- Samsung Foundry and Synopsys enable Samsung’s automotive reference flow to meet target ASILs for safety-critical designs
- Synopsys’ differentiated solutions give designers the ability to prove at the design planning and implementation phases that their chip safety architecture can achieve target ASILs
- Synopsys’ DesignWare automotive-grade IP is ASIL Ready ISO 26262 certified, meets AEC-Q100 reliability requirements and supports automotive quality management
Synopsys shared details of its collaboration with Samsung Foundry to deliver comprehensive automotive chip design solutions to meet target automotive safety integrity levels (ASILs) for autonomous driving and advanced driver-assistance systems (ADAS). As part of this collaboration, Samsung Foundry and Synopsys have enabled Samsung’s automotive reference flow to meet target ASILs for safety-critical designs. Developed based on its 8LPP process, Samsung Foundry’s automotive reference flow has been finely tuned to deliver benefits on a variety of process technologies.
Synopsys’ comprehensive automotive design solutions deliver complex functional safety (FuSa) analysis, implementation, and verification capabilities. Differentiated offerings for automotive design, such as unified functional safety verification and native automotive solutions, enable designers to prove at the planning and implementation phases that their chip safety architecture can achieve target ASILs. Designers can perform failure mode and effects analysis (FMEA) and failure mode effects and diagnostic analysis (FMEDA) through Synopsys’ VC Functional Safety Manager that brings together best-in-class technologies for fault campaign management. Early functional safety analysis at RTL or gate level can quickly identify candidates for triple-mode redundancy (TMR) and dual-core lock-step (DCLS) redundancy and estimate ISO 26262 metrics for target ASIL. Synopsys’ native automotive solutions based on FuSa intent provide the industry’s most comprehensive feature set to implement FuSa mechanisms, such as TMR, DCLS, and failsafe finite state machine (FSM), perform formal verification, and check and report that safety mechanisms are properly implemented. Comprehensive digital/analog fault injection and simulation can be performed to produce reliable metrics for FMEDA and roll-up. Synopsys also provides complete solutions to address reliability challenges in automotive design, including electromigration (EM), voltage (IR) drop, device aging, and robust redundant via insertion (RVI) capabilities. Synopsys provides designers with a broad portfolio of automotive IP that is designed and tested for AEC-Q100 reliability, offers ASIL Ready ISO 26262 certification, and supports automotive quality management.