The Opportunity:

As a Senior Electrical Engineer at GEMESYS, you will be working closely with the CSO to drive forward the R&D of our core concept.

You will be at the forefront of cutting-edge technology, collaborating with excellent specialists to develop the foundational technology for new AI solutions in various industries such as healthcare, space, energy, and robotics.

Your Role:

As a key member of the GEMESYS core developer team, you will be responsible for leveraging advanced knowledge in circuit theory, numerical simulation, and digital signal processing to design and numerically analyze complex electrical systems for our brain-like chip. With a focus on innovation and a deep understanding of circuit theory, your role involves staying updated on the latest advancements and contributing to both soft- and hardware development through conceptual insights.

• Utilize advanced knowledge of system and circuit theory to design, model, and numerically analyze complex self-organizing electrical systems with memory.
• Develop and simulate innovative electrical circuit models based on lumped elements on a higher abstraction level.
• Modeling dynamical systems based on theoretical models including formulations with ordinary differential equations and/or represented by ideal electrical circuits.
• System theoretic analysis and optimization of theoretical electrical circuits considering numerical performance issues.
• Employ cutting-edge simulation techniques of electrical circuits to ensure accuracy and efficiency in system analysis.
• Utilizing digital signal processing methods to enhance the numerical representation of electrical circuits based on theoretical/ideal models.
• Stay abreast of the latest advancements in circuit theory, numerical simulation, and digital signal processing.
• Contribute to soft- and hardware development through conceptual insights and building a technical bridge between those domains.

What you bring:

We are seeking an innovative Electrical Engineer with a deep understanding of circuit theory and expertise in advanced modeling and numerical simulations of electrical circuits.

Essential:

• Master’s (or doctoral) degree in electrical engineering or a related field with a focus on signal processing and system modeling.
• Proven expertise in circuit theory with a strong track record of analyzing, modeling, and synthesizing electrical circuits based on emerging technologies.
• Extensive experience in conducting numerical simulations of dynamical systems using state-of-the-art tools (numerical integration methods).
• Very good knowledge of modeling and simulation tools such as Matlab, Python, and Spice-based circuit simulators.
• Good knowledge and experience in FIR and IIR filter design.
• Demonstrated ability to solve complex engineering problems and contribute to innovative solutions.
• Excellent communication skills and the ability to collaborate effectively with multidisciplinary teams.

Preferred:

• Familiarity with digital signal processing methods is highly advantageous.
• Experience in AI research and development is a plus.