Hardware/Electrical Engineer - Functional Safety in Electronics (f/m/x) (21)

The Problem

Safety analysis.If you've done it, you know the drill.Weeks tracing failure paths through complex electronic systems.Datasheets, spreadsheets, and endless meetings.A small design change - months of analysis need to be revisited.The work is critical.The process hasn't kept up.In a time of self-driving cars, drones, and reusable rockets, engineers are still calculating FIT rates in spreadsheets.Modelwise asks: Why?One crucial step in hardware development still relies on methods older than the engineers using them.Modelwise is changing that.

We are building AI-powered software that automates functional safety analysis, freeing engineers from manual workflows and enabling innovation with safety by design.

Your Impact: Hiring Objectives

We are looking for an engineer skilled in modeling complex electronic systems, particularly digital integrated circuits and their behavior under injected failure conditions. The models you develop will form the foundation of our platform: high-trust representations of hardware behavior that make automated safety analysis possible.

• Build high-trust simulation models of complex electronic components. Using manufacturer data and internal modeling standards, you will develop simulation models of integrated circuits that accurately represent functionality and behavior under injected failure modes while remaining computationally feasible. This includes translating datasheets into SPICE models across power and logic domains and modeling complex digital ICs, discrete semiconductors, and similar components. Your work expands and strengthens Paitron's digital component library — enabling the seamless automation our customers rely on.

• Ensure the technical integrity of automated safety analyses. You will assess systems using your understanding of circuit elements, topologies, and their interactions. A strong understanding of solver engines and practical experience with simulation environments such as Siemens Xpedition, LTspice, Altium Designer, or Cadence ensures that relevant system behavior and failure effects are correctly captured. Your work safeguards the trust our customers place in our platform — and the safety of the systems they build.

• Push the technical frontier of automated safety analysis. You will contribute to research and development initiatives exploring new approaches for improving automated safety analysis. This may include prototyping AI-assisted model development, new failure-mode modeling techniques, digitalisation of safety standards, or VHDL-based modeling approaches. Your work directly expands the capabilities of the platform used by engineers designing the next generation of safety-critical systems.

• Collaborate on difficult engineering problems as a focused team. You will work closely with engineers across the company to tackle complex modeling challenges, participate in model and documentation reviews, and contribute to technical discussions that improve the quality of our product. Your contributions strengthen the engineering culture that allows a small team to solve unusually difficult problems.

Who We're Looking For

• Strong fundamentals in electronics. A Bachelor's or Master's degree in electronics, electrical engineering, or a related field - or equivalent practical experience.

• Experience designing and analyzing real hardware. 3+ years working with analog and digital circuits, hardware design flows, and simulation tools.

• Deep familiarity with electronic components and how they behave in real systems.

• Hands-on experience with circuit simulation tools. Examples include OrCAD, LTspice, KiCad, Cadence, or Siemens Xpedition.

• Experience building or debugging simulation models. Comfort working with solver configuration, convergence optimization, and simulation debugging.

• A solid mathematical intuition for simulation and solver behavior.

• Programming ability is a strong advantage. Experience with Matlab, Python, Java, C++, or similar languages.

• Experience with functional safety analysis is a significant plus.

• Clear communication and a strong sense of ownership. You can work independently while contributing effectively within an interdisciplinary engineering team.

Why Modelwise?

Engineers who join Modelwise often say four things stand out about the work.

• Fixing a problem engineers know too well. Safety analysis is slow, manual, and difficult to scale. Our technology turns that process into something automated, rigorous, and far more efficient, removing a genuine bottleneck in modern hardware development.

• Working on the most advanced systems being built today. Our customers are tackling some of the most complex electronics problems across automotive, aerospace, and industrial systems. Instead of working on the same architecture repeatedly, you will encounter new designs and technical challenges across cutting-edge industries.

• Building technology that matters in the real world. The systems analyzed with our platform power aircraft, vehicles, industrial machines, and critical infrastructure. Improving how these systems are designed means safer, more reliable hardware reaching the world faster.

• Owning your work and sharing in the outcome. We are a remote-first, outcome-focused engineering team. Engineers are trusted to take responsibility, move quickly, and solve difficult problems without unnecessary hierarchy. Alongside a competitive salary, our stock option plan allows you to participate in the commercial success of a fast-growing AI-powered deep-tech company.