Automotive Functional Safety
Overview
Building next-gen, AI-enabled, high-compute SoCs along with complex software stacks for Software-Defined Mobility systems that prioritize Automotive Functional Safety at every stage of development, by leveraging our extensive experience in Semiconductor design, Embedded systems, Digital Software, and Automotive Functional Safety methodologies.
How Can Neurealm Help You Ensure Functional Safety?
Neurealm plays a pivotal role in helping companies meet Automotive Functional Safety requirements by offering end-to-end services aligned with industry standards such as ISO 26262 and IEC 61508. With deep domain expertise and TUV-certified professionals, Neurealm supports the complete Functional Safety lifecycle, from concept to production.
Their Automotive Functional Safety offerings include:
- SoC and Software Consulting
- Gap Analysis
- Pilot Functional Safety Projects
- Functional Safety Implementation
- ASIL Certification Support
Neurealm combines technical excellence in semiconductors, embedded software, and automotive domain expertise to build systems that are not only compliant but optimized for safety-critical performance. By adopting structured processes, reusable safety assets, and a rigorous validation framework, Neurealm ensures that your automotive systems meet the highest standards of Automotive Functional Safety, reducing risk, ensuring reliability, and accelerating certification timelines.
ISO9001 Company specialized in IEC 61508 and ISO 26262a standards
Functional safety-compliant hardware and software development processes
Enabling customer products up to ASIL-D and SIL-3 systems
TUV certified FUSA experts on Hardware and Software
What we offer:
SoC & Software Consulting:
- Architecture consulting for automotive designs
- Functional Safety Architecture & implementation
- Work products for ASIL certification
Gap Analysis
- Identify the gaps in hardware and software modules
- Review documents and process followed
Pilot Functional Safety Projects
- Modify the implementations based on the identified gaps
- Create work products to prove compliance
Functional Safety implementations
- Identify relevant work products for the project
- Rework content and the process to make the modules or libraries Functional Safety compliant
Conceptual Design
- Software, IP & SoC Design compliant to ISO26262
- Hazard Analysis & Risk Assessment
- Safety Goals
- HARA Report
Analysis
- FMEA & FMEDA
- Fault Tree Analysis
- Fault Insertion Tests
- Safety Analysis
- Interference Freeness, Dependent Failures and Common Cause Failure (CCF)
Verification & Validation
- Safety Test Cases development
- Error Injection
- Safety Validation Testing
- Safety Compliance
- Safety Report
Tools
Platforms, Frameworks, & Tools
Hardware Platforms
Autosar
Model based design
Testing
Compliance
OS
