We design and implement embedded software from planning to verification. Our focus is safety-critical and electric propulsion systems, from battery management through power distribution to motor control. We excel in creating efficient base software for your application or develop our own complete solution that satisfies all your requirements.
Our engineers are well established in DO-178C and DO-331, capable of delivering DAL-A software for your vehicle. We help in your software planning, design, coding, integration and also verification with seamless collaboration.
Test through Hardware in the Loop (HIL) simulators to accelerate your project. With our own, scalable desktop HIL solutions you don’t need the whole system to test, verify and validate your concept. We help you iterate early on, to build trust in your concept, test early and save cost.
We believe that complex systems are not simply the sum of its components. Our holistic approach helps you understand your design space better, highlight dependencies and help optimize your solution. With the right approach we help you refine your concept and propose your alternatives to make sure you design the right system.
We work in a structured way, following industry processes like ARP4754B to ensure proper documentation for your certification efforts.
Building models and system simulations help you design the right solution. We build system level, multi-domain models, run mission profiles and several failure scenarios to gain a robust understanding of the system behavior and help you in iterating to find the right design.
We embed safety and reliability into every stage of our design process. By incorporating reliability targets from the outset, our final products achieve low failure rates and extended operational lifespans.
Safety considerations are integrated throughout the entire development life cycle, ensuring that the end product is suitable for its intended safety-critical application. Early identification of safety targets allows us to influence design decisions proactively, minimizing the need for costly modifications later in the development process.
Our safety protocols align with established industry standards such as ARP4761A, ensuring comprehensive assessment of all safety-related aspects during development and providing documentation towards the certification efforts.
As part of our safety activities, we construct fault trees to analyze potential failures in complex systems and conduct Failure Mode and Effects Analyses (FMEAs) to understand the impact of individual component failures. By interlinking our safety methodologies, we validate our design approach and significantly reduce the risk of human error.
Clear and consistent requirements are the foundation of every successful development project. We support you in capturing, analyzing, and managing requirements from the earliest draft to validation, with full traceability and alignment with your certification objectives.
Our engineers have a background in industry standards such as DO-178C, DO-254, and ARP4754B, enabling us to structure requirements according to the highest design assurance levels. We help you decompose system-level needs into hardware and software requirements, ensuring completeness, consistency, and feasibility at every stage.
By applying proven methods and tools, we establish a seamless requirements flow and traceability to design, implementation, and test cases. This structured approach allows early identification of gaps, conflicts, or risks to prevent costly redesigns later and strengthen your certification evidence.
We design and develop hardware solutions from architecture to verification, with a focus on safety-critical and electric propulsion systems. Our expertise covers hardware architecture, schematic design, PCB layout, analysis and testing, ensuring robust and certifiable electronics tailored to your application.
Our engineers are experienced in DO-254 processes, capable of delivering DAL-A hardware to meet the highest certification requirements. We address key challenges such as component selection, power distribution, signal integrity, lightning protection and EMC/EMI compliance from the earliest design stages to ensure reliable performance in demanding environments.
Testing and verification are integral to our workflow. Through structured verification activities, we detect issues early, reduce risks, and deliver hardware that is reliable, safe, and ready for certification.
We specialize in robust mechanical solutions for electric propulsion systems, with a strong focus on electric machines and their surrounding mechanical architecture.
Our expertise covers the entire development lifecycle, from initial requirements through to detailed manufacturing drawings to ensure structural integrity, precision, and manufacturability at every step.
We perform comprehensive stress analysis and tolerance chain evaluations, enabling designs that are optimized for lifetime durability and performance under demanding operating conditions.
As part of our integrated development approach, we also address thermal management challenges. Using advanced CFD simulations, we analyze and optimize the cooling performance of mechanical and electrical components and assemblies to ensure that heat dissipation, airflow, and material selection are aligned to maintain efficiency, safety, and long-term reliability.
We manage the full development lifecycle, from initial requirements through design, implementation, verification, and certification support. Our multidisciplinary expertise ensures that hardware, software, systems, safety, and mechanical aspects are developed in a coordinated and traceable manner.
Following industry standards such as ARP4754B, DO-178C, and DO-254, we maintain full documentation and traceability across all phases. Through iterative development and early validation activities, we identify issues quickly, reduce risks, and improve efficiency throughout the project.
With structured project planning, rigorous verification, and proactive risk management, we deliver integrated solutions that meet your technical, safety, and certification requirements.
