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- Опубліковано 6 лют 2025
- At ISE 2025, AMD's Rob Green provides an in-depth overview of the company's latest advancements in adaptive computing technologies, emphasizing their applications in professional broadcast and consumer markets. A focal point is the collaboration with Megapixel on the Helios LED wall processor, powered by AMD's Kintex UltraScale FPGA. This processor supports 100 Gigabit Ethernet and 720p/1080p resolutions, delivering high-performance video processing and extensive Ethernet connectivity. It's instrumental in driving Ventana's micro-LED tiles, known for their exceptional thinness and suitability for high-end residential, commercial, and retail environments.
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AMD's partnership with Blackmagic Design introduces the IP10 codec, a compact solution enabling Ultra HD transmission over 10 Gigabit Ethernet with minimal compression. Integrated into various Blackmagic products, this codec facilitates 4K video transmission with very low latency. Notably, Blackmagic offers transparency by providing the codec's code on their website, allowing for seamless integration into ecosystems utilizing AMD's technology.
The company also highlights its support for the emerging IPMX standard, designed to bridge the gap between broadcast and AV industries. Utilizing AMD's Zynq UltraScale+ SoCs and FPGAs, partners like Adeas and Nextera Video have developed IP cores compatible with IPMX, incorporating features such as the Privacy Encryption Protocol (PEP) to ensure media content security.
COMMUNITY.AMD.COM
In the realm of display technology, AMD showcases its pioneering implementation of DisplayPort 2.1 on FPGAs. Demonstrations include 4K resolution at 240 frames per second, achieved through a Radeon GPU as the source, highlighting the high bit rate capabilities of 20 Gbps per lane, totaling 80 Gbps across four lanes. This setup underscores AMD's proficiency in handling advanced display standards and high-bandwidth data transmission.
The versatility of AMD's adaptive SoCs is further demonstrated through HDMI 2.1 implementations featuring Display Stream Compression (DSC). Collaborations with partners like Alma Technologies have led to the development of IP cores capable of handling 8K output, ensuring efficient compression and decompression processes while maintaining high-quality visuals.
AMD's commitment to AV-over-IP solutions is evident through its support for various protocols and codecs. The company collaborates with intoPIX to extend the capabilities of JPEG XS for AV-over-IP, introducing features like Temporal Differential Coding (TDC) and Main + Proxy stream support. These advancements are designed to run on AMD FPGAs, SoCs, CPUs, and GPUs, offering flexible and efficient solutions for high-quality video transmission over IP networks.
COMMUNITY.AMD.COM
In the audio domain, AMD's partnership with Audinate brings Dante AV Ultra to the forefront. This FPGA-based implementation facilitates high-quality, low-latency audio and video transmission over IP networks. Products from companies like Symetrix utilize AMD technology to deliver advanced audio DSP processing, all managed through the familiar Dante Controller interface, streamlining integration for professional audio applications.
Artificial intelligence applications are also a key focus, with demonstrations of face detection and tracking running on AMD's Zynq UltraScale+ SoCs. These edge-based AI implementations operate without the need for data center resources, offering low-latency processing suitable for applications like PTZ camera control and intelligent video analytics.
Description by Chatgpt.
Check out all my ISE 2025 videos in this playlist: • ISE 2025
Also forgot to say NDI is a rival to SDI.
NDI if you look at the video, they have a Tricaster box.
They originated the NDI standard which runs over cheap Ethernet as opposesd to SDI which runs over expensive analog cables.
The origonal company that made the Tricaster was behnd computer cobtrolled lighting boards used on in Film & Television production. They also produced on of the early high end VFX packages, their first product was the video toaster which was built with the first Commodore Amiga's. They were used to render over weeks the CGI for the Babylon 5 TV series in the early nineties i.e over 30 years ago. And way before anyone in the movie business was creating CGI other than on Tron, Star Wars Episode 2 & The Last Starfighter.
Thanks for info. I saw tricaster being talking about for years by those podcasts like This week in Tech that were advertising it, or no it was this guy who did his podcast on techcrunch for years he kept using it.. I did wonder if NDI was somehow related to SDI 😃
If I had been following the livestream I would have asked you to ask AMD would we be seeing the inclusion of FPGA's on their RDNA 4 or 5 series graphics processors. RDNA4 is due in 2 months. But they only purchased their FPGA company 2 years ago and it takes AMD around 3 years to build a GPU.
I think AMD want to add some FPGA's so they can add a dirty reverse engineered + clean room built wrapper/middleware to interface between NVIDIA's DLSS4 software and AMD hardware. That way they close the huge lead that NVIDIA has over AMD in graphics card. NVIDIA will sue of course, to try to block it. But it will make AMD graphics cards far more useful and adaptable to new product categories