1. ARTEMIS - Strengthening Embedded Systems R&D ARTEMIS Information Meeting – Copenhagen February 26, 2009 Jan Madsen, DTU Informatics

2. Agenda  Embedded Systems and Challenges  ARTEMIS Strategic Research Agenda & ARTEMIS JU  Embedded Systems Landscape in Denmark  SYSMODEL, an ARTEMIS JU project from Call 1 Jan Madsen - 2

3. Embedded Systems are Everywhere Jan Madsen - 3 oo ooo o o o o o o o o o o o o o o o o o o o o o o o o o o o

4. ARTEMIS vision Maintain and consolidate European world leadership in Embedded Computing technologies which are crucial for the competitiveness of many important sectors of key EU industry and for key applications (e.g. energy, security, safety, health environment and well-being) Jan Madsen - 4 (picture from ARTEMIS European Technology Platform)

5. Jan Madsen - 5 Evolution of Embedded Systems IO CPU Memory Single-processor systems 1980-90’s IO CPU Memory IO CPU Memory IO CPU Memory Proprietary, Fixed function Multi-processor systems 2000 IO CPU Memory IO CPU Memory IO CPU Memory IO CPU Memory IO CPU Memory IO CPU Memory IO CPU Memory IO CPU Memory IO CPU Memory IO CPU Memor y IO CPU Memor y IO CPU Memor y IO CPU Memor y IO CPU Memor y IO CPU Memor y Networked (ad-hoc, opportunistic) Reconfigurable Processor Ecosystems 2010+

6. Jan Madsen - 6 The Design Productivity Challenge  ARTEMIS aims to close the design productivity gap Reduce cost of system design by 15% Achieve 15% reduction in development cycles Manage complexity increase of 25% with 10% effort reduction Reduce by 15% the effort for re-validation and re-certification Achieve cross-sectoral reuse e.g. automotive, aerospace and manufacturing Complexity Expectation Capability GAP Time

7. Jan Madsen - 7 ARTEMIS Strategic Research Agenda

8. Jan Madsen - 8 ARTEMIS SRA: Application Contexts  Industrial systems Large, complex and safety critical systems, that embraces Automotive, Aerospace, Manufacturing, and specific growth areas such as biomedical  Nomadic Environments Enabling devices such as PDAs and on-body systems to communicate in changing and mobile environments, that offer users access to information and services while on the move  Private Spaces Such as homes, cars and offices, that offers systems and solutions for improved enjoyment, comfort, well-being and safety.  Public Infrastructure Major infrastructure such as airports, cities and highways that embrace large scale deployment of systems and services that benefit the citizen at large (communications networks, improved mobility, energy distribution, intelligent buildings,...).

9. Jan Madsen - 9 ARTEMIS SRA: Research Domains  Reference Design & Architectures Creation of a generic platform and a suite of abstract components with which new developments in different application domains can be engineered with minimal effort.  Seamless Connectivity & Middleware Middleware, operating systems, and other functions required to link the physical world, as seen by the networked nodes, to the higher layer applications. A vital element in the model of future Embedded Systems.  Design Methods & Tools Essential for rapid design and prototyping, without which it is unrealistic to attempt development of such complex systems. The objectives are : design efficiency, systematic design, productivity and quality.

10. Jan Madsen - 10 ARTEMIS-JU Research Agenda: relationship to the ARTEMIS SRA  ARTEMIS-JU programme addresses the Research Domains and Application Contexts identified in the ARTEMIS SRA

11. Integrating R&D and Innovation  R&D 8 Sub-programmes: application-oriented eco-systems address key applications for European prosperity and wellbeing Priorities within each sub-programme  Innovation Collaborative Innovation “CoIEs”, which are the kernel of eco-systems SMEs, Education, Standardisation Business Models (e.g. Open Source, …), Tool-Platforms New concept, addressing long-standing obstacles External Relations: with existing initiatives (FP7, ITEA2, NSF,…), and new ones Jan Madsen - 11

12. Jan Madsen - 12 ARTEMIS-JU Research Agenda: Main relationships to the ARTEMIS SRA  SP1: Methods and Processes for Safety-relevant Embedded Systems  SP2: Person-centric Health Management  SP3: Smart Environments and Scalable Digital Services  SP4: Efficient Manufacturing and Logistics  SP5: Computing Environments for Embedded Systems  SP6: Security, Privacy and Dependability  SP7: Embedded Technology for Sustainable Urban Life  SP8: Human-centric Design of Embedded Systems

13. Embedded Systems Landscape in Denmark  Industry Design Houses: Developing embedded platforms Prevas, Data Respons, Develco, GateHouse, Logos Design, PAJ, Axcon, … End Users: Using embedded platforms Danfoss, Grundfos, Novo, B&O, Nokia, Terma, SKOV, SIB Development, ICEpower, …  Academia DTU, AAU, SDU, AU Jan Madsen - 13

14. Embedded Systems Landscape in Denmark  Projects DaNES MoDES Quasimodo SYSMODEL  Regional Centers CISS/AAU CSI/SDU Alexandra/AU “ESIC”/DTU  Innovation Network DiNES Jan Madsen - 14

15. “Embedded System Innovation Center” Jan Madsen - 15 Cluster operator, Scion DTU End UsersDesign Houses DTU Informatics DTU Electro DTU Photonics DELTA Projects

16. ARTEMIS Project from Call 1  SYSMODEL SP5: Computing Environments for Embedded Systems SMEs Education Tools Platform Open source  Scandinavian setup Denmark, Sweden, Finland, Norway 8 SMEs and 3 Universities Jan Madsen - 16

17. SYSMODEL: Aim & Focus  Aims at providing SMEs with system level modeling tools for the design and implementation of time and power critical, heterogeneous systems  Focus is on the development of modeling concepts, methods and tools that master system’s complexity by allowing cost- efficient mapping of applications and product variants onto an embedded platform; while respecting constraints in terms of resources (time, energy, memory, etc.), safety, security and quality of service Jan Madsen - 17 SYSMODEL

18. SYSMODEL: Structure Jan Madsen - 18 SYSMODEL

19. SYSMODEL: Approach Jan Madsen - 19 AcademiaSYSMODELIndustry C/C++ SystemC Models & ToolsMethodsApplications & Cases SystemC Hybrid Simulation Analysis & Exploration

20. Jan Madsen - 20