We deliver production-ready ECU software faster — from concept to deployment.
End-to-end embedded execution. Real hardware. Real validation. Real results.
What You Get
- Faster ECU development cycles
- Reduced lab and infrastructure dependency
- Production-grade embedded software
- Scalable AUTOSAR & Semi-AUTOSAR architectures
- Tool-driven validation and automation
- End-to-end engineering execution support
Core Services
ECU Software Development
Production-grade embedded systems built for real automotive environments
We design and implement deterministic ECU software for automotive and industrial systems with full hardware integration.
Includes
- C/C++ ECU software development
- RTOS-based system design
- Low-level drivers and bootloaders
- Multicore embedded applications
- Hardware–software integration
Outcome
Reliable, real-time embedded systems ready for production deployment.
AUTOSAR & ECU Architecture
Scalable architectures without unnecessary complexity
We design ECU architectures using Classic AUTOSAR or optimized Semi-AUTOSAR approaches depending on project needs.
Includes
- AUTOSAR ECU architecture design
- BSW and application integration
- Communication stacks (CAN / LIN / Ethernet)
- ECU configuration and system extraction
- Mode management and system states
- Reusable software platforms and services
- Hardware-independent application design
Semi-AUTOSAR Approach
A lightweight automotive architecture that keeps core AUTOSAR benefits — modularity, scalability, maintainability — while removing heavy tooling overhead and configuration complexity.
Result: faster development, lower cost, and cleaner system design.
Validation & Diagnostics
End-to-end ECU verification under real operating conditions
We validate ECU behavior across communication, diagnostics, and system execution layers using production-grade workflows and automation tools.
Includes
- CAN / CAN-FD, LIN, Ethernet validation
- UDS diagnostics and service verification
- Flashing & reprogramming workflows
- EOL calibration, coding, and signal validation
- System-level integration testing
- Debugging, trace analysis, and logging
- 100,000+ cycle endurance testing with tool-backed automation, including edge-case and fault-condition coverage
Outcome
Stable, deterministic ECU behavior under normal, stress, and extreme conditions.
Embedded Tooling
Custom automation tools that accelerate engineering workflows
We build tools that eliminate repetitive engineering work and speed up ECU development.
Includes
- Code generation tools (C/C++)
- DBC / ARXML / LDF / FIBEX tooling
- Calibration & configuration generators
- Python/C# automation scripts
- Data processing & validation tools
- Engineering workflow optimization
Outcome
Less manual effort, faster development cycles, fewer integration errors.
Why EmbeddedVector
- 9+ years embedded engineering experience
- Real hardware + lab-level execution mindset
- Reduced dependency on physical infrastructure
- Faster ECU delivery cycles
- Semi-AUTOSAR optimization expertise
- Production-grade automotive engineering standards
How We Work
Flexible engagement models based on your project needs:
- B2B engineering partnership
- Hourly embedded engineering support
- Zero-hour contract engagement
- Fully remote ECU development delivery
Why This Matters
Traditional embedded development is slowed down by:
- Heavy AUTOSAR complexity
- Infrastructure dependency
- Manual validation cycles
- Fragmented toolchains
We replace that with: structured architecture + reusable components + automation-driven validation
EmbeddedVector is not an outsourcing vendor.
It is an embedded engineering execution system built to accelerate ECU development, reduce complexity, and deliver production-ready automotive software faster and more reliably.