GLOBALFOUNDRIES has announced that its 22nm FD-SOI (22FDX) technology platform has been certified for AEC-Q100 Grade 2 for production. GF’s 22FDX platform includes a comprehensive set of technology and design enablement capabilities tailored to improve the performance and power efficiency of automotive integrated circuits (ICs) while maintaining adherence to strict automotive safety and quality standards.
With the rapid proliferation of automotive electronics content and regulations on energy efficiency and safety, semiconductor device component quality and reliability are more critical than ever. As a part of the AEC-Q100 certification, devices must successfully withstand reliability stress tests for an extended period of time, over a wide temperature range in order to achieve Grade 2 certification. The qualification of GF’s 22FDX process exemplifies the company’s commitment to providing high-performance, high-quality technology solutions for the automotive industry.
As a part of the company’s AutoPro platform, 22FDX allows customers to easily migrate their automotive microcontrollers and ASSPs to a more advanced technology, while leveraging the significant area, performance and energy efficiency benefits over competing technologies. Moreover, the optimized platform offers high performance RF and mmWave capabilities for automotive radar applications and supports implementation of logic, Flash, non-volatile memory (NVM) in MCUs and high voltage devices to meet the unique requirements of in-vehicle ICs.
GF’s AutoPro platform consists of a broad portfolio of automotive AEC-Q100 qualified technology solutions, backed by robust services package that comply with rigorous ISO automotive quality standards across GF’s fabs in Singapore and, most recently, Fab 1 in Dresden, Germany that achieved ISO-9001/IATF-16949 certification and is now capable of meeting the stringent and evolving needs of the automotive industry.
The 22FDX PDK is available now along with a wide-range of silicon-proven IP. Customers can now start optimizing their chip designs to develop differentiated low power and high performance automotive solutions. For more information, click here.
