A choice of 3 career paths to guide your career development

As soon as they return from their international placement, the aim is to finalise their career plans during the remaining months. To achieve this, and to take full advantage of the multi-disciplinary nature of the programme, several ‘pathways’ are offered at the end of the course.

Cloud Computing & Cybersecurity pathway

Cloud computing is revolutionising the way we design and deploy applications. Engineers must now master a constantly evolving technological ecosystem, including virtualisation, containerisation and orchestration. This migration to the cloud offers unprecedented flexibility and scalability but requires specific expertise to take full advantage of its benefits.

At the same time, cybersecurity is becoming a major issue in an increasingly digital world. Computer attacks are increasing in number and sophistication, jeopardising the confidentiality, integrity and availability of data. Security professionals need to develop advanced skills in protecting information systems, detecting threats and responding to incidents.
This pathway will train engineers to design high-performance, secure cloud architectures. They will acquire the knowledge needed to deploy applications in the cloud while implementing robust global security measures to protect data and infrastructures.

Software Engineering pathway

Designing tomorrow’s software solutions requires future engineers to work in technical environments where, in addition to their initial development skills, it has now become essential to think across the board about integrating the needs associated with new digital uses.

The handling and processing of massive data (big data, data analysis), machine learning, AI, secure design, and integration into native or hybrid cloud environments are just some of the areas that will be explored in this course, which will also focus on new software architectures. The focus will be on methods for designing software solutions based on quality and sustainable development.

Smart Systems pathway

Whether in areas linked to the transformation of industrial systems, the city or the home, the technological environment will revolve around intelligent, communicating, and autonomous objects. Smart factories, smart cities, or smart homes, these intelligent systems of tomorrow will will lead us to more complex but also richer interactions with our environments. To meet the challenges of increasing complexity, robotics will help to automate the operation of these systems. There are many examples: production lines, transport systems, domestic robots, etc.

These systems are expected to provide increasingly complex, coordinated services, while reducing their impact on the depletion of resources, particularly energy resources. Optimal design, control, automation and supervision are all at the heart of this specialisation. In addition to these aspects, this course will also enable you to take into account innovative software approaches, based in particular on the collection and processing of massive data and the implementation of artificial intelligence techniques, for example to ensure the diagnosis or predictive maintenance of all these systems.