Q-LAN relies on the performance of modern network switches to ensure real-time delivery and synchronicity of media streams across all connected Q-SYS devices. Read this topic to understand your options in choosing a network switch, as well as the requirements for compatibility with Q-LAN.
QSC has several networking options for the Q-SYS Platform. For more information about these options, see Q-SYS Networking Solutions on the QSC website.
Q-SYS NS Series are a range of enterprise-grade, Dell EMC-manufactured network switches that have been pre-configured by QSC to specifically to meet the performance requirements of the Q-SYS Platform. They provide an out of box, plug-and-play networking solution for Q-SYS integrators looking to install local AV networks.
NS Series network switches support Q-LAN, AES67 and Dante audio streams, in addition to Q-LAN video streaming and distribution simultaneously within the same VLAN without the need for manual configuration of switches or end-point devices.
For more information, see Q-SYS NS Series Network Switches on the QSC website.
For deployments where the Q-SYS NS Series network switches are not suitable, QSC offers independent network switch qualification services through the University of New Hampshire Interoperability Labs (UNH-IOL), an independent provider of broad-based testing and standards conformance services for the networking industry.
The lab features a newly defined Q-SYS network protocol test suite, offering a complete test and validation of your network switch within the entire Q-SYS eco-system. This is recommended if you are deploying Q-SYS on a converged network and need to verify that your network switch meets the performance needs of Q-SYS.
Contact the UNH-IOL InterOperability Lab for more details.
There are a number of managed Ethernet switches on the market today that provide the necessary performance for real-time media distribution on your Q-SYS network. QSC is unable to provide live configuration support for third-party switches, but does provide switch requirements information (including within this topic) and configuration examples for specific switch models.
See Additional Switch Documents on the QSC website for switch configuration examples, networking resources , and a list of switches with known Q-SYS compatibility and performance issues.
Note: Manual network switch configuration is only recommended for experienced integrators and IT administrators who are comfortable assessing network switch configuration capabilities.
These are the required and recommended network switch performance characteristics for satisfactory operation with Q-LAN traffic.
Must have non-blocking wire-speed Gigabit Ethernet and no dropped packets because of internal bandwidth constraints.
Must support DiffServ (DSCP) packet classification. (Auto-QoS does not result in proper configuration for Q-LAN.)
Must be able to recognize and prioritize at least two high-priority traffic classes by their DSCP values or other means, in addition to best-effort traffic.
Must have at least four egress queues per port.
Each switch port carrying audio or video traffic must have at least 40 kB egress buffering memory.
Must support Strict Priority queuing (SP). Weighted round-robin (WRR), weighted fair queuing (WFQ), or other selection methods do not guarantee the latency performance required by real-time media systems such as Q-LAN. Note that Cisco Low-Latency Queuing (LLQ) only provides a single Strict Priority queue for multiple traffic classes, so bandwidth guarantees must be given to PTP traffic (8192 kb/s Committed Information Rate).
Must support IGMPv2 snooping and have access to an IGMPv2 querier, either on the network switch itself or hosted elsewhere on the network.
These networking features and settings may affect performance with Q-SYS.
Configure the following L2 functions for any switch ports that carry Q-SYS traffic:
QSC recommends that you disable Energy Efficient Ethernet (IEEE 802.3az) on switches that offer this feature. Some switch manufacturers offer their own version of a power saving mode or energy optimization mode, but the concepts are generally the same as those for the IEEE standard. These mechanisms attempt to reduce the drive current or wake time for a given LAN port by detecting the strength of the link partner, the length of the attached network cable, or the rest or idle periods between packet deliveries and placing the port into sleep or quiescent mode.
You can change the DSCP settings for PTPv2, Q-SYS audio, and Q-SYS video to allow custom QoS mapping – see Design Properties. You must, however, maintain the priority hierarchy of PTPv2 highest; Q-SYS Audio second highest; and Q-SYS Video third highest.
For more details on Q-SYS QoS and DSCP, see QoS (Quality of Service) and the Q-LAN Networking Overview document.
Q-LAN |
Audinate |
Manual |
|
---|---|---|---|
PTPv2 |
46 |
56 |
(User-selected) |
Q-SYS Audio |
34 |
46 |
(User-selected) |
Q-SYS Video |
26 |
26 |
(User-selected) |
QSC provides a number of resources to assist with your manual switch configuration for the Q-SYS Platform. See Additional Switch Documents on the QSC website for switch configuration examples, networking resources , and a list of switches with known Q-SYS compatibility and performance issues.
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