Tuesday, April 9th 2024

AMD Extends Leadership Adaptive SoC Portfolio with New Versal Series Gen 2 Devices Delivering End-to-End Acceleration for AI-Driven Embedded Systems

AMD today announced the expansion of the AMD Versal adaptive system on chip (SoC) portfolio with the new Versal AI Edge Series Gen 2 and Versal Prime Series Gen 2 adaptive SoCs, which bring preprocessing, AI inference, and postprocessing together in a single device for end-to-end acceleration of AI-driven embedded systems.

These initial devices in the Versal Series Gen 2 portfolio build on the first generation with powerful new AI Engines expected to deliver up to 3x higher TOPs-per-watt than first generation Versal AI Edge Series devicesi, while new high-performance integrated Arm CPUs are expected to offer up to 10x more scalar compute than first gen Versal AI Edge and Prime series devicesii.
"The demand for AI-enabled embedded applications is exploding and driving the need for single-chip solutions for the most efficient end-to-end acceleration within the power and area constraints of embedded systems," said Salil Raje, senior vice president and general manager, Adaptive and Embedded Computing Group, AMD. "Backed by over 40 years of adaptive computing leadership, these latest generation Versal devices bring together multiple compute engines on a single architecture offering high compute efficiency and performance with scalability from the low-end to high-end."

Balancing performance, power, area, together with advanced functional safety and security, Versal Series Gen 2 devices deliver new capabilities and features that enable the design of high-performance, edge-optimized products for the automotive, aerospace and defense, industrial, vision, healthcare, broadcast and pro AV markets.

Powering Subaru's Next-Gen ADAS Vision System
Subaru Corporation has selected Versal AI Edge Series Gen 2 devices for the company's next-generation advanced driver-assistance system (ADAS) vision system, known as EyeSight. The EyeSight system is integrated into select Subaru car models to enable advanced safety features, including adaptive cruise control, lane-keep assist, and pre-collision braking. Subaru is using AMD adaptive SoC technology in current EyeSight-equipped vehicles.

"Subaru has selected Versal AI Edge Series Gen 2 to deliver the next generation of automotive AI performance and safety for future EyeSight-equipped vehicles," said Satoshi Katahira, General Manager, Advanced Integration System Department & ADAS Development Department, Engineering Division, Subaru Corporation. "Versal AI Edge Gen 2 devices are designed to provide the AI inference performance, ultra-low latency, and functional safety capabilities required to put cutting-edge AI-based safety features in the hands of drivers."

Versal AI Edge Series Gen 2
To meet the complex processing needs of real-world systems, AMD Versal AI Edge Series Gen 2 devices incorporate an optimal mix of processors for all three phases of AI-driven embedded system acceleration:
  • Preprocessing: FPGA programmable logic for real-time preprocessing with unparalleled flexibility to connect to a wide range of sensors and implement high-throughput, low-latency data-processing pipelines
  • AI Inference: An array of vector processors in the form of next-gen AI Engines for efficient AI inference
  • Postprocessing: Arm CPU cores providing the postprocessing power needed for complex decision-making and control for safety-critical applications.
This single-chip intelligence can eliminate the need to build multi-chip processing solutions, resulting in smaller, more efficient embedded AI systems with the potential for shorter time-to-market.

Versal Prime Series Gen 2
The AMD Versal Prime Series Gen 2 provides end-to-end acceleration for traditional, non-AI-based embedded systems by combining programmable logic for sensor processing with high-performance embedded Arm CPUs. Designed to offer up to 10x more scalar compute compared to the first generation, these devices can efficiently handle sensor processing and complex scalar workloads.

With new hard IP for high-throughput video processing, including up to 8K multi-channel workflows, Versal Prime Gen 2 devices are ideally suited for applications such as ultra-high-definition (UHD) video streaming and recording, industrial PCs, and flight computers.

Broad and Scalable Portfolio
The Versal AI Edge Series Gen 2 and Versal Prime Series Gen 2 portfolios provide scalability from edge sensors to centralized compute for AI-driven systems. They feature a range of devices with increasing amounts of AI and adaptive compute to allow customers to select the performance, power, and area footprints to efficiently achieve application performance and safety targets.

Streamlined Design Cycles
The AMD Vivado Design Suite tools and libraries help boost productivity and streamline design cycles for embedded hardware system developers, offering fast compile times and enhanced quality of results. For embedded software developers, the AMD Vitis Unified Software Platform enables embedded software, signal processing, and AI design development at users' preferred levels of abstraction, with no FPGA experience needed.

Designers can get started with AMD Versal AI Edge Series Gen 2 and Versal Prime Series Gen 2 early access documentation and first-generation Versal evaluation kits and design tools available today. AMD expects availability of Versal Series Gen 2 silicon samples in the first half of 2025, followed by evaluation kits and System-on-Modules samples in mid-2025, and production silicon expected in late 2025.
Source: AMD
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3 Comments on AMD Extends Leadership Adaptive SoC Portfolio with New Versal Series Gen 2 Devices Delivering End-to-End Acceleration for AI-Driven Embedded Systems

#1
TechLurker
I wonder if the ARM processor is based on AMD's own internal design using their ARM license, or a regular ARM processor that AMD integrated into their own SoC. Would be neat if AMD was actively developing their ARM options on the side.
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#2
Geofrancis
TechLurkerI wonder if the ARM processor is based on AMD's own internal design using their ARM license, or a regular ARM processor that AMD integrated into their own SoC. Would be neat if AMD was actively developing their ARM options on the side.
This is probably a Xilinx product that was coming down the pipe when AMD bought them.
Posted on Reply
#3
Denver
TechLurkerI wonder if the ARM processor is based on AMD's own internal design using their ARM license, or a regular ARM processor that AMD integrated into their own SoC. Would be neat if AMD was actively developing their ARM options on the side.
Based on pre-silicon estimates for combined total DMIPs of the Versal™ AI Edge Series Gen 2 and Versal Prime Series Gen 2 processing systems, when configured with 8 Arm® Cortex®-A78AE application cores at 2.2 GHz and 10 Arm Cortex-R52 real-time cores at 1.05 GHz, compared to the combined total DMIPs in the first-generation Versal AI Edge Series and Versal Prime Series.

Furthermore, AMD has been integrating ARM cores into its products to some extent for a long time:

"AMD’s PSP uses ARM’s TrustZone software. AMD CPUs, and APUs equipped with a PSP integrate an ARM CPU core to handle these functions. We don’t necessarily know what type of CPU core AMD uses — AMD’s initial APUs used a Cortex-A5, but ARM supports the product across all Cortex-A chips and some Cortex-M processors. Presumably, the A5 is still the core of choice.

Hardware DRM support can be implemented through the PSP (and likely has been, as far as Windows 10’s 4K playback scheme is concerned). The ability to analyze the PSP’s firmware could lead to DRM cracks or the discovery of further security flaws."
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