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Video: State of IP Video Networking & Distribution

Posted on by Russell Trafford-Jones


Andy Bechtolsheim from ARISTA Networks gives us an in-depth look at the stats surrounding online streaming before looking closer to home at uncompressed SMPTE ST 2110 productions within the broadcaster premises. Andy tracks the ascent of online streaming with over 60% of internet traffic being video. Recently, the number of consumer devices which have been incorporating streaming functions, whether a Youtube/Netflix app or a form of gaming live streaming has only continued to grow. Within 5 years, it’s estimated that each US household, on average, will be paying for over three and a quarter SVOD subscriptions.

SARS-CoV-2 has had its effect on streaming with Netflix already achieving their 2023 subscriber number targets and the 8-month-old Disney+ already having over 50 million subscribers over the 15 territories they had launched in by May; it’s currently forecast that there will be 1.1 billion SVOD subscriptions in 2025 globally.

The television still retains pride of place in the US both in terms of linear TV share and the place to consume video in general, but Andy shows that the number of households with a subscription to linear TV has dropped over 17% and will likely below 25% by 20203. As he draws his analysis to a close, he points out how significant an effect age has on viewing. Two years ago viewing of TV by over 65s in the US had increased by 8% whereas that of under 24s had fallen by a half.

An example of the incredible density available using IP to route video.

The second part of Andy’s keynote talk at the 2020 EBU Network Technology Seminar covers The Future of IP Networking. In this, he summarises the future developments in network infrastructure, IP production and remote production. Looking at the datacentre, Andy shows that 2017 was the inflexion point where 100G networking took over 40G in deployed numbers. The next big stop, 400G, has just started to take off but is early and may not make 100G numbers for a while. 800 gig links are forecast to start being available in 2022. This is enabled, asserts Andy, by the exponential growth in speed of the underlying chips within switches.

Andy shows us an example of a 1U switch which has a throughput of over 1024 UHD streams. If we compare this with a top-end SDI router solution, we see that a system that can switch 1125×1125 3G HD signals takes two 26RU racks. Taking 4 signals per UHD signal, the 1U switch has 3.6 times the throughput than a 52U SDI system. He then gives a short primer on 400G standards such as 400G for fibre, copper etc. along with the distance they will reach.

Now looking towards The New IP Television Studio Andy lays out how many SDI streams you can get into 100G and 400G links. For standard 3G HD, 128 will fit into 400G. Andy discusses the reduction in size of routers and of cabling before talking about examples such as CBC. Finally, he points out that with fibre, round trip times for 1000km can be as low as 10ms meaning that, any European event can be covered by remote production using uncompressed video such as the FIS World Ski Championships. We’ve seen, here on The Broadcast Knowledge that even if you can’t use uncompressed video, using JPEG XS is a great, low-latency way of linking 2110 workflows and achieving remote production.

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Speakers

Andy Bechtolsheim Andy Bechtolsheim
Founder,
ARISTA Networks

Video: ST 2110-41 Fast Metadata – Under the Hood and Applications

Posted on by Russell Trafford-Jones

Why would you decode 12Gbps of data in order to monitor for an occasional SCTE switching signal or closed captions? SMPTE 2110 separates video, audio and metadata freeing up workflows to be more flexible. But so far, SMPTE 2110 only defines how to take the metadata used in SDI under SMPTE 291. The point of freeing up workflows is to allow innovation, so this talk looks at SMPTE ST 2110-41 which allows for more types of data to be carried, time synchronised with the other essences.

Paul Briscoe joins us at the podium to explain why we need to extend SMPTE ST 2110-40 beyond SDI-compatible metadata. He starts by explaining how ST 2110 was intended to work well with SDI. Since SDI already has a robust system for Ancillary Data (ANC Data), it made sense for 2110 to support that first in a 100% compatible way. One of the key characteristics of metadata is that it’s synchronised to the other media and we expect the decoders to be selective over what it acts on, explains Paul. The problem that he sees, however is that if you wanted to send some XML, JSON or other data which has never been included in the SDI signal, there is no way to send that within 2110 and keep the synchronisation. To prove his point, Paul puts up the structure of ST-291M in 2110-40 which still has references to lines and horizontal offsets. Furthermore, he points out that future 2110 workflows aren’t going to need to be tied to SDI-compatible metadata.

The Fast Metadata (FMX) proposal is to allow arbitrary metadata streams which can be time-aligned with a media stream. It would provide a standardised encoding method, be extensible, minimise IP address use and retain the option of being interoperable with ST 291 if needed.

Having chosen the KLV data structure, which is well known and scalable, SMPTE provides for this to be delivered with a timestamp and even early so that processing can be done ahead of time. This opens the door to carrying XMl, JSON and other data structure.

