1 / 17

Information Society Technologies Micro - and Nano- electronics in FP6 call 1

Information Society Technologies Micro - and Nano- electronics in FP6 call 1. Georg Kelm European Commission DG Information Society Unit C1 : Micro-, nano- and opto-electronics components georg.kelm@cec.eu.int. Presentation Outline. Framework Programme 6 : IST

keita
Download Presentation

Information Society Technologies Micro - and Nano- electronics in FP6 call 1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Information Society TechnologiesMicro- and Nano- electronicsin FP6 call 1 Georg Kelm European Commission DG Information Society Unit C1 : Micro-, nano- and opto-electronics components georg.kelm@cec.eu.int

  2. Presentation Outline • Framework Programme 6 : IST • Micro- and Nano-electronics in FP6 call 1

  3. Budgets for the Specific Programmes • Integrating & strengthening • Genomics 2,255 B€ • IST 3,625 B€ • Nanotechnologies, int.. 1,300 B€ • Aeronautics and space 1,075 B€ • Food safety 0,685 B€ • Sustainable development 2,120 B€ • Citizens in knowledge 0,225 B€ • Anticipation of S&T needs • SMEs 0,430 B€ • Specific InCo 0,315 B€ • Anticipating needs 0,555 B€ • Reinforcing ERA basis 0,320 B€ • Structuring ERA • Research and Innovation 0,290 B€ • Human resources 1,580 B€ • Research Infrastructures 0,655 B€ • Science/Society 0,080 B€ • Joint Research Centre 0,760 B€ 12,905 B€ 2,605 B€ 760 B€ 16, 270 B€ Euratom: 1,230 B€

  4. IST Strategic Objectives - networked organisations - services for mobile user - service & product engineering - eHealth - eInclusion - eSafety of transport - environmental risk mgmt - learning & culture - dependability & security - GRID-based systems & complex pb solving Applied IST research for major societal and economic challenges ‘anywhere, anytime, any service, for all’ core technologies & “pull-through” applications Components & microsytems Communication, computing & software technologies Knowledge & interface technologies  - mobile: beyond 3G - broadband access - networked audio- visual systems - software & services development - embedded systems - semantic-based knowledge - cross-media content - [post-]CMOS - optical, opto-el., photonics - micro & nano systems - displays - multi-modal interfaces - cognitive systems

  5. Defining the Strategic Objectives (1) • Reinforce leadership where Europe has demonstrated strengths, e.g. • mobile communications and services, broadband communications • micro-, opto-electronics & µsystems, • networked audiovisual systems... • Security and dependability,… • Seize new opportunities that arise from the ‘AmI’ vision and address weaknesses / threats critical for its realisation, e.g. • multimodal interfaces, semantic-based knowledge handling,.. • embedded systems, integration of sensing & actuating devices, ... • Knowledge and computing GRIDs

  6. Defining the Strategic Objectives (2) • Continued support to leading / challenging applications, responding to emerging needs, e.g. • eHealth, eInclusion, eLearning and culture, • Entertainment and leisure content • business support tools, networked organisations,... • Support to research at the frontier of knowledge • FET open • FET proactive • Cognitive science • Support to infrastructure development • Research networking test beds • Open development platforms • IST for safety in transport, risk management,..

  7. Time Table for calls 2003-2004 • Call 1 • opened 17 December 2002, • closing 24 April 2003 at 17:00 • Call 2 • opening 15 June 2003 • closing 15 October 2003

  8. FP6: Six instruments for “Priority Areas” • Integrated Projects • Objective driven • Networks of Excellence • Exploratory research • Article 169 • Member states initiative • Specific Targeted Research Projects • Address specific issues • Co-ordination actions • Support Actions New instruments No longer available ….. - Individual Take-up Actions - SME Exploratory Awards

  9. Presentation Outline • Framework Programme 6 : IST • Micro- and Nano-electronics in FP6 call 1

  10. 45 Design 40 35 18% 30 µElectronics Opto 25 IP 52% 48% 20 NoE Technology 15 10 34% 5 0 µElectronics Opto Technology Design Expressions of Interest 161 EoIs in Micro-, Nano- and Opto-electronics (analysis see http://www.cordis.lu/ist/ka4/mel/future.htm) Topics :devices CMOS limits SoC components compound semic. (IP re-use, material alternative devices RF, MS) (+ applicat.) lithography low power

  11. IST Workprogramme 2003-2004 Pushing CMOS, Preparing post-CMOS Micro & nano systems Broadband access for all Mobile & wireless systems beyond 3G Towards a global dependability& security framework Multimodal interfaces Semantic-based knowledge systems Networked AV systems& home platforms Networked businesses & governments eSafety of road & air transports eHealth eLearning & access to cultural heritage Advanced displays Optical, opto-electronic & photonicfunctional components Open development platforms for software & services Cognitive systems Embedded systems Applications & services for the mobile user & worker Cross-media content for leisure & entertainment GRID-based systems for solving complex problems Improving risk management eInclusion Products & services engineering 2010 FET Call 1 Call 2

  12. International Technology Roadmap for Semiconductors FP6 IST

  13. International Technology Roadmap for Semiconductors FP6 IST

  14. Topics for WP 2003-2004 (call 1) • Pushing the limits of CMOS and preparing for post-CMOS Prepare for electronic components of 2010 and beyond Focus on: Technology (down to 5nm) • nano CMOS : integration of advanced and non-CMOS devices, on-chip wiring • high frequency : facilitating ultra high frequency and power applications silicon-based or compound semiconductors including packaging • lithography : pushing the limits of lithography (including maskless) • alternative technologies and devices for post-CMOS: emerging nanoelectronics technologies for future applications • IPs may include equipment assessment activities

  15. Escalating Design Costs ! • Skill Shortage ! Transistors/Chip (M) Transistor/PM (K) 1,600my • Grand Challenge = Multiply productivity by 10 ITRS’99 IC Design “Productivity Gap” • Can we design what we can produce? IC Production Design productivity

  16. Topics for WP 2003-2004 (call 1) • Pushing the limits of CMOS and preparing for post-CMOS Improve design productivity by a factor of 10 by 2010 Focus on: Design : reliable 1 billion gate systems • system level : novel approaches to design better and faster improve system performance / reliability, specify / verify at system level, stimulate IP re-use, enhance flexibility / reconfigurability, optimize power consumption • improve the use of large systems (redundancy), improve testability • specific design challenges : mixed-signal, low power, RF, packaging • support change from board electronics to system-on-chip : develop, demonstrate and standardize architectures, design productivity • complement with education and training in design

  17. Websites for information General FP6 Site: (Legal texts etc). • http://europa.eu.int/comm/research/fp6/index_en.html Instrument fiches: • http://europa.eu.int/comm/research/fp6/networks-ip.html Contracts: • http://europa.eu.int/comm/research/fp6/working-groups/model-contract/index_en.html Expressions of Interests: • http://www.cordis.lu/fp6/eoi-instruments/home.html Micro-, nano- and opto-electronics components (Unit C1): • http://www.cordis.lu/ist/ka4/mel/index.html KEEP YOURSELF UPDATED Georg.Kelm@cec.eu.int

More Related