The new reference flows are:
- The qualification of the Synopsys reference flow on Amazon Web Services (AWS) enables scalable execution of in-system test, implementation, verification, timing and physical signoff, providing a seamless path to creating high-growth applications such as 5G mmWave, edge AI and internet of things (IoT) in the cloud
- The demonstration of an automotive reference flow that enables the efficient development of Automotive Safety Integrity Level (ASIL) D-Compliant design components is the first of its kind for the GF 22FDX process and helps accelerate time-to-market for ISO 26262-compliant products.
Designing in the public cloud offers speed and efficiency advantages by overcoming compute capacity bottlenecks and utilizing dynamic scaling at all stages of the design. The qualified reference flow on cloud is a result of a multi-year collaboration on co-optimised tools and methodologies that maximise the power, performance and area benefits of the GF 22FDX process.
The automotive reference flow enabling ASIL-D designs on GF's 22FDX process provides designers with a comprehensive solution for functional safety analysis, implementation and verification of ADAS, powertrain, 5G and radar systems.
The flow utilises the Synopsys RTL-to-GDSII native functional safety design implementation solution and DesignWare® ARC® Processor IP.
"Built for highly scalable workloads, the reference flow for GF's 22FDX process is proven on fast, secure and efficient cloud infrastructure for a broad spectrum of SoC applications," said Jacob Avidan, senior vice president of engineering for the Digital Design Group at Synopsys. "Designers will be able to address growing computational demands for design and verification, accelerating their innovation on the cloud."
Avidan also said, "As for automotive designs, the longstanding collaboration between Synopsys and GF has delivered the platform and IP needed for seamless adoption of the 22FDX process for automotive designs. Deploying the industry's first automotive reference flow for 22FDX enables designers to accelerate time to silicon success and meet their stringent ASIL and reliability targets."