VeriSilicon Launches Automotive-Grade Intelligent Driving SoC Design Platform!

VeriSilicon, a leading player in semiconductor design and technology solutions, has introduced its new automotive-grade high-performance intelligent driving system-on-chip (SoC) design platform. This innovative platform has already been verified and successfully implemented in several customer projects, marking a significant step forward in providing robust solutions for next-generation automotive technologies.

The new SoC design platform is a part of VeriSilicon’s Silicon Platform as a Service (SiPaaS) business model, which focuses on offering comprehensive support across the entire process of chip design. The platform targets high-performance computing applications, particularly in autonomous driving and advanced driver assistance systems (ADAS), areas that are becoming increasingly critical to the automotive industry.

In addition to chip design, VeriSilicon offers a one-stop custom service that encompasses chip verification and automotive-grade certification. The platform’s design process has been certified with ISO 26262, an internationally recognized functional safety standard for automotive systems. This certification ensures that the company’s SoC solutions meet the rigorous safety requirements necessary for use in critical automotive applications.

VeriSilicon’s solution is designed to meet the specific needs of global customers in the automotive sector, from the initial stages of chip design and safety requirement analysis to architecture design and certification assistance. This end-to-end service is a crucial part of ensuring that the chips not only meet performance benchmarks but also comply with the stringent safety regulations required for automotive applications.

The new SoC design platform is built around a flexible, configurable architecture that supports efficient collaboration among various co-processors. This includes high-performance multi-core Central Processing Units (CPUs), image signal processors (ISPs), video codecs, and neural network processors. The ability to integrate these components seamlessly allows for optimal performance in intelligent driving applications, where real-time data processing and low latency are crucial.

The platform’s architecture also includes an optional ASIL D-level functional safety island, developed by VeriSilicon. ASIL D is the highest safety level in the ISO 26262 standard, and this added feature ensures that the platform is well-suited for safety-critical automotive applications. The functional safety island helps meet the rigorous standards for fault tolerance, which are vital for systems involved in driving automation and vehicle control.

Moreover, the platform supports a high-speed, high-bandwidth memory subsystem that enhances data throughput and real-time processing capabilities. This capability is essential for modern vehicles, which rely on large volumes of sensor data to make driving decisions in real-time, such as detecting obstacles or interpreting road conditions.

VeriSilicon’s intelligent driving SoC design platform is optimized for advanced automotive-grade process nodes, including 5nm and 7nm technology. This allows the platform to achieve superior power, performance, and area (PPA) characteristics, which are key to ensuring that the chips meet the high-performance needs of the automotive sector while maintaining energy efficiency and compact design.

The optimization for smaller process nodes means that the platform can deliver faster processing speeds while reducing power consumption—an essential factor for automotive applications, where energy efficiency is crucial, especially in electric vehicles. Additionally, the compact design helps reduce the overall size of the SoC, making it easier to integrate into various automotive systems without taking up excessive space.

VeriSilicon’s automotive-grade intelligent driving SoC design platform marks a significant advancement in the development of automotive chips. With its emphasis on safety, performance, and flexibility, this platform is well-positioned to meet the demands of the rapidly evolving automotive industry, particularly in the fields of autonomous driving and ADAS. By offering comprehensive services from design to certification, VeriSilicon is positioning itself as a key player in shaping the future of intelligent driving technologies, helping automakers deliver more advanced, efficient, and safe vehicles.