We are looking for a 3D Medical Device Platform Architect (Director level) to define evolution of 3D Platform that serves as a base for Treatment Planning software.
The position is open in San Jose, CA or Moscow offices.
Align Technology continuously invest in enhancing Treatment Planning Software capabilities from the perspectives of clinical innovation, levels of automation and user experience.
3D platform is a framework that serves as a foundation for these enhancements, and directly influence of the productivity of project teams and capabilities these project teams have in their hands.
We are looking for an architect who will define architecture solution for future framework and motivate all impacted teams to execute change.
In this role, you will
Collaboratively lead & build a vision of our future 3D computational environment, both client & server side in an environment constructed by a few 100's engineers
Collaboratively build a roadmap on how to get there within reasonable timeframe and resources
Evangelize your vision & roadmap by integrating the feedback from our global teams on three continents
Help all involved teams execute the roadmap and resolve all roadblocks small or large along the way
In this role, you’ll need
10+ years in Software Development
Excellent soft skills : intelligence, smooth communication, stress resistance, customer focus and charismatic, decision making
Strong С++ development background and broad knowledge of system software, kernel architecture, and hardware interfaces
Experience in designing architecture and implementing of large software framework for complex systems or enterprise solutions in CAD, Medical, Finance, Development or similar areas including components deployed in Cloud and GPU computing
Experience leading a small, high-velocity, professional software engineering team appreciated
Willingness to work within the constraints of a regulated agile Medical Device SDLC framework
Practical knowledge of 3D modeling tools and CAD kernels highly appreciated
Proficiency in basic geometric modeling and computational geometry methods appreciated