Full Job Description
Autonomy is one of the leading technological advances of this century that will come to impact our lives. The work you’ll do at Applied will meaningfully accelerate the efforts of the top autonomy teams in the world. At Applied, you will have a unique perspective on the development of cutting edge technology while working with major players across the industry and the globe.
As the foremost enabler of autonomous vehicle development, Applied Intuition equips engineering and product teams with software that makes it faster, safer, and easier to bring autonomy to market. Applied’s suite of products, focused on simulation and analytics, delivers sophisticated infrastructure built for scale. Companies of all sizes use Applied to comprehensively test and rapidly accelerate their autonomous vehicle development. Headquartered in Silicon Valley with offices in Detroit, Tokyo, Munich, and Seoul, Applied is composed of software and automotive experts from the top companies in the world (such as Google, Amazon, Apple, Waymo, Tesla, Delphi, GM, and Bosch).
About the Role
We are looking for candidates experienced in the areas of AUTOSAR tooling, virtual networking and virtual ECU simulation. This role will focus on leading our initiatives related to allowing customers to run simulations at the virtual ECU level, with a focus on AUTOSAR Classic architecture. We are trying to bridge the gaps due to complexity in AUTOSAR development practices and SIL simulation, through virtualization of ECUs and communication networks during simulation. At Applied, we encourage all engineers to take ownership over technical and product decisions, closely interact with users to collect feedback, and contribute to a thoughtful, dynamic team culture.
At Applied, you will
Design and implement core components of our proprietary vECU simulation engine
Contribute to projects related to tooling to manage AUTOSAR manifests and model based design workflows
Work with top automotive companies to understand and solve unique challenges in simulation-based development and scalable testing of autonomy stacks using virtual ECUs
We’re looking for someone who
Has experience with AUTOSAR software development methodologies and tooling
Has deep experience with embedded controller software development and networks in the context of the automotive industry
Has experience developing virtual networks and/or virtual ECUs either in an industry or research context
Has a deep understanding of the software development and validation workflows used in the automotive industry, and has experience building tools to improve the workflows
Has experience Implementing tools for AUTOSAR and/or virtual ECUs in Python & C++
Nice to have
Experience with CPU instruction-set emulation for ARM and other CPU architectures
Desire to build tools that have an impact across the entire automotive industry