Deterministic Performance for Mission-Critical Systems
As systems move toward a Software-Defined future, the underlying hardware must evolve. Apitronix provides the silicon foundation for applications where "late data is wrong data." Our solutions simplify the path to safety certification while maximizing computational throughput.
Automotive: The Backbone of the Software-Defined Vehicle (SDV)
The transition to Zonal Architectures requires a radical rethink of the Electronic Control Unit (ECU). Apitronix enables OEMs to consolidate dozens of legacy MCUs into a single, high-performance real-time hub.
Zone Controllers & Central Compute
- ECU Consolidation
- Replace multiple discrete ECUs with a single Apitronix chip, drastically reducing vehicle weight, wiring complexity, and Bill of Materials (BOM).
- Mixed-Criticality Integration
- Run ASIL D safety logic (Braking/Steering) alongside QM or ASIL B functions (Body Control/Gateway) on the same silicon with Hardware-Enforced Freedom-from-Interference.
- Predictable ADAS
- Execute perception-to-action loops with the deterministic latency required for Level 3+ autonomous driving.
Aerospace & UAVs: Precision at Scale
In flight-critical systems, unpredictability is not an option. Apitronix provides the "brain" for the next generation of autonomous flight and urban air mobility (UAM).
Deterministic Flight Control
- Rapid reconfiguration
- Non-brittle software and FFI means short deployment times
- Advanced dynamic control
- Improved agility and manoeuvering - move beyond PID
- Simplified certification
- Clear safety cases to meet DO-254 and DO-178C
- Secure Boot
- Hardware-encrypted code loading blocking reverse-engineering
- High performance inference
- Implement autonomy without heavy hardware and batteries
- Zero-Jitter Execution
- Architecture ensures flight control laws are executed with nanosecond-level precision
Cross-Industry Solution: The Apitronix Development Suite
We don't just provide silicon; we provide a streamlined path from model to metal.
- Simulink & Model-Based Design: Go directly from your control models to hardware execution. No more hand-coding complex drivers or optimizing for cache hits.
- Legacy Middleware Support: Seamlessly integrate with AUTOSAR environments while benefiting from hardware-level speed enhancements.
- Validation Tools: Built-in hardware tracing and performance monitoring allow your engineers to prove timing requirements during the development phase, not at the end of the project.