Professional SMPTE-2110 Settings
HyperDeck ISO Recorder 100G is very easy to use and doesn’t require IT specialists because the Ethernet IP Video can be connected point to point. So you can use the Ethernet connections the same way as BNC SDI cables! However, when you start building large SMPTE-2110 systems using network switches, you need a range of settings to get everything working right. Simply use the free utility software to update all these settings. The utility software runs on both Mac and Windows computers. You can update settings for the Grandmaster Clock so all your cameras, switchers and decks can lock to it. You can also set up NMOS routing control and name the senders and receivers to make routing video easy.
2022-7 Redundancy
The HyperDeck ISO Recorder 100G has 2 x separate 100G Ethernet ports, which means it supports SMPTE-2110 redundancy. SMPTE-2110 redundancy sends two identical copies of your video and audio across two separate network connections. This works even better if you connect the redundant Ethernet ports to completely separate Ethernet switches. This redundancy is called SMPTE 2022-7 Seamless Protection Switching and it compares the incoming RTP packets on both Ethernet connections by sequence number and then reconstructs a perfect video frame from whichever packet of pixels arrives first. The switchover is real time and totally seamless with no dropped frames or audio glitches!
Receiver and Sender Settings
The sender and receiver settings configure the product’s role in a SMPTE-2110 system. For example, the sender will package the video, audio, or metadata output and then send them via separate IP streams across your network. Then the receiver does the opposite, where it will "subscribe" to incoming IP streams and reconstruct them as the video input. To set this up, you can define the destination multicast address, port number and stream format for each essence type. So a camera would be a sender while a monitor or switcher input would be a receiver. Correctly configuring these settings ensures your 2110 IP streams reach the right destinations and are decoded properly.
NMOS Registry
The NMOS Registry setting is where the central NMOS Registration and Discovery Server is on your network. NMOS is the routing control that works with SMPTE-2110 video and it manages connections between the senders and receivers to route video. Once set up, it "registers" itself using the IS-04 Discovery protocol so other IP video products and controllers can find it and accepts connections via IS-05 Connection Management protocol. The NMOS registry is like a phonebook of products on your network where every device checks in, advertises its streams and can then be routed by a control panel. Without an NMOS Registry, it would be impossible to manage and route video in a large 2110 system!
Multicast Address
There are settings to let you customize your multicast addresses for each video, audio, and ancillary stream, so they can be logically grouped by your IP video network. A multicast address is a special IP address with a range from 224.0.0.0 through to 239.255.255.255 that allows one-to-many communication. This efficiently sends video, audio, and ancillary streams to multiple receivers simultaneously. The sender won't need to send the same information to each receiver because it is delegating this task to the network switch, saving on bandwidth and network topology.
PTP Clock Settings
Traditionally, professional video products use tri-sync or black burst as a reference, but SMPTE-2110 IP products use a different reference called Precision Time Protocol or PTP. The utility software has all the settings you need to configure PTP in large broadcast systems. A Grandmaster clock distributes accurate time across the IP network to your cameras, switchers and decks, which lock to it. This ensures video, audio and metadata streams align perfectly at the receiver, even when traveling as independent IP flows. PTP is hierarchical with the Grandmaster at the top, Boundary Clocks in switches relay timing downstream and PTP clients continuously adjusting to stay synchronized.
Domain Number
The setting for PTP Domain Number lets you set which PTP clock group you want to lock to. Then you will only sync to Grandmasters sharing the same domain, so you can have multiple independent PTP systems coexist on the network.
Master
The PTP Master setting controls whether your device can act as a Grandmaster Clock candidate, distributing timing to other devices on the network, or operates as a client that receives time from and locks to an existing Grandmaster.
PTP Lock
The PTP Lock indicator shows whether you have successfully synchronized to a Grandmaster Clock on the network. When locked, it means you are receiving accurate timing and ready to process SMPTE-2110 streams in sync with the larger system.
Priority
The PTP Priority setting determines who becomes the Grandmaster when multiple generators exist. A lower values mean higher priority. The network uses this during the "Best Master Clock Algorithm" to automatically select the preferred clock source.
Announce Interval and Timeout
PTP Announce Interval sets how often a Grandmaster sends announce messages advertising itself. The timeout defines how many missed intervals before a device assumes the Grandmaster is lost and triggers a new best master clock selection.
Follower Only Mode
When adding a new device, PTP can be sensitive to higher priority clocks, causing the whole network to resynchronize to the new PTP clock. With Blackmagic IP products, you can set the priority to "Follower Only" mode to make sure this never occurs.
Real Time Status Information
The utility also has a wide range of status information, so you can double check everything is working smoothly before your job starts! You can monitor the speed of all fans to check they are operating correctly and also monitor the temperature of the CPU. You also get real time updates of the data rates on the SMPTE-2110 network ports. There is also status of the network connection on the QSFP ports as well as the module temperature.
