Imagination Announces Highest Performance Automotive GPU IP with FuSa Advancement
Imagination DXS GPU Extends Lead in Automotive
SAN JOSE, Calif. & BEIJING-- September 11, 2024-- Imagination Technologies (“Imagination”) today unveils Imagination DXS GPU, its latest automotive GPU IP for in-vehicle intelligence and interaction. DXS is a scalable and flexible GPU IP designed to process graphics and compute workloads in cockpit, infotainment and advanced driver assistance systems. It introduces new innovations in distributed safety, eliminating the overhead of achieving ASIL-B functional safety on Imagination processors. It has already been licensed for use in the automotive market.
The Imagination DXS GPU supports the graphics and compute requirements of an entire vehicle line-up with single core configurations starting at 0.25 TFLOPS and scaling up to 1.5 TFLOPS - 50% higher peak performance than Imagination’s previous generation automotive GPU IP. Imagination’s unique multi-core technology allows for two, three and four core configurations, while the low bandwidth bus between cores and support for isolation suits the use of IMG DXS in chiplets. It adopts relevant features introduced into the PowerVR architecture in D-Series, such as Pipelined Data Masters and 2D Dual-Rate Texturing, to boost performance efficiency by 20% over previous generations of automotive GPU IP and ensure that it outperforms competitive cores on real world benchmarks.
“Imagination is a leading provider of GPU IP into automotive,” says Anshel Sag, Principal Analyst at Moor Insights & Strategy. “The demand for pixel processing in cars has grown enormously over the last decade, with digital cockpits, dashboard wide displays and rear entertainment screens offering smartphone-like visual experiences. Imagination’s combination of great performance for 3D graphics, flexible multitasking and a robust approach to safety has seen its popularity explode.”
DXS is optimised for the compute workloads needed for next generation vehicle intelligence, such as computer vision and data processing. By combining the raw performance of DXS with an additional FP16 pipeline and a set of new compute libraries and AI toolkits, users can achieve up to ten times higher performance for compute workloads compared to previous generations.
“The GPU is no longer just used for graphics in cars,” says James Chapman, Chief Product Officer at Imagination. “The long-term nature of designing hardware in the era of the software-defined vehicles is making hardware designers choose flexible and programmable processors that can handle the AI workloads of today as well as adapt to whatever the future brings. Today, our automotive GPUs are as much in demand for their compute abilities as for their rendering.”
The first Imagination processor to feature “Distributed Safety Mechanisms”
All functions that a vehicle performs are graded based on potential risk according to the ISO 26262 Automotive Safety Integrity Level (ASIL). Automotive manufacturers and their suppliers must ensure that components involved in that function meet the necessary standards for fault detection and handling, with ASIL-A having the least stringent requirements and ASIL-D the most comprehensive.
Its new “Distributed Safety Mechanisms” solution means DXS achieves ASIL-B functional safety at a fraction of the Performance, Power or Area (PPA) overhead of the two main existing methods: dual-core lockstep, which increases silicon area by 100%, and workload repetition, which halves processor performance for safety workloads.
Distributed Safety Mechanisms has a near-zero impact on GPU performance and 10% area cost. It does this by taking advantage of the inherent parallelism of today’s processors and the fact that no thread is ever fully utilised. A patented mechanism combines these threads into pairs and injects safety tests in idle moments to identify faults within the timeframe set by the ASIL standard. Further details on the complete Distributed Safety Mechanisms solution can be found on the Imagination website in the whitepaper, “Innovations in Distributed Functional Safety.”
New Compute Libraries and AI Toolkits
Developed alongside the hardware is a new set of compute libraries (imgBLAS, imgNN, imgFFT) to help software developers achieve up to 80% GPU utilisation. This will also accelerate common compute workloads such as computer vision and pre/post processing perception data for ADAS systems.
The libraries combine with new reference toolkits (oneAPI and TVM) to create a practical software stack based on open standards with which software developers can easily port their compute applications onto Imagination IP based hardware, and from there maximise their performance.
