Come join the team that works on the latest and greatest delivery features for our Amazon customers such as in-home, in-car, in-garage, lockers, and more! We partner with various manufacturers such as Volvo, Ford, Kwikset, Chamberlain, and more to create delightful, convenient, and secure deliveries for our customers.
Amazon Flex is the system that collaborates with crowd-sourced and third-party delivery partners to complete all of Amazon’s deliveries. Our Amazon Flex application works in concert with our advanced logistics systems and technology. These technologies allow delivery partners to onboard, schedule delivery times in advance or on demand, and be guided through their deliveries with in-app mapping, navigation, and much more. Our ability to engage with, support and provide a world-class experience to both customers and our delivery partners has become more critical as we continue to expand the number of active delivery partners and target faster deliveries to our customers.
Being part of a customer obsessed company and working as part of this team, you’ll be responsible for the design, development, test, and deployment of a range of products that make it possible to deliver packages to customers in two hours or less all over the world. You will have an opportunity to conceptualize, design, build, test and own software systems. You will influence the technical direction of the team, work with many different technologies. If you are a software engineer with a creative flare, problem-solving skills, exposure to various technologies such as Swift or Objective-C, and/or Android Java or Kotlin and have the desire to help drive Amazon's next generation of delivery, we want to talk with you.
- 2+ years of non-internship professional software development experience
- Programming experience with at least one modern language such as Java, C++, or C# including object-oriented design
- 1+ years of experience contributing to the architecture and design (architecture, design patterns, reliability and scaling) of new and current systems.