| Add_workflow_for_techpubs |
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| AUTH1 | UserResourceIdentifier{userKey=8a00a0c85b2726c2015b58aa779d0003, userName='null'} |
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| JIRAIDAUTH | CHOR-3624744 |
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| REV5 | UserResourceIdentifier{userKey=8a00a0c85b2726c2015b58aa779d0003, userName='null'} |
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| REV6 | UserResourceIdentifier{userKey=8a00a0c85b2726c2015b58aa779d0003, userName='null'} |
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| REV3 | UserResourceIdentifier{userKey=8a00a02355cd1c2f0155cd26cef30cd0, userName='null'} |
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| REV4 | UserResourceIdentifier{userKey=8a00a02355cd1c2f0155cd26c91d01f9, userName='null'} |
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| REV1REV2 | UserResourceIdentifier{userKey=8a00a02355cd1c2f0155cd26ca2f03d1, userName='null'} |
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| Note |
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Note: For details on calculating DSP Requirements for and determination of VM attributes to host the SBC SWe Lite, refer to Calculating DSP Requirements for SBC SWe Lite. |
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| Multiexcerpt |
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| MultiExcerptName | Performance |
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| Call Performance - KVM, VMware, Microsoft Hyper-V On-Premises Deployments |
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| SWe Lite Virtual Machine Resources, applicable to all supported hypervisors (KVM, VMware® Microsoft Hyper-V) |
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corresponding
RTP Media Sessions1 | SIP Signaling |
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| Session Limits | Maximum Call Rate Setup (CPS) |
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| (No Virtual DSP Intervention) | Audio/Video Streams3 | | vCPU # | GB RAM | Maximum TCP/TLS-based |
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| SIP↔SIP Signaling Sessions | Maximum SIP Registrations (60 minute refresh rate) | No transcode, with in-band services scenario | Default |
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| scenario: G.711/G.729ab RTP ↔ G.729ab/G. |
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| 711SRTP, with in-band services |
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| Encryption services: G.711 RTP ↔ G.711 SRTP |
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| No encryption services: RTP |
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| ↔ RTP/SRTP ↔ SRTP | | 1 | 1 GiB | 100 |
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| | 4 | 2.5 GiB | 1000 | 10004/6005 | 5000 |
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2 G.722 (AMR) reduces values by 30%.
3 SWe Lite supports 25 video streams per vCPU to a maximum of 100 streams. Exceeding 4 vCPUs will not allow more than 100 video streams.
| 10006 | 10006 | 100 | 10 | | 10 | 2.5 GiB | 1000 |
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| 1200 | 5000 | 1200 | 1200 | 1200 | 1200 | 100 | 10 |
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1Maximum number of concurrent sessions. The number assumes that calls are made using RTP/SRTP Proxy mode, or a mix of RTP/SRTP Proxy, media manipulation and video calls. 3Maximum number of concurrent audio/video sessions. The total system capacity is affected if A/V calls are introduced into the call mix. Maximum number of calls is reduced by the number of video streams used. For example, 1 vCPU instance processing 25 A/V calls has a total capacity of: 300 (max number of calls) - 25 (calls processed with 1 vCPU instance) = 275 calls. 4Maximum number of concurrent sessions (when virtual DSP intervention is applied to 450 sessions) is 1000. 5Maximum number of concurrent sessions (when virtual DSP intervention is applied to 600 sessions) is 600. 6Maximum number of proxy media mode concurrent sessions is reduced by a count equivalent to the active number of concurrent RTP media manipulation sessions. Refer to note 1.