“Software portability and the ability to take advantage of heterogeneous hardware is essential to the future of the automotive industry. The UXL Foundation is looking to provide a clear and easy path for developers to do this through the ongoing open source development of the oneAPI standard,” says Rod Burns, Chair of the UXL Foundation Steering Committee. “Imagination is a long-standing supporter of our ecosystem and the compute software solutions they release today reinforce their commitment to building an optimal developer journey based on open standards.”
“PerfXLab Technologies develops heterogeneous computing software stacks and infrastructure solutions for companies looking to accelerate AI,” says Zhang Xianyi, Chief Executive Office at PerfXLab. “We are using Imagination’s compute software solutions to run various AI applications, including our LLM inference engine, PerfXLM, on Imagination GPUs and have so far achieved performance gains of up to 100% compared to the CPU, with minimal time spent porting.”
Software
Imagination’s automotive GPUs support OpenGL® ES, Vulkan®, OpenGL® and OpenCL™. They run popular automotive operating systems such as QNX and Green Hills Software’s INTEGRITY RTOS, as well as Linux and Android. Hardware-based virtualisation enables Imagination GPUs to run up to eight operating systems simultaneously, with full memory isolation for fully secure GPU multitasking. Imagination partners with CoreAVI, the global leader in architecting and delivering safety critical graphics and compute software drivers and libraries, on the development of a safety critical driver, supporting OpenGL SC and Vulkan SC for Imagination GPUs.
“As vehicles become more autonomous, greater emphasis is placed on their ability to detect and handle faults in an appropriate manner,” says Dan Joncas, Chief Marketing and Sales Officer & Deputy CEO, CoreAVI. “By working with us, Imagination is able to meet the complex requirements of the automotive industry with a complete safety package covering both hardware and software."
For more information on the Imagination DXS GPU visit the Imagination website.
About Imagination Technologies
Imagination is a UK-based company that creates silicon and software IP designed to give its customers an edge in competitive global technology markets. Its GPU, CPU, and AI technologies enable outstanding power, performance, and area (PPA), fast time-to-market, and lower total cost of ownership. Products based on Imagination IP are used by billions of people across the globe in their smartphones, cars, homes, and workplaces.
|
Imagination Technologies Group plc Hot IP
Related News
- Imagination partners with MulticoreWare Inc. and demonstrates superior performance of its GPUs
- ESWIN Computing Pairs SiFive CPU, Imagination GPU and In House NPU in Latest RISC-V Edge Computing SoC
- MulticoreWare and Imagination collaboration accelerates automotive compute workloads
- Ventana and Imagination Partner to Deliver World's Highest Performance RISC-V CPU & GPU Solutions
- Imagination launches brand new line of high-performance GPU IP with DirectX
Breaking News
- TSMC September 2024 Revenue Report
- Crypto Quantique teams up with Attopsemi to simplify the implementation of PUF technology in MCUs and SoCs
- Intel, TSMC to detail 2nm processes at IEDM
- SensiML Expands Platform Support to Include the RISC-V Architecture
- MIPI Alliance Announces OEM, Expanded Ecosystem Support for MIPI A-PHY Automotive SerDes Specification
Most Popular
- Deeptech Keysom completes a €4M fundraising and deploys the first “no-code” tool dedicated to the design of tailor-made processors
- Bluetooth® V6.0 Channel Sounding RF Transceiver IP Core in 22nm & 40nm for ultra-low power distance aware Bluetooth connected devices
- Secure-IC unveils its Securyzr™ neo Core Platform at Embedded World North America 2024
- LDRA Announces Extended Support for RISC-V High Assurance Software Quality Tool Suite to Accelerate On-Target Testing of Critical Embedded Applications
- Electronic System Design Industry Posts $4.7 Billion in Revenue in Q2 2024, ESD Alliance Reports
E-mail This Article | Printer-Friendly Page |