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Panel

In this Sectionsection:

Table of Contents

Overview

This section describes the following aspects of creating a GPU ISBC on KVM:

  • Host configurations 
    -  Enabling GPU passthrough and CPU pinning on KVM host.

  • VM configurations 
    - Launching the KVM instance 
    - Associating the GPU PCIe device to the instance
    - Enabling CPU pinning

  • Installation procedure
    - OS and SBC Application installation

  • SBC configurations
    - Applying custom GPU traffic profile.

Host Configurations

This section describes the changes required on the KVM host to enable:

    • GPU passthrough and 
    • CPU pinning

 

Caption
0Table
1OS Configuration for KVM host with GPU Device
Step
Action
Notes
1

Edit /etc/sysconfig/grub to ensure that the following parameters are populated:

intel_iommu=on iommu=pt rdblacklist=nouveau
  • Enables kernel support for PCIe passthrough.
  • Blacklists opensource NVIDIA driver (nouveau) from loading on the host.
2

Update grub using the following command:

grub2-mkconfig -o /etc/grub2.cfg
3

Edit /etc/systemd/system.conf to the CPUAffinity parameter is uncommented

and it is populated with the CPUs that needs to be left to the host processes.

Isolates the remaining CPUs from the host.

4

Create /etc/modprobe.d/nouveau.conf file with the following contents:

blacklist nouveau
Blacklists opensource NVIDIA driver (nouveau) from loading on the host.
5Reboot the KVM host. 
 

 

VM Configurations 

This section covers following aspects:

  1. Creation of KVM instance.
  2. Associating the GPU PCIe device to the KVM instance.
  3. Apply CPU pinning configurations to the KVM instance.

Steps in detail:

    1. Select Add Hardware Hardware option as shown below:

      Caption
      0Figure
      1Add Hardware

      Image Modified




    2. Select PCI Host Device option as shown below:

      Caption
      0Figure
      1PCI Host Device

      Image RemovedImage Added




    3. From the list of PCI devices, scroll and select the GPU PCIe device/s to be allocated to the instance as shown below:

      Caption
      0Figure
      1Select the GPU PCIe Device/s

      Image Modified



    4. Select Finish to allocate the selected PCIe device.
    5. Start the instance.

SBC Installation Procedure

SBC Configuration

After installing the OS and the SBC, the application will be up with the default traffic profile being activated.

To apply the custom GPU profile, execute the following CLI command by entering the CLI mode using admin user (enter into the configuration mode):

 

  • Create a codecMix profile with the codecs to be configured for GPU transcoding:

    Code Block
    % set system sweCodecMixProfile <profile name> <codec> <ptime value: 10ms, 20ms, 30ms, 40ms, 60ms, 80ms, 100ms> percentage <percentage value>

     

     

    Parameter
    Length/Range
    Description
    <codec>N/A

    Enter the codec used by this Codec Mix Profile. Select one of the currently supported codecs:

    • GPU + CPU codecs : AMR-NB, AMR-WB, EVRC, EVRCB, G729, G722, G711
    • CPU only codecs :  G723, G726, G7221, ILBC, OPUS, SILK_8, SILK_16, EVS, G7112G711, T38

    Note:

    - For more information on "GPU + CPU codecs", see the section Support for CPU+GPU Hybrid Transcoding Instances.

    - You can provision CPU codecs in the codec profile and associate it with the GPU traffic profile; however, you must provision at least one GPU codec in the sweCodecMixProfile.

    <ptime value>N/A

    Select a packetization time value representing 10 ms, 20 ms, 30 ms, 40 ms, 60 ms:

    • p10
    • p20
    • p30
    • p40
    • p60
    • p80
    • p100

    Note: For SBC SWe Cloud 8.1, ptime values p80 and p100 are not tested.

    percentage0.00-100.00<% value> – The percentage distribution allocated for the codec mix. The sum of all percentage entries of all columns in any row of the transcoding profile table must equal 100.

    sweCodecMixProfile1-40 characters

    <profile name> – Enter a unique SWe Codec Mix Profile name or one of the default profiles:

    The SWe Codec Mix Profile is attachable to transcodingCodecProfile objects of the SWe Traffic Profile.

     

    For example, to configure a codec profile for AMRWB-G711u transcoding, run the following command:

    Code Block
    % set system sweCodecMixProfile customCodecMix amrwb p20 percentage 50
    % set system sweCodecMixProfile customCodecMix g711  p20 percentage 50
    % commit

     


  1. Create a traffic profile. Set the transcodingCodecProfile with the codecMix profile created in step 1.

    Code Block
    % set system sweTrafficProfiles <profile name> isAccess <value> callHoldTime <duration> passthroughCodecProfile <profile name> transcodePercent <percentage> transcodingCodecProfile <profile name> useGPUForTranscoding <value> 
    Parameter
    Length/Range
    Description
    sweTrafficProfiles1-40 characters

    <profile name> – Enter a unique SWe Traffic Profile name.

    NOTE: To create additional profiles, delete any inactive custom profiles.

    isAccessN/A

    Set this flag to "true" to specify whether the deployment uses an access scenario.

    • false (default)
    • true

    NOTE: When set to 'true', internalRefreshTimer, registrationRefreshInterval and bhcaPerSubscriber parameters are available for configuration.

    bhcaPerSubscriber0-5

    <# attempts> (default = 1) – Indicates busy hour call attempts (BHCA) per subscriber.

    NOTE: This parameter is available when accessScenario = "true".

    callHoldTime

    10-10800<# seconds> – Enter the average call hold time, in seconds, of the call load for this profile. (default = 90)
    cryptoPercent0-100

    <% value> (default = 0) – The percentage of media sessions (including both transcoding and passthrough) requiring cryptographic treatment.The value is 50 when there is SRTP<->RTP interworking on all calls.

    directMediaPercent0-100

    <% value> (default 0) – The call load percentage for direct media.