| Caption |
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| 0 | Table |
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| 1 | Call Performance - Microsoft Azure Cloud |
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| Azure Virtual Machine (VM) Resources | Maximum SIP
with corresponding
RTP Media Sessions1 | SIP Signaling Session Limits | RTP Media Session Limits | | Media Manipulation Mode2 (Requires Virtual DSP Intervention) | Proxy Media Mode (No Virtual DSP Intervention) | | VM Instance | vCPU | Maximum TCP/TLS-based SIP↔SIP Signaling Sessions | Maximum SIP Registrations (60 minute refresh rate) | No transcode, with in-band services scenario | Default scenario: G.711/G.729ab RTP ↔ G.729ab/G.711SRTP, with in-band services | Encryption services: G.711 RTP ↔ G.711 SRTP | No encryption services: RTP ↔ RTP/SRTP ↔ SRTP | | B1MS | 1 | 10 | 10 | 100 | 10 | 10 | 103 | 103 | | F1s | 1 | 300 | 300 | 1000 | 100 | 100 | 3003 | 3003 | | F2s | 2 | 1000 | 1000 | 1000 | 200 | 200 | 4003 | 10003 | | F4s | 4 | 1000 | 1000 | 5000 | 400 | 400 | 4503 | 10003 |
1Maximum number of concurrent sessions. The number assumes that calls are made using RTP/SRTP Proxy mode, or a mix of RTP/SRTP Proxy, media manipulation and video calls. 2Maximum number of concurrent sessions with virtual DSP intervention. See Transcoding Capacity below for details. 3Maximum number of proxy media mode concurrent sessions is reduced by a count equivalent to the active number of concurrent RTP media manipulation sessions. Refer to note 1. |
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| Note |
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| title | Number of RTP Port Pairs must be increased above maximum call capacity |
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| The number of RTP Port Pairs must be configured slightly larger than the actual number of ports required to support the projected number of calls. We recommend you over-allocate the number of port pairs by approximately 25 - 30% above the number of calls you want to support. For details, see Configuring the Media System. |
| Limitation with Additional Logging | - Call capacity is limited to 4 calls per second when Info level logging is enabled. Additional logging verbosity reduces the call capacity.
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note- Although the call setup rate is 10 calls per second, if Call Admission Control (CAC) is enabled, calls over the rate limit will be rejected with the message 480 Temporary Not Available.
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Transcoding CapacityThe table below indicates the maximum number of concurrent transcoded calls for specific CODEC combinations and system size.
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| MultiExcerptName | Transcoding - For KVM, VMWare and Microsoft Hyper-V |
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| 0 | Table |
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| 1 | Transcoding Capacity - KVM, VMware, Microsoft Hyper-V On-premises Deployments (1, 2, 4 vCPU) |
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| Transcoding Scenario | Virtual Machine vCPU Count | | CODEC 1 | CODEC 2 | 1 vCPU | 2 vCPU | 4 vCPU |
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| G.711A-law or G.711u-law | G.711A-law or G.711u-law | 100 | 200 | 600 | | G.711A-law or G.711u-law | G.723 | 80 | 160 | 480 | | G.711A-law or G.711u-law | G.726 or G.729 | 100 | 200 | 600 | | G.711A-law or G.711u-law | AMR WB | 38 | 76 | 225 | | G.711A-law or G.711u-law | Opus | 24 | 54 | 165 | | G.711A-law or G.711u-law | T.38 | 50 | 100 | 300 |
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| 0 | Table |
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| 1 | Transcoding Capacity - KVM, VMware, Microsoft Hyper-V On-premises Deployments (10 vCPU) |
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| CODEC 1 | CODEC 2 | 10 vCPU |
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| G.711A-law or G.711u-law | G.711A-law or G.711u-law | 1200 | | G.711A-law or G.711u-law | G.729 | 1200 | | Opus | G.711A-law/mu-law | 360 |
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| MultiExcerptName | Transcoding - For Azure |
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| 0 | Table |
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| 1 | Transcoding Capacity - Microsoft Azure Cloud Deployments |
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| Transcoding Scenario | Microsoft Azure VM Instance | | CODEC 1 | CODEC 2 | B1MS VM | F1s VM | F2s VM | F4s VM |
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| G.711A-law or G.711u-law | G.711A-law or G.711u-law | 10 | 100 | 200 | 400 | | G.711A-law or G.711u-law | G.726 or G.729 | 10 | 100 | 200 | 400 |
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SBC SWe Lite Single Instance Capacities
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| Caption |
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| 0 | Table |
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| 1 | SBC SWe Lite Maximum Configuration Values |
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Feature | Maximum supported |
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Number of Signaling Groups | 100 | Cumulative number of channels* across all the Signaling Groups | 1000 (1 vCPU) 4000 (2 vCPU |
or 4vCPU, 4 vCPU, or 10 vCPU) | | Call Route Tables | 100 | Call Route Entries (all Call Route Tables combined) | 1000 | | Static Routes | 1024 | Registrar Table entries | 1000 (1 vCPU, 1 GiB)
5000 (2 vCPU, 1.5 GiB)
5000 (4 vCPU or 10 vCPU, 2.5 GiB) | Contact Registrant Table entries | 1000 | | Transformation Tables | 50 | Transformation Table entries | 1000 | Media Profiles entries | 20 | | Callback Number Tables | 80 | | Callback Numbers (in Callback Numbers List) | 16 | | SIP Server Table entries | 40 | | IP/FQDN or DNS-SRV entries (within each SIP Server Table entry) | 99 | | SIP Message Rule Tables | 100
(32 SIP Message Rules per Table) | | SIP Profiles | 100 |
*A SIP Channel is defined as a single call a Signaling Group (SG) logical attribute used to represent a potential path for a SIP session (call) leg between the SBC Edge and one subtended SIP Clientand the remote peer associated with the SG. The SIP channel is not synonymous with a SIP session; the number of SIP channels may equal or exceed the number of supported maximum SIP sessions. |
Call Forking
The
supports local call forking for up to eight separate destinations. Additionally, the
supports up to 20 early dialog responses and 20 calls forked downstream.
