Excellent knowledge of the Microsoft Azure ecosystem and an understanding of the limitations, pitfalls and benefits knowledge in AWS is a plus. At least 5 years of professional experience in a similar position, where you gathered strong experience in designing and developing cloud-based web applications in an agile environment. Diploma or master on Computer Science / Software Engineering or comparable educational background. Diploma or Master in Computer Science/ software Engineering or comparable educational background. Lead the internal and external development resources, and coordinate deployments, testing and release of the application including documentation. Actively drive the development of the projects being part of the agile release train (Scaled Agile Framework -SAFe) and in agreement with the Product Owner and the Solution Architect, define functional and non-functional specifications for the application. After all, behind every successful company are many great fascinating people.Īs part of the digitalization initiative of Carl Zeiss, be responsible for technical alignment and definition of requirements of agile projects within the frame platform. That’s just what our employees are doing every single day - in order to set the pace through our innovations and enable outstanding achievements. Step out of your comfort zone, excel and redefine the limits of what is possible. Many of these lessons can be used to integrate systems thinking into your daily life.Development Engineer - Applications R&D (m/f/x) We review the modeling process and how each modeling stage can reveal profound insights into a topic. In this step, we test the impact of each parameter on the overall 
In the final session, we discuss more model results with sensitivity analysis. Reflect on the modeling process and key lessons. We discuss the quantitative model and compare the behavior that it produces to the reference mode.Ĭlass 3: Sensitivity Analysis and Debrief Learn about the key building blocks and how a dynamic hypothesis can be turned into a quantitative model. Finally, we develop a dynamic hypothesis (qualitative model) that helps to explain the reference mode behavior. We talkĪbout different shapes of behavior and how a system can produce these.
To do so, we identify a reference mode of behavior to focus the discussion. To build a model, it is key to clearly define the issue. Course Overview Class 1: Reference Mode and Dynamic Hypothesis
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