum number of spatial streams usable for STBC transmission

 

Displays the maximum number of spatial streams usable for STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer. transmission. 0 disables STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer. transmission, 1 uses STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer. for MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 0-7. Higher MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. values are not supported. (Supported on AP‑105, 130 Series, and 170 Series only. The configured value will be adjusted based on AP capabilities.)

NOTE: If transmit beamforming is enabled, STBCSpace-Time Block Coding. STBC is a technique used in wireless communications to transmit multiple copies of a data stream across a number of antennas and to exploit the various received versions of the data to improve the reliability of data transfer. will be disabled for beamformed frames.

MPDU Aggregation

Displays if the profile enables or disables MACMedia Access Control. A MAC address is a unique identifier assigned to network interfaces for communications on a network. Protocol Data Unit (MPDUMAC Protocol Data Unit. MPDU is a message exchanged between MAC entities in a communication system based on the layered OSI model.) aggregation.

Default: Enabled.

Max received A-MPDU size

Displays the configured maximum size of a received aggregate MPDUMAC Protocol Data Unit. MPDU is a message exchanged between MAC entities in a communication system based on the layered OSI model., in bytes.

Max transmitted A-MPDU size

Displays the configured maximum size of a transmitted aggregate MPDUMAC Protocol Data Unit. MPDU is a message exchanged between MAC entities in a communication system based on the layered OSI model., in bytes.

 

Min MPDU start spacing

Displays the configured minimum time between the start of adjacent MPDUs within an aggregate MPDUMAC Protocol Data Unit. MPDU is a message exchanged between MAC entities in a communication system based on the layered OSI model., in microseconds.

Short guard interval in 20 MHz mode

Displays if the profile enables or disables use of short (400 ns) guard interval in 20 MHzMegahertz mode.

Default: Enabled.

Short guard interval in 40 MHz mode

Displays if the profile enables or disables use of short (400 ns) guard interval in 40 MHzMegahertz mode.

Default: Enabled.

Short guard interval in 80 MHz mode

Displays if the profile enables or disables use of short (400 ns) guard interval in 80 MHzMegahertz mode.

Default: Enabled.

Supported MCS set

Displays a list of Modulation Coding Scheme (MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput.) values or ranges of values to be supported on this SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network.. The MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. you choose determines the channel width (20 MHzMegahertz vs. 40 MHzMegahertz vs. 80 MHzMegahertz) and the number of spatial streams used by the mesh node.

Default: 0-31

MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. value of 16-23 are supported on 130 Series, RAP-155, and 11ac APs only.

MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. value of 24-31 are supported on 320 Series APs only.

VHT - Supported MCS map

Displays a list of supported MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. map for very high throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network.. Comma separated list of maximum supported MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. for spatial streams 1 through 4. Valid values for maximum MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. are 7, 8, 9, and '-' (if spatial stream is not supported). Maximum MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. of a spatial stream cannot be higher than the previous streams. If an MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. is not valid for a particular combination of bandwidth and number of spatial streams, it will not be used for Tx and Rx.

Default: 9,9,9,9.

VHT - Explicit Transmit Beamforming

Displays if VHTVery High Throughput. IEEE 802.11ac is an emerging VHT WLAN standard that could achieve physical data rates of close to 7 Gbps for the 5 GHz band. Explicit Transmit Beamforming status is enabled or disabled for the 802.11ac802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band.-capable APs. When this feature is enabled, the AP requests information about the MIMOMultiple Input Multiple Output. An antenna technology for wireless communications in which multiple antennas are used at both source (transmitter) and destination (receiver). The antennas at each end of the communications circuit are combined to minimize errors and optimize data speed. channel and uses that information to transmit data over multiple transmit streams using a calculated steering matrix. The result is higher throughput due to improved signal at the beamformee (the receiving client). If this parameter is disabled, all other transmit beamforming settings will not take effect.

Default: Enabled.

VHT - Transmit Beamforming Sounding Interval

Displays the time interval in milliseconds between updates of VHTVery High Throughput. IEEE 802.11ac is an emerging VHT WLAN standard that could achieve physical data rates of close to 7 Gbps for the 5 GHz band. Transmit Beamforming channel estimation. (802.11ac802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band.-capable APs only)

NOTE: This is applicable for 802.11ac802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band.-capable APs only.

Default: 25 milliseconds.

VHT - Multi User Transmit Beamforming

Displays if the VHTVery High Throughput. IEEE 802.11ac is an emerging VHT WLAN standard that could achieve physical data rates of close to 7 Gbps for the 5 GHz band. Multi-User Transmit Beamforming is enabled or disabled. If this parameter is disabled, all other Multi-User Transmit Beamforming configuration parameters have no effect.

