The mission of this project is a methodological approach towards complementing the gaps in current HE courses and taking up high performance computing (HPC) knowledge for future science, technology, engineering and mathematics (STEM) professionals. HPC, often called super-computing, is a mandatory tool addressing problems that are too complex for desktop or laptop computers. For data analyzing, the size of the researched problem is limited by the RAM available in the computer and by the maximum object size. Therefore, data files with sizes up to a few GB can be analyzed. However, using HPC we can scale this limit up to several PB (1,000,000 GB) by using frameworks for distributed data storage and parallel processing. HPC enables researchers to use much bigger (therefore much more accurate) models (meaning many more equations and variables) to simulate the performance of new products, materials, medications etc. in a virtual environment.Our insight on the topic has revealed a regional wide requirement. Although in the smart strategy specialisation (S3) within the EU strategy, the topic of HPC adoption has been recognised, there is currently a lack of national programs. In recent years there is increased activity aiming at filling this gap – countries involved in this Erasmus+ call are establishing new HPC competence centres (EuroHPC program). Through them, basic educational programs are foreseen – HPC literacy programs for researchers, but a further systematical approach (bottom-up) is needed to efficiently raise the level of knowledge of HPC. Furthermore, the EU has made the decision to establish large “pre-exascale” and “exascale” trans-European centres that will meet the needs of scientific disciplines and be able to compete with similar centres in USA, China and Japan. In order to compete in this area of expertise, it is necessary to have experience in developing applications that exploit the high capacities of HPC. In recent years, there is an increased need of the industry to incorporate super-computing in their Research & Development and thus increase their own competitiveness.Unfortunately, current established courses in HE do not offer comprehensive support for HPC adoption. Therefore, researching and knowledge gathering through involvement of all project participants will raise the level of competences in STEM. Furthermore, success of the developed training will offer a starting point for future implementation of such a program into HE courses. Project partners included in the project are:- University of Ljubljana, Faculty for Mechanical Engineering, Slovenia,- IT4I, Czech national HPC center as part of VŠB University in Ostrava,- VSC (Vienna Scientific Cluster) Research Center of TU Wien, Austria,- CINECA, consortium of all Italian universities taking care of HPC and IT infrastructure.The project addresses the issue of raising the HPC knowledge by educating the educators and thus preparing them for future implementation. During the project duration, research in the field of HPC in Engineering and Data science is divided into four stages, each covered by an output:- O1; covering the topic of HPC in Engineering – focus on FEM (Finite Element Method),- O2; covering the topic of HPC in Data Science – focus on Parallelisation with MPI,- O3; covering the topic of HPC in Engineering – focus on CFD (Computational Fluid Dynamics),- O4; covering the topic of HPC in Data Science – focus on IOT and Big Data,- O5; combined collection of knowledge on the topic of HPC in Engineering and Data Science.Within each objective, output will include the creation of a knowledge base in form of lectures (core knowledge) and exercises/tutorials (hands-on approach) that form content, available through an e-learning portal. The e-learning portal enables better informing about the program, increases availability, tailoring of presented topics for specific area and offers better inclusion for enrolled participants. The relevance of the collected topics will be tested by introducing training events that will benefit both the verification of knowledge transfer to students and the enhancement of the educators by gaining experience. At the end of this program, the covered long term impact will present:1.) increase of knowledge and competences of educators (covered during every stage of project duration)2.) creation of 4 different training packages, available through the e-learning portal, that include both theoretical background and hands-on practical exercises (covered by O1-O4 output)3.) a well-organised accumulated knowledge covering individual topics of HPC in Engineering and Data science (covered by the last output O5) available through an e-learning portal and can be gradually introduced into current HE courses4.) training courses will enable transfer of knowledge to students already during the project duration (4 trainings, at each 7 participants from each project member, altogether 112 participants)

In this project, the participating organisations aimed to implement AlmaLaurea (AL) system (http://www.almalaurea.it/en) in Turkey. AL is a nonprofit interuniversity system designed and developed in Italy used by 65 member universities and the Italian Ministry of Education, University and Research. AL keeps track of students and plays a major role in matching university graduates and employers. Unlike commercial solutions through which employers and employees can match, AL system offers a more comprehensive solution both for the job matching process and for the enhancement of the education quality. AL system provides annual reports containing a detailed data analysis of graduates’ information (academic background certified by the university, satisfaction with the education received and with the university overall, geographical, social and economic background, work and internship experiences, future plans, and the sectors in which graduates work) to universities and participating organizations. It can be understand that the aim was to adapt the system according to the needs of the labor market and the higher education in Turkey. There were three participating universities from Turkey: Izmir University (which was closed due to statutory decree in July 2016), the coordinator, Ege University, and Sinop University.

Global energy demand for information and communication technologies may reach up to 20% of total energy by the end of the decade. Innovations on transistor technologies, following Moore’s law, can in part compensate for this rise and improve sustainability by providing more energy-efficient electronics. However, the energy-efficiency of CMOS is limited by the Boltzmann physics, which sets a lower bound on the operating voltage, and thereby the power. To sustain miniaturization, and improved performance of electronics, new transistor technologies are needed that can overcome this limit. AttoSwitch will develop a novel cold-source transistor technology that uses the intrinsically cold carrier distribution of Dirac semimetals to overcome the Boltzmann limit. The main objective is to develop a scalable Dirac transistor technology based on large-area integration of 2D and 3D Dirac materials, e.g. graphene and CoSi, and the realization of high-performance device demonstrators at technologically relevant length scales. Key demonstrators are based on graphene integrated with MoS2 and WSe2 channels, as well as novel work on 3D Dirac semimetals. Our methodology includes development of device process modules and extensive material and device characterization. Systematic modeling using new simulation frameworks plays a key part to benchmark and provide a road map for the technology. Our ambitious performance targets include a subthreshold swing of 35 mV/decade and a switching energy of 4 attojoule. The project links to ongoing European efforts, such as the 2D-experimental pilot line, and the goals set by the European Chips Act. AttoSwitch will impact the semiconductor supply chain at the technology and materials levels, and provide ultra-energy-efficient transistors for logic and high-frequency analog integrated chip markets. Outreach to students, training of young researchers and building international cooperation will also support Europe’s competitiveness in semiconductors.

The Voyage project has set up a web platform, active for an online students and companies registration. Set up in the Vietnamese beneficiaries universities, the platform collects, in a unique database graduates and future graduates data, namely educational experience’ assessment questionnaire data and Certified CVs. The platform has two main scopes: enhancing employability of graduates and strengthening the efficiency of the HE system for curricula reforms in line with labour market needs. The Voyage platform, developed on the graduates DB and conceived to easily integrate new Vietnamese universities, allows enterprises to search for Vietnamese graduates according to specific skill needs, while giving the graduates a comprehensive and democratic access to labour market. Platform data have been exploited to release the first Vietnamese Graduates Profile Surveys: an analysis of beneficiary universities graduates and graduates’ features and performance, including evaluation of university experience, family background and future intentions and perspectives. Guidelines for platform management, deployment and data use as well as a Training Compendium summarizing main training contents have been realized. In the framework of the project the Monitoring enterprises skill needs’ report and the Best Practices for Internship Promotion’ report in Vietnam have been developed. The first report provides feedback on skill needs required by Vietnamese companies as well as on the state of art of Universities-Enterprises cooperation in the country; the second report collects Vietnamese and European best practices for internships promotion. Beneficiaries' universities have agreed to the project sustainability plan detailing the platform configuration in Vietnam, tasks and functions assigned to Consortium members for the release of the main project's outcomes in the future. Project contents and publication are available online at http://voyage-project.eu