![]() ![]() With Aurora1, AV1 can achieve a 50% coding efficiency gain over H.264 and HEVC across many content types and use cases. ![]() With 128 lanes of PCIe 4.0, eight channels of memory, and most EPYC 7003 models supporting dual-processor connectivity, it’s easy to see why the AMD EPYC 7003 series of processors are so well suited for video encoding using the new AV1 standard. With the power of EPYC 7003 processors that offer up to 64 cores and 128 threads and using the latest Zen 3 cores, AMD EPYC is perfectly suited for highly compute-intensive workloads like AV1 video encoding.ĭesigned with eight chiplets of eight cores each, all eight cores in the chiplet are connected, enabling an effective double 元 cache design for a lower overall cache latency structure. See HTOP graphic below that clearly shows consistently high core utilization. This incredible performance opens the highly desired AV1 video codec to be used in a wide range of premium SVOD, live sports, broadcast streaming, and WebRTC applications. For applications requiring support for HLS or DASH, users may transcode two or three ABR profile ladders on a single machine using a dual-socket AMD EPYC™ 7003 processor-based system. ![]() ![]() The AMD EPYC™ 7003 Series SoC allows video platforms the ability to unleash all-new levels of speed and performance in the data center for video streaming platforms, social networks, WebRTC-based video conferencing apps, desktop as a service, OTT streaming services, cloud gaming platforms, and live linear video streaming services.ĮPYC’s balanced set of resources enables you to match the CPU core count to your video encoding requirements without compromising processor features.īy running the Aurora1 AV1 Software Encoder on AMD EPYC™ 7003 Series processors using a single-socket system, video services can encode four (4) real-time channels in broadcast-quality 4Kp60. ![]()
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