Paul explains how this has been implemented as an RTP stream hence using the RTP timestamps. Within the stream there are blobs of data. Paul explains the structure of a blob and how payloads which are smaller than a blob, as well as those which are larger, can be dealt with. Buffering and SDPs need to be supported, after all, this is a 2110 stream.

After doing into the detail of 2110-41, Paul explains there is a 2110-42 standard which can carry technical metadata about the stream. It provides in-band messaging of important stream details but is not intended to replace IS-04 or SDPs.

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Speakers

Paul Briscoe Paul Briscoe
Televisionary Consulting

Video: How to build two large Full-IP OB trucks (during COVID-19)

Posted on by Russell Trafford-Jones

It’s never been easy building a large OB van. Keeping within axel weight, getting enough technology in and working within a tight project timeline, not to mention keeping the expanding sections cool and water-tight is no easy task. Add on that social distancing thanks to SARS-CoV-2 and life gets particularly tricky.

This project was intriguing before Covid-19 because it called for two identical SMPTE ST-2110 IP trucks to be built, explains Geert Thoelen from NEP Belgium. Both are 16-camera trucks with 3 EVS each. The idea being that people could walk into truck A on Saturday and do a show then walk into truck B on Sunday and work in exactly the same show but on a different match. Being identical, when these trucks will be delivered to Belgium public broadcaster RTBF, production crews won’t need to worry about getting a better or worse truck then the other programmes.. The added benefit is that weight is reduced compared to SDI baseband. The trucks come loaded with Sony Cameras, Arista Switches, Lawo audio, EVS replays and Riedel intercoms. It’s ready to take a software upgrade for UHD and offers 32 frame-synched and colour-corrected inputs plus 32 outputs.

Broadcast Solutions have worked with NEP Belgium for many years, an ironically close relationship which became a key asset in this project which had to be completed under social distancing rules. Working open book and having an existing trust between the parties, we hear, was important in completing this project on time. Broadcast Solutions separated internet access for the truck to access the truck as it was being built with 24/7 remote access for vendors.

Axel Kühlem fro broadcast solutions address a question from the audience of the benefits of 2110. He confirms that weight is reduced compared to SDI by about half, comparing like for like equipment. Furthermore, he says the power is reduced. The aim of having two identical trucks is to allow them to be occasionally joined for large events or even connected into RTBF’s studio infrastructure for those times when you just don’t have enough facilities. Geert points out that IP on its own is still more expensive than baseband, but you are paying for the ability to scale in the future. Once you count the flexibility it affords both the productions and the broadcaster, it may well turn out cheaper over its lifetime.

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Speakers

Axel Kühlem Axel Kühlem
Senior System Architect
Broadcast Solutions
Geert Thoelen Geert Thoelen
Technical Director,
NEP Belgium

Video: Case Study FIS Ski World Championship

Posted on by Russell Trafford-Jones

There’s a lot to learn when it comes to implementing video over IP, so it’s healthy to stand back from the details and see a working system in use to understand how the theory becomes reality. There’s been a clear change in the tone of conversation at the IP Showcase over the years as we’ve shifted from ‘trust us, this could work’ to ‘this is what it looks like!’ That’s not to say there’s not plenty to be done, but this talk about an uncompressed 2110 remote production workflow is great example of how the benefits of IP are being realised by broadcasters.
Robert Erickson is with Grass Valley specialising in sports such as the FIS Alpine World Ski Championships which were in the city of Åre in Sweden some 600km from Stockholm where Sweden’s public broadcaster SVT is based. With 80 cameras at the championships to be remotely controlled over an uncompressed network, this was no small project. Robert explains the two locations were linked by a backbone of two 100Gbps circuits.

The principle behind SVT’s project was to implement a system which could be redeployed, wouldn’t alter the viewers’ experience and would reduce staff and equipment on site. Interestingly the director wanted to be on-site meaning that the production was then split between much of the staff being in Stockholm, which of course was where most of the equipment was, and Åre. The cameras were natively IP, so no converters were needed in the field.

Centralisation was the name of the game, based in Stockholm, producing an end-to-end IP chain. Network switching was provided by Arista which aggregated the feeds of the cameras and brought them to Stockholm where the CCUs were located. Robert highlights the benefits of this approach which include the use of COTS switches, scalability and indifference as to the circuits in use. We then have a look inside the DirectIP connection which is a 10gig ‘pipe’ carrying 2022-6 camera and return feeds along with control and talkback, replicating the functionality of a SMPTE fibre in IP.

To finish up, Robert talks about the return visions, including multivewers, which were sent back to Åre. A Nimbra setup was used to take advantage of a lower-bandwidth circuit using JPEG 2000 to send the vision back. In addition, it carried the data to connect the vision mixer/switcher at Åre with the switch at Stockholm. This was the only point at which noticeable latency was introduced to the tune of around 4 frames.

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Speakers

Robert Erickson Robert Erickson
Strategic Account Manager Sports and Venues,
Grass Valley