Early stages of the Client's next Software Platform evolution development for new Fully Networked Vehicle (FNV) Electrical Architecture. Project is focused on creation of the modern Software Defined Vehicle digital infrastructure. Target Software Platform will operate in variety of the environments and is critical to:
Expand the use of industry adopted APIs
Support high velocity application development
Enable next generation vehicle applications
Luxoft will focus on providing core parts for Automotive Middleware around AUTOSAR (Classic and Adaptive) including: networking, configuration, security, diagnostics, etc. Additionally Luxoft will participate in development of components for virtual environment. This virtual environment will provide support of the CI activities including: automated builds, virtual ECUs/Machines and automated testing support.
Project management maturity must reach ASPICE level 3. It requires establishing of the transparent project execution monitoring and control. Each participant will be responsible for providing evidences of systematic and significant achievement of the defined process attributes.
In this position you will be responsible for helping the FNV work streamlining, shaping the vision of the architecture and designs, assist in development and software verification process.
As an Architect you will define the overall system/software architecture and make high-level design choices that apply to the system as a whole and/or key subparts of the system.
You will be leading work around architecture, design and documentation of interfaces, and other design documentation. Furthermore, you will also support and coach the teams to follow architectural decisions taken on their daily work. You will be a part of the overall product quality work by defining needed guidelines for design and coding, together with teams.
Day to day responsibilities include:
Supports the definition of the overall architecture as well as the architecture of features/stories
Development of concepts and architectures in cooperation with the client
Creation of software architecture for system functions and software components in the embedded area, taking into account platform- and project-specific constraints (e.g. AUTOSAR Adaptive)
Creation of relevant architecture artefacts in project-specific tools according to process
Conduct and participate in meetings to coordinate with relevant stakeholders
Who we're looking for?
Excellent communication skills, both verbally and in written text.
Negotiation skills - including but not limited to conflict solving, problem-solving and decision making.
Ability to communicate advanced and complex concepts and ideas persuasively and concisely to all levels of the business
Leadership skills - including but not limited to mentoring, coaching, and training abilities.
Experience from software development and architecture on Automotive.
Experience with automotive software modeling tools and software architectures and standards e.g. AUTOSAR, GENIVI, AGL etc. and with Automotive SPICE, CMM, or other software development process models
Experience in the Platform and Functional Software development including OEM and Tier1 interaction.
Understands Networking Concept and has practical experience in setup of such projects
Experience in leading automotive SW development projects build around AUTOSAR Classic or Adaptive
Expert knowledge of C / embeddedNICE TO HAVE
Knowledge of vehicle bus-systems and protocols (SOME/IP, Ethernet, CAN, K-Line, LIN and MOST)
Experience in the implementation of agile development projects (e.g. SCRUM)
Experience in vehicle diagnostics (UDS, DoIP)
Experience with Infotainment features such as SDARs, Bluetooth, USB, Navigation, Hands-Free
Excellent Knowledge of automotive SoC Systems Architectures (ARM/INTEL) and Hypervisor solutions
Understanding of the Android Automotive platform
Hands-on experience in Linux platform
Understanding of the GENIVI and Yocto open-source components.
Practical experience in AUTOSAR Classic or Adaptive
Practical experience with Functional Safety (ISO 26262)