Elevating Automotive Quality
Through Intelligent
Test Architectures
Engineering Confidence Through End-to-End Automotive Validation
Vehicle innovation today depends on validation strategies that are continuous, automated, and aligned with software release cycles. Our Testing and Validation capabilities enable scalable automotive validation across software, electronics, and connected vehicle ecosystems using advanced automotive virtualization and integrated validation frameworks. We help engineering teams move from fragmented testing toward unified validation pipelines that support faster development and confident deployment.
By combining model-driven validation, HIL automotive testing, and domain-specific electric vehicle testing, we at SRM Tech ensure end-to-end verification across modern vehicle platforms. Supported by scalable automotive test system architectures and robust HIL testing in automotive environments, our approach improves validation coverage, accelerates releases, and strengthens quality across the software-defined vehicle lifecycle.
150
Engineers Across T&V Programs
40
Testing & Validation Programs Delivered
10
OEM & Tier-1 Validation Engagements
95
Defect Detection Before Production Release
Our Areas of Expertise
Model-Based Development & MIL Testing
Engineer automotive software from model to production using Model-Based Development practices built on MATLAB/Simulink and TargetLink environments to strengthen early-stage automotive validation. Our workflow spans requirements capture, functional model design, model coverage analysis, and automated code generation with full traceability from specification to implementation.
We execute MIL testing at the earliest stage to detect functional defects before coding or hardware procurement, aligning all MBD deliverables with ISO 26262 and AUTOSAR modelling guidelines to support downstream SIL, HIL, and system validation phases.
Unit & Software Testing
Strengthen software quality by validating every component through our structured unit and software testing practices designed for embedded automotive platforms and AUTOSAR architectures. We perform BSW and RTE unit testing, MISRA compliance checks, static code analysis, and detailed code coverage measurement integrated into CI/CD pipelines.
Our SIL environments allow us to execute model-derived test suites on generated software, ensuring behavioural consistency from model to code. Through requirements-based test design and bidirectional traceability, we help teams maintain continuous automotive validation while supporting design maturity and ISO 26262 audit readiness.
System Integration Testing
Execute comprehensive system integration testing that allows us to progressively assemble, validate, and verify subsystems until full vehicle functionality is confirmed. We conduct ECU integration testing, validate inter-ECU communication across CAN, LIN, Automotive Ethernet, and DoIP, and perform diagnostics and OBD verification using scalable automotive test system frameworks.
Our teams manage requirements-driven test planning, regression execution, and defect lifecycle tracking across integration milestones. By delivering structured reports, coverage insights, and automotive validation evidence, we support confident design freeze decisions and production readiness for OEM and Tier-1 programs.
HIL Testing & Commissioning
Deliver advanced HIL testing in automotive environments that bridge virtual development and real-world vehicle behaviour through scalable HIL automotive testing frameworks. We design HIL bench architectures, configure I/O interfaces, integrate real-time plant models, and develop automated test scripts across powertrain, chassis, ADAS, body electronics, and cockpit domains.
Our teams perform fault injection, boundary validation, and regression automation to improve correlation between simulation and vehicle testing. From ECU bring-up through commissioning and sign-off, we deliver repeatable HIL automotive testing supported by a modern automotive test system approach.
Functional Safety & ADAS Validation
Ensure robust functional safety and ADAS automotive validation across the full ISO 26262 lifecycle, from HARA and safety goal definition through ASIL-level verification and safety case closure. We execute SOTIF scenario validation using simulation, closed-loop environments, and automotive virtualization techniques that replicate real operating conditions and edge cases.
Our teams validate perception pipelines, sensor fusion algorithms, and multi-sensor integrations across virtual and physical environments. By producing complete safety evidence packages, we help OEMs demonstrate compliance, accelerate homologation, and maintain confidence in safety-critical vehicle functions.
EV & Cybersecurity Testing
Advance next-generation mobility programs through specialized electric vehicle testing and automotive cybersecurity validation that address the complexity of connected and electrified platforms. We validate BMS behaviour, perform powertrain integration testing, verify high-voltage safety protocols, and test charging systems across AC and DC standards.
Our cybersecurity teams execute penetration testing, fuzz testing, and TARA validation aligned with UN R155/R156 and ISO 21434 expectations. By delivering structured automotive validation evidence, we support regulatory readiness, strengthen platform resilience, and enable secure deployment of modern vehicle ecosystems.
Test Automation & Continuous Validation
Accelerate validation efficiency by implementing automated automotive validation frameworks that scale testing across development, integration, and release cycles. We build reusable test libraries, CI/CD-driven workflows, and centralized reporting platforms that improve consistency while reducing manual effort across teams and programs.
Our teams implement automated test generation, orchestration, and regression strategies using integrated automotive test system pipelines across multiple domains. This enables continuous validation aligned with software-defined vehicle release models, helping organizations deliver features faster while maintaining quality, traceability, validation coverage, and long-term scalability.
Data Correlation & Validation Intelligence
Improve validation effectiveness by addressing data inconsistency, synchronization gaps, and simulation-to-road correlation challenges through our validation intelligence approach. We establish data acquisition pipelines, time synchronization strategies, and unified dashboards that compare MIL, SIL, HIL, and vehicle test outcomes across programs and validation stages.
Our teams apply analytics to enable anomaly detection, root-cause analysis, and performance trend insights at scale. By delivering structured datasets and lifecycle visibility, we help engineering teams make faster decisions, improve traceability, and strengthen confidence in automotive validation outcomes.
Virtual & SDV Validation Platforms
Enable scalable automotive validation for software-defined vehicles using cloud simulation, virtual ECUs, and advanced automotive virtualization frameworks. We implement scenario-driven validation pipelines, distributed simulation environments, and virtual testing workflows that allow feature verification before physical prototypes exist across vehicle programs.
Our teams support OTA validation, variant validation, and continuous release testing aligned with modern SDV development models. By shifting validation earlier and reducing hardware dependency, we help organizations maintain continuous quality, faster releases, and reliable performance across evolving vehicle software platforms.
Driving XiL Testing Continuum for Assured Performance & Reliability
Success Stories
Resources
Partnerships & Certifications