    NOTE: The combined total percentage of directMediaPercent and transcodePercent should not exceed 100%.

    passthroughCodecProfileN/A

    The name of the codec mix to associate with the Passthrough Codec Profile.

    • G711_20ms
    processorCapabilityIndexOverrideN/A

    Use this flag to enable/disable index overriding of the default CPU performance computation by the SBC SWe. When set to 'true', the computed indices (which are calculated during system boot-up) are ignored, and the value provided in processorCapabilityIndexOverrideValue attribute is used for all estimations.

    • false (default)
    • true

    NOTE: Since use cases for overriding the default computed indices are rare, it is recommended to not set the value of processorCapabilityIndexOverride to "true" to avoid inaccurate session numbers and vCPU computations.

    processorCapabilityIndexOverrideValue0.2-10

    Use this parameter to specify the computational value to use to override the default computed indices. (default = 1)

    NOTE: This parameter is available when processorCapabilityIndexOverride is set to "true". The value given should be in 0.2 to 10.

    internalRefreshTimer15-86400

    <# seconds> (default = 1800) – Use this parameter to specify the internal registration timer, in seconds.

    NOTE: The parameter is available only when isAccess is set to "true".

    externalRefreshTimer15–86400

    <# seconds> (default = 1800) – Use this parameter to specify the external registration timer, in seconds.

    NOTE: The parameter is available only when isAccess is set to "true".

    transcodePercent0-100

    <% value> (default = 0) – Use this parameter to specify the percentage of call load to use for transcoded calls.

    NOTE: The combined total percentage of directMediaPercent and transcodePercent should not exceed 100%.

    transcodingCodecProfileN/A

    The name of the codec mix to associate with the Transcoding Codec Profile.

    tonesPercent0-100<% value> (default = 0) – Use this parameter to specify the percentage of legs to use for tones treatment.
    useGPUForTranscodingN/A

    Set this flag to "true" to specify whether the deployment uses GPU for transcoding.

    • false (default)
    • true

     

    For example: To create a custom GPU profile with the name custom_gpu_profile using the codecMixProfile created in step 1 for trascoding profile:

    Code Block
    % set system sweTrafficProfiles custom_gpu_profile callHoldTime 100 transcodePercent 50 passthroughCodecProfile G711_20ms transcodingCodecProfile customCodecMix useGPUForTranscoding true
    % commit

     

     

  2. Activate the traffic profile created in Step 2.

    Code Block
     % set system sweActiveProfile name <profile name>

    Where the profile name is the custom traffic profile name given in step 2.

    For example, to activate the custom GPU traffic profile created in step 2, run the following command:

    Code Block
    % set system sweActiveProfile name custom_gpu_profile
    % commit
    Info

    The instance will reboot and comes up in the activated traffic profile.

  3. To check which profile is activated, run the following command:

    Code Block
    > show table system sweActiveProfile

     

    Example: 

    Code Block
    admin@vsbc1> show table system sweActiveProfile
    name custom_gpu_profile;
    stateChangeTime 2018-12-09T13:25:43-00:00;
    [ok][2018-12-11 01:29:03]
    admin@vsbc1>

 


Anchor
HybridTranscoding
HybridTranscoding
Support for CPU+GPU Hybrid Transcoding Instances

The term "Hybrid Transcoding" implies leveraging both CPU and GPU resources efficiently to accommodate a given codec combination for transcoding capability. With Hybrid Transcoding, a suitable VM instance (SBC SWe on KVM/Openstack) utilizes all the CPU and GPU resources allocated to it for provisioning a given transcode call mix scenario.

Prior to Hybrid Transcoding, the SBC supported either a pure CPU transcoding solution, or a pure GPU transcoding solution. However, in the pure GPU solution, many CPUs are left unused. For example, when a 32 vCPU, GPU-ISBC instance is used to provision just AMRWB-G711u calls, only 13 vCPUs are used, although such an instance can handle 7680 sessions for AMRWB-G711u transcoding. With Hybrid Transcoding, the remaining 19 vCPUs (32-13 vCPUs) are used for provisioning additional AMRWB-G711 sessions.

Hybrid Transcoding enables a GPU-SBC to support GPU codecs as well as non-GPU-supported codec in the same instance. For example, AMRWB-G711 and G726-G711 codecs are supported in the same instance. 

Hybrid Transcoding is supported in Custom GPU and Standard GPU traffic profiles.

For Hybrid Transcoding, the percentage value of the codec G7112G711 in sweCodecMixProfile indicates the proportion of total number of sessions designated for pure G711 transcoding (G711-G711). This is applicable for Hybrid Transcoding, as well as pure CPU transcoding solutions.

Info
titleNote

The percentage value for G7112G711 is used for estimating transcode and bandwidth cost.

The percentage value for G711 is not used for estimating transcode cost, but is used for bandwidth calculation of PXPAD scenarios.

The percentage value for G711 cannot be greater than the percentage value of non-G711 codecs.

The sum of all codec percentages is100.

DSP-based Tone detection is supported only on GPU-ISBC profile.

Best Practice

Ribbon recommends monitoring of the status of codec channel capacities for codecs provisioned on GPU (on a per GPU device basis), as well as on CPU.

  • To display the status of codec channel capacities for codecs provisioned on GPU, on a per GPU device basis, execute the following existing command:

    Code Block
    > show table system gpuTranscodeStatus
  • Similarly, to display the status of codec channel capacities for codecs provisioned on CPU, execute the following existing command:

    Code Block
    > show table system cpuTranscodeStatus

To display the status using the EMA, refer to:

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