TSM, which since 2018 has had a 7nm family of technologies in volume production, is able to deliver leading-edge processes to meet high computation needs for automotive applications, and also meet rigorous durability and reliability requirements.
TSMC’s platform is certified with the ISO 26262 standard for functional safety, and consists of Standard Cell, GPIO, and SRAM foundation IP based on the company’s experience in 7nm production for design robustness and first-time success. In addition, TSMC’s foundation IP have also passed qualification according to AEC-Q100 Grade-1, providing customers with another layer of quality assurance.
Process design kits and support from third party vendor IPs are also available, enabling customers to focus their efforts on their own design capabilities. Furthermore, TSMC not only provides robust 7nm capacity with automotive-grade defect PPM, it is also committed to supporting the long life cycles of automotive products.
“Automotive applications have always demanded the highest level of quality. With the advent of ADAS and autonomous driving, powerful and efficient computing is now also required to enable AI inferencing engines to perceive the road and understand traffic to help drivers make split-second decisions,” said Dr. Cliff Hou, Senior Vice President of Research & Development and Technology Development at TSMC. “TSMC is positioned with our 7nm experience and comprehensive design ecosystem to unleash our customers’ innovations and achieve first-time silicon success while meeting the rigorous demands of bringing safer and smarter vehicles to market.”
In addition to a robust automotive IP ecosystem, TSMC Fabs are certified with IATF 16949 for automotive product manufacturing. TSMC also provides an Automotive Service Package for wafer manufacturing, with a built-in "Zero Defect Mindset" for tightened control and enhanced gating to achieve automotive DPPM goals, as well as a Safe Launch Program during production ramp to ensure the success of new product introduction.