SIP Session Licensing
A SIP session for licensing purposes ("for licensing purposes ('SIP session license") is is a call (audio/audio+video) under SBC SBC direction. Details are as follows:
- A SIP session is a SIP transaction that establishes establishes a bi-directional audio/video media exchange (RTP media stream) between between two ports on the SBC or directly between two SIP endpoints.
- SIP sessions are established by the SBC when the system has recognized the availability of SIP session license "tokens" in the SIP session license token pool.
- SIP session license tokens are added to the pool when a SIP session license has been successfully applied to the SBC. For example, the the SBC-1K-LIC25SIP license adds 25 SIP session license tokens to the SBC SIP session license pool.
- To set up the call, the SBC grabs a license token from the purchased SIP session license pool, sets up the call for the bi-directional RTP media stream, and then releases the license token after the call is taken down.
- The media does not have to actually flow through the SBC; the license token is still grabbed to set up the media flow, whether or not the media physically transits the SBC.
- It is possible to consume more than one SIP session license during a single call between two SIP clients. For example, a call that "hairpins" (i.e., one pair of ports supports one RTP media stream through the SBC, and another pair supports a second media stream through the SBC) will consume two SIP session licenses.
SIP transactions that are not directly related to a call setup/tear down are not licensed through the SIP session licenses. Generally, these transactions are free (e.g., SUBSCRIBE, etc.) except when they fall under a chargeable feature. For example, the SBC supports SUBSCRIBE method pass through related transactions (For example, one SIP client to inform another that a message is waiting, etc.) in a way that is limited by available CPU resources, and not by licenses.
For more information on available SIP session license licenses available for purchase, and the procedure to apply licenses to a given SBC device, please refer to Working with Licenses.
Exceptions
A SIP session license is not consumed from the pool of licensed SIP sessions when a SIP↔SIP call has, on all legs (ingress and egress), any one of the following devices identified as the subtended peer:
- SBC Edge (SBC 1000, SBC 2000, and SBC SWe Lite)
- VX
- Tenor
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For clarity, please note a SIP session license is consumed when a single leg (ingress or egress, not both) of a SIP↔SIP call has an SBC Edge, VX or Tenor product identified as the subtended peer.
Burst Behavior
If multiple calls arrive simultaneously, the
will service the calls until it reaches a CPU usage threshold (
~80%configured raise TCA threshold).
| Note |
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Although TCA can be configured, Ribbon strongly recommends using the default configuration and not changing the default levels. For details on TCA, refer to Working with Historical Data and TCA Thresholds. |
- When the threshold is reached, the will reject calls until it reaches a "safe" level (~60% CPU usageconfigured clear TCA threshold).
- When the "safe" level is reached, the will begin accepting new calls.
RTP Media Services Supported
For details on supported RTP media services supportedand licensing requirements, please refer to Calculating DSP Virtual Machine Requirements for an SBC SWe Lite.
System Concepts and Terminology
For details on system concepts and terminology, refer to Calculating DSP Virtual Machine Requirements for an SBC SWe Lite.
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