ARTEMIS The Embedded Systems European Technology Platform

ARTEMIS The Embedded Systems European Technology Platform

Technology Platforms : the concept Conditions A recipe for success Industry in the Lead Flexibility Transparency and clear rules of participation Staged Approach Openness to wide Stakeholder Involvement 1: Stakeholders get together Operational focus from early stage 2: Stakeholders define a Strategic Research Agenda Commitment of National Authorities 3: Stakeholders implement the Strategic Research Agenda Consider Financial Aspects at outset

ETP : Industry Motivation Stimulate new research Exploring wider range of technological options Sharing ideas for greater creativity for enhancing breakthrough Bridge frontier and down-stream research Take more risks to enable more and faster innovation better take-up of research results into products [and tools] establishing new markets pooling investments and sharing the risks Enrich the eco-systems to foster economic growth Business models supply chain Enhanced value Gain continuity of technological solutions Avoid dependency Keep European added value

ETPs Value-added Opportunity & Impact The ARTEMIS case Business Model Value-Added Services Industry creates revenue by providing services based on ARTEMIS ES Value Stack Product-Driven Business Model Product Services Sys Integration Software System Products proprietary Products, proprietary IP Electronics Device Applications Device Middleware Products Embedded Platforms Time ARTEMIS contribution : Applications for multiple vertical markets ARTEMIS contribution Middleware architectures which can be distributed and composed. Competitive advantage from proprietary IP, limited-use products will diminish ARTEMIS contribution Nearly ubiquitous networked embedded intelligence will capture more value

ETPs Value-added Opportunity & Impact EMBEDDED SYSTEMS R&D IN EUROPE Investment in R&D has a direct impact on economic growth. The table below compares R&D related parameters for Europe with those of the USA and of Japan. Figures from 2003 (source: European Commission) EU-25 US Japan R&D Intensity (% of GDP) 1,97 2,59 3,12 Researchers per thousand labour force (FTE) 5,5 9,0 9,7 Share of world scientific publications (%) 38,3 31,1 9,6 Scientific publications per million population 639 809 569 High-tech exports as share of total manufacturing exports 19,7 28,5 26,5 Share of world high-tech exports (%. 2002 figures) 16,7 20,0 10,6

Why ARTEMIS? ARTEMIS - Advanced Research & Technology for Embedded Intelligence in Systems is the Technology Platform for Embedded Systems. The term Embedded Systems describes electronic products, equipment or more complex systems, where the embedded computing devices are not visible from the outside and are generally inaccessible by the user.

Why ARTEMIS? Embedded Intelligence challenges are: In business : Industry under huge competitive pressure In technology : Complexity becomes unmanageable, power consumption, interoperability, security, quality.... Structural : fragmented EU landscape, skills gap, standards, certification and open source policies, innovation environment,

Stage 1: Getting the Stakeholders together : Building Artemis Industrial support 9 of the 25 top-ranked EU companies are members of the ARTEMIS Board spending 31 b /y in R&D (30% of total R&D of TOP 500 EU companies)

The Artemis European Technology Platform ARTEMIS case Aim and Scope Develop and drive a joint European vision and strategy on Embedded Systems with societal and economical consequences Competitiveness of most industry sectors will rely on embedded systems innovation capability Embedded systems technologies become critically important in rebalancing productivity growth in Europe, the US and Asia Security, safety, health, and well-being in our society will increasingly depend on embedded systems technologies Align fragmented R&D efforts in the ERA along a common strategic agenda at Community, intergovernmental and national levels

The Artemis Strategic Agenda development A strategy to win : Application Drivers to respond to business needs Public infrastructure Healthcare Government Education Private spaces Industrial Nomadic Home Nomadic environments ARTEMIS strategy is to establish common technology to support the development of high value-added Embedded Systems for multiple application contexts.

Technology challenges The Technology domains and challenges

The Artemis Strategic Agenda Technology challenges Foundational science & technology research To generate new solutions to recognized problems and explore the unknown so that a steady flow of innovative ideas in the field of novel Embedded Systems is maintained: Bridge physics and computing Optimal use of time, space, energy and material properties Hard real-time control Truly novel computing architectures Modular, heterogeneous, composable, self-organising, adaptive systems Dependability and security Correct-by-construction design A distinction is made between inquiry-driven foundational research and targeted foundational research. ARTEMIS research aims at establishing a scientific and technologic basis for embedded systems design in Europe

