Video: Audio networking – ask anything you want!

It’s open season with these AES67 audio-over-Ip experts who are all the questions put to them on working with AES67. Not only was AES67 baked in to SMPTE ST 2110-30, it’s also a standard that brings compatability between Dante and RAVENNA as well as other AoIP technologies.

After a quick summary of what AES66 is, this talk quickly moves into answering these, and other questions:

  • How much bandwidth does stereo AES67 require?
  • Can multicast be used within Ravenna
  • Will there be a slipless switching/2022-7 style function?
  • Should receivers automatically adjust to original stream
  • Is it possible to avoid using PTP in an audio-only system?
  • Cost of PTP-capable switches
  • What’s the difference between Boundary Clocks and Transparent Clocks
  • Can AES67 go over the internet?
  • Tools for spotting problems
  • IPMX for Pro-AV update (See this talk)
  • Is NMOS ‘the answer’ for discovery and configuration?
  • Latency for Ravenna and AES67
  • New advancements in the PTP standard.

Watch now!
Speakers

Andreas Hildebrand Andreas Hildebrand
Evangelist,
ALC NetworX
Claude Cellier Claude Cellier
President & CEO
Merging Technologies SA
Claudio Becker-Foss
CTO,
DirectOut
Daniel Boldt Daniel Boldt
Head of Software Development,
Meinberg
Terry Holton Terry Holton
Audio subgroup Chairman,
AIMS
Roland Hemming Moderator: Roland Hemming
Audio Consultant
RH Consulting

Video: Introduction to IPMX

The Broadcast Knowledge has documented over 100 videos and webinars on SMPTE ST 2110. It’s a great suite of standards but it’s not always simple to implement. For smaller systems, many of the complications and nuances don’t occur so a lot of the deeper dives into ST 2110 and its associated specifications such as NMOS from AMWA focus on the work done in large systems in tier-1 broadcasters such as the BBC, tpc and FIS Skiing for SVT.

ProAV, the professional end of the AV market, is a different market. Very few companies have a large AV department if one at all. So the ProAV market needs technologies which are much more ‘plug and play’ particularly those in the events side of the market. To date, the ProAV market has been successful in adopting IP technology with quick deployments by using heavily proprietary solutions like ZeeVee, SDVoE and NDI to name a few. These achieve interoperability by having the same software or hardware in each and every implementation.

IPMX aims to change this by bringing together a mix of standards and open specifications: SMPTE ST 2110, NMOS specs and AES. Any individual or company can gain access and develop a service or product to meet them.

Andreas gives a brief history of IP to date outlining how AES67, ST 2110, ST 2059 and the IS specifications, his point being that the work is not yet done. ProAV has needs beyond, though complementary to, those of broadcast.

AES67 is already the answer to a previous interoperability challenge, explains Andreas, as the world of audio over IP was once a purely federated world of proprietary standards which had no, or limited, interoperability. AES67 defined a way to allow these standards to interoperate and has now become the main way audio is moved in SMPTE 2110 under ST 2110-30 (2110-31 allows for AES3). Andreas explains the basics of 2110, AES, as well as the NMOS specifications. He then shows how they fit together in a layered design.

Andreas brings the talk to a close looking at some of the extensions that are needed, he highlights the ability to be more flexible with the quality-bandwidth-latency trade-off. Some ProAV applications require pixel perfection, but some are dictated by lower bandwidth. The current ecosystem, if you include ST 2110-22’s ability to carry JPEG-XS instead of uncompressed video allows only very coarse control of this. HDMI, naturally, is of great importance for ProAV with so many HDMI interfaces in play but also the wide variety of resolutions and framerates that are found outside of broadcast. Work is ongoing to enable HDCP to be carried, suitably encrypted, in these systems. Finally, there is a plan to specify a way to reduce the highly strict PTP requirements.

Watch now!
Speaker

Andreas Hildebrand Andreas Hildebrand
Evangelist,
ALC NetworX

Video: Producing 4K/UHD using IP and 12G-SDI


Held a couple of months before SMPTE 2110 was ratified at IBC, this panel discussion with Riedel, Evertz, EVS and Grass Valley looks at the state of SDI and IP: Which technologies are relevant now and which will win in the long run?

    The conversation covers these topics and more:

  • 12G Vs 3G SDI
  • Versions of UHD SDI
  • When should a vendor implement IP?
  • Will the future include compression?
  • How do you handle variable latencies with compression?

With the first all-IP and 12G-SDI OB trucks beginning to hit the road, and an increasing number of broadcast centres implementing comprehensive IP-based or hybrid infrastructures, this discussion will focus on the issue of connectivity and whether it is advantageous to use SDI or IP infrastructures – or indeed hybrid approaches utilising both. This panel discussion discussed the imperatives behind this dramatic technological change, the challenges that it presents, and the probable roadmap for the next few years. There will also be analysis of current industry initiatives such as AIMS and the ways in which these can help smooth the transition.

This Panel was part of the Broadcast Innovation Day hold by Broadcast Solutions GmbH.
Participants:
Laurent Petit, VP Products, EVS
Simon Reed, Managing Director, Evertz UK
Thomas Riedel, CEO, RIEDEL Communications GmbH & Co. KG
Phil Myers, Former IP Product Manager, Grass Valley (formerly Snell Advanced Media (SAM))
Moderation: David Davies, Managing Editor, SVG Europe

Webinar: Intro IP Video and PTP Timing Webinar


On-Demand Webinar: 21 Minutes

Starting with an overview of the different approaches to uncompressed video over IP, Paul Robinson, then CTO of Tektronix, explains how PTP works and how it is applied in practice. Finishing with a Q&A, these topics are all still relevant in a post SMPTE 2110 world. ST 2110 was built on some of the technologies discussed separately in this talk from 2016 and much can be gained from this understanding.

Watch now