NOTE: This parameter is applicable for 320 Series APs only.

Default: Enabled.

Maximum VHT MPDU size

Displays the maximum size of a VHTVery High Throughput. IEEE 802.11ac is an emerging VHT WLAN standard that could achieve physical data rates of close to 7 Gbps for the 5 GHz band. MPDUMAC Protocol Data Unit. MPDU is a message exchanged between MAC entities in a communication system based on the layered OSI model..

Default: 11454 bytes.

Maximum number of MSDUs in an A-MSDU on best-effort AC

Displays the maximum number of MSDUs in a TX A-MSDU on best-effort Access Category (ACAccess Category. As per the IEEE 802.11e standards, AC refers to various levels of traffic prioritization in Enhanced Distributed Channel Access (EDCA) operation mode. The WLAN applications prioritize traffic based on the Background, Best Effort, Video, and Voice access categories. AC can also refer to Alternating Current, a form of electric energy that flows when the appliances are plugged to a wall socket.).

Default: 2.

NOTE: In tunnel and decrypt-tunnel forwarding mode, TX A-MSDU is disabled if the value is set to 0. If the value is set to non-zero, TX A-MSDU is enabled and set to this value.

Maximum number of MSDUs in an A-MSDU on background AC

Displays the maximum number of MSDUs in a TX A-MSDU on background ACAccess Category. As per the IEEE 802.11e standards, AC refers to various levels of traffic prioritization in Enhanced Distributed Channel Access (EDCA) operation mode. The WLAN applications prioritize traffic based on the Background, Best Effort, Video, and Voice access categories. AC can also refer to Alternating Current, a form of electric energy that flows when the appliances are plugged to a wall socket..

Default: 2.

NOTE: TX A-MSDU is disabled if the value is set to 0. In decrypt-tunnel forwarding mode, TX A-MSDU on background ACAccess Category. As per the IEEE 802.11e standards, AC refers to various levels of traffic prioritization in Enhanced Distributed Channel Access (EDCA) operation mode. The WLAN applications prioritize traffic based on the Background, Best Effort, Video, and Voice access categories. AC can also refer to Alternating Current, a form of electric energy that flows when the appliances are plugged to a wall socket. is disabled and assigning any value has no effect.

Maximum number of MSDUs in an A-MSDU on video AC

Displays the maximum number of MSDUs in a TX A-MSDU on video ACAccess Category. As per the IEEE 802.11e standards, AC refers to various levels of traffic prioritization in Enhanced Distributed Channel Access (EDCA) operation mode. The WLAN applications prioritize traffic based on the Background, Best Effort, Video, and Voice access categories. AC can also refer to Alternating Current, a form of electric energy that flows when the appliances are plugged to a wall socket..

Default: 2.

NOTE: TX A-MSDU is disabled if the value is set to 0. In decrypt-tunnel forwarding mode, TX A-MSDU on video ACAccess Category. As per the IEEE 802.11e standards, AC refers to various levels of traffic prioritization in Enhanced Distributed Channel Access (EDCA) operation mode. The WLAN applications prioritize traffic based on the Background, Best Effort, Video, and Voice access categories. AC can also refer to Alternating Current, a form of electric energy that flows when the appliances are plugged to a wall socket. is disabled and assigning any value has no effect.

Maximum number of MSDUs in an A-MSDU on voice AC

Displays the maximum number of MSDUs in a TX A-MSDU on voice ACAccess Category. As per the IEEE 802.11e standards, AC refers to various levels of traffic prioritization in Enhanced Distributed Channel Access (EDCA) operation mode. The WLAN applications prioritize traffic based on the Background, Best Effort, Video, and Voice access categories. AC can also refer to Alternating Current, a form of electric energy that flows when the appliances are plugged to a wall socket..

Default: 0.

NOTE: TX A-MSDU is disabled if the value is set to 0. In decrypt-tunnel forwarding mode, TX A-MSDU on voice ACAccess Category. As per the IEEE 802.11e standards, AC refers to various levels of traffic prioritization in Enhanced Distributed Channel Access (EDCA) operation mode. The WLAN applications prioritize traffic based on the Background, Best Effort, Video, and Voice access categories. AC can also refer to Alternating Current, a form of electric energy that flows when the appliances are plugged to a wall socket. is disabled and assigning any value has no effect.

Related Commands

Command

Description

wlan ht-ssid-profile

This command configures a high-throughput SSIDService Set Identifier. SSID is a name given to a WLAN and is used by the client to access a WLAN network. profile.

Command History

Version

Description

ArubaOS 8.0.0.0

Command introduced.

Command Information

Platforms

Licensing

Command Mode

All platforms

Base operating system.

Enable or Config mode on Mobility Master.

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