The Artemis Strategic Agenda Concrete Objectives and Targets to be attained by 2016 50% of embedded systems deploy Artemis results worldwide Twice as many SMEs engage in embedded systems supply chain Realise an integrated chain of European-sourced tools, to support development of embedded systems Generate at least 5 radical innovations, comparable to µ-processor, dsp, software radio, etc. Double the number of patents Reduce cost of system design by 50% Achieve 50% reduction in development cycles Manage complexity increase of 100% with 20% effort reduction Reduce by 50% the effort for re-validation and re-certification Achieve cross-sector reuse ARTEMIS imposes objectives that really matter

Stage 2 :The ARTEMIS Strategic Agenda ARTEMIS SRA Holistic vision founded on Open Innovation ARTEMIS SRA assumes an inclusive approach : The ARTEMIS vision and targets A strategy The Research Agenda itself And how to make it Happen by Coordinating the European Research Priorities, And creating an ARTEMIS Innovation environment

Stage 2 :The ARTEMIS Strategic Agenda Research domains vs. application contexts : the complete synthesis of the SRA Application Drivers and Contexts Research Domains Foundational science & technology Industrial Nomadic Environments Private Spaces Reference Designs & Architectures Seamless connectivity & Middleware System Design Methods & Tools Public Infrastruc ture Multi-domain, re-usable, Innovation and Research results Common objectives: Sustainability Design Efficiency Ease of Use High added value Time to market Modularity Safety / Security Robustness Competitiveness Innovation Cost reduction Interoperability ARTEMIS research cuts barriers between application sectors, stimulating creativity and yielding multi-domain, re-usable results

Stage 2 :The ARTEMIS Strategic Agenda Research Priorities Reference Designs & Architectures Highest priority Composability Architecture Dependability Design for Safety High priority Design for Manufacturing limitations Reference architectures for Parallel systems Multi-aspect Trade-off in Designs Resource management Design for (Inherent) Security Self Organisation of systems Seamless Connectivity and Middleware Highest priority Resource management High priority Robustness & diagnosis Programming Organization & deployment Provably correct systems Global connectivity Medium priorities Security Data distribution Design Methods & Tools Highest priority System-level modelling: Model-based Design / System Engineering Test / validation / verification High priority Tool Integration Tools and methods for affordable certification Medium priorities Resource management Tools for Product Line Engineering Simulation environment that can mix physical elements and virtual models ( cosimulation ) Traceability: Requirements to product, visible at any step of the process

Innovation Environment : ARTEMIS Case The ARTEMIS SRA addresses the Innovation Environment required to stimulate investment in Embedded Systems R&D and Innovation To establish Centres of Excellence (Innovation) To bring support for SME s Establishing successful, new SMEs Stimulating growth of existing SMEs To support Open Source initiatives To help emergence of new Standards and Regulation To help engage Industry with the Academic Research & Education Community

Stage 2 :The ARTEMIS Strategic Agenda SRA Development The Reference Design and Architecture : By mapping common requirements and constraints for future embedded systems, establish a generic reference designs and architectures that can be tailored optimally to their specific application context. The Seamless Connectivity & Middleware : Addresses the needs for communication: at the physical level networks; at the logical level data; at the semantic level information and knowledge. The Systems Design Methods and Tools : Research towards implementation of Methods and Tool Reference Framework to enable end-to-end process optimisation and optimise often conflicting goals such as system adequacy to requirements, customer satisfaction, design productivity, time to market, etc.. + Foundational science and technology - to explore the unknown and insure a steady flow of advance research by addressing both inquiry driven and targeted foundational research and fostering scientific breakthroughs.

Stage 2 :The ARTEMIS Strategic Agenda SRA Development Building ARTEMIS ARTEMIS ARTEMIS SRA SRA Reference Designs & Architectures Seamless Connectivity & Middleware System Design Methods & Tools Innovation Environment Reference Designs & Architectures Seamless Connectivity & Middleware System Design Methods & Tools Release to ARTEMISIA November 2006

Stage 3: ARTEMIS The deployment Strategy

ARTEMIS From Vision to Implementation VISION SRA IMPLEMENTATION ARTEMIS is now a strong platform, from which future research and innovation environment into Embedded Systems are addressed.

Other ETPs relating to ES ICT ETPs ENIAC European Nano-electronics Initiative Advisory Council ARTEMIS Advanced Research & Technology for Embedded Systems NESSI Networked European Software and Services Initiative emobility Mobile & Wireless Communication Technologies TP EUROP European Robotics Platform Photonics21 Photonics for the 21st Century ISI Integral SatCom Initiative EPoSS The ETP on Smart Systems Integration Overlaps are not to be avoided or cut through with hard boundaries Establish joint working to deal with overlaps Ensure that appropriate people are engaged at the points of intersection. Interfaces between platforms should be embedded in the SRAs

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