Leading developer of REAL-TIME SYSTEMS INDUSTRIAL AUTOMATION for high speed ‘and AUTOMOTIVE. Support TRANSITION TO MULTI-CORE industrial software applications with real-time requirements (motion & control, high-speed quality monitoring, sensor fusion, precision robotics, etc). Supply of solutions based on platforms such PERFORMANCE Industry (GPU SoC, MANY-CORE, FPGA and heterogeneous architectures). On these issues, they have different active and EUROPEAN INDUSTRIAL PROJECTS, with a total funding of over two million euros in 2013.
European-level projects of particular interest are P-FP7 SOCRATES (Parallel Software Framework for Time-Critical Many-core Systems, FP7-ICT-2013.10), H2020 Hercules (High-Performance Real-Time Architectures for Low-Power Embedded Systems, classified first in the call H2020-ICT-04-2015), ENABLE-S3 (European Initiative to Enable Validation for Highly Automated Safe and Secure Systems, H2020-ECSEL-2015) and I-MECH (Intelligent Motion Control Platform for Smart Mechatronic Systems , H2020-ECSEL).
And ‘at activation an international competence center with NVIDIA on the management of heterogeneous platforms based on Next-Generation GPU for real-time industrial applications (mainly in the field and AUTONOMOUS DRIVING AUTOMOTIVE). Support of scheduling and schedulability ‘analysis of the processing systems for industry 4.0. OPERATING SYSTEMS REAL_TIME and EMBEDDED systems. SAFETY predictability and characterization (e.g., ISO 26262, ASIL requirements, etc.). Impact in the following points mentioned by the Government in the project Industry 4.0: (i) Increased productivity through reduced set-up times, reduced errors and downtime; (Ii) Improved quality and reduced waste by means of sensors that monitor the production in real time.