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Title: IST programme INTEGRATED PROGRAMME PORTFOLIO ANALYSIS 2004

1
IST programmeINTEGRATED PROGRAMME PORTFOLIO
ANALYSIS 2004
2
Outline of presentation

Why IPPA 2004 ?
Main findings
Facts and figures
Portfolio
Reinforce European strengths
Exploit new opportunities
Ensure the co-evolution of technology and
applications
Future visions and emerging technologies (FET)
Support infrastructure development
SWOT analysis
The future
Portfolio analysis and impact observatory

3
WHY IPPA 2004 ?

Contribute to impact analysis
Help define priorities for IST WP 2005-06
Contribute to IST priorities in FP7
Consolidation of call 1 and call 2 statistical
analysis
Snapshot of the project portfolio for each SO
of projects by instrument and budget
Budget distribution () per participating country
Budget for top 20 beneficiaries
Budget per organisation type
Objectives and planned deliverables
For each SO, coverage in terms of effort, actors
and expected impact
SWOT analysis.

4
Facts and Figures

Call 1
Closed April 2003 funding 1070m
236 projects negotiated and launched
Call 2
Closed October 2003 funding 525m
148 projects under negotiation or launched
Joint Call with production technologies
Closed April 2003 funding 60m
FET (Future and Emerging technologies) Open
Continuous call funding 60m

5
IST Calls 2003-04 Implementation

1,9 out of 3,8 Billion spent in calls in
2003-04
More than 400 projects supported
Out of 2500 proposals received
More than 6500 participations
Oversubscription

Funding per InstrumentIST Calls 1 2
6
Participation (I)
7
Participation (II)
8
IST Calls 2003-04 Participation
Academia
Industry
Non-profit org.
9
Participants Highlights

Organisations from Germany 1 in 15 out of 23
SOs
The Fraunhofer Ges. Institutes in top 20 in 21
SOs
University of Karlsruhe best funded university
Italian organisations 1 in 4 SOs
France 1 in 3 SOs
Industry top participants Philips, CEA,
Alcatel, Telefonica, France Telecom, Siemens,
Ericsson and Nokia

10
Top 20 participants

FRAUNHOFER GESELLSCHAFT
INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM VZW
DAIMLERCHRYSLER AG
COMMISSARIAT A L'ENERGIE ATOMIQUE
SIEMENS AKTIENGESELLSCHAFT
FRANCE TELECOM
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE
UNIVERSITAET KARLSRUHE (TH)
TELEFONICA
STMICROELECTRONICS SA
PHILIPS ELECTRONICS NEDERLAND B.V.
BRITISH TELECOMMUNICATIONS PLC
INSTITUTE OF COMMUNICATION AND COMPUTER SYSTEMS
INFINEON TECHNOLOGIES AG
TECHNICAL RESEARCH CENTRE OF FINLAND
CONSIGLIO NAZIONALE DELLE RICERCHE
KUNGLIGA TEKNISKA HOEGSKOLAN
DFKI GMBH
THALES COMMUNICATIONS S.A.

11
IST Calls 2003-04 Concentration

Concentration of effort and building critical
mass
Total number of projects selected 3 times less
than FP5 for an equivalent budget
Average budget of Integrated Projects 5 times
larger than FP5 projects
Setting up managing larger projects a
challenge

12
IST Calls 2003-04 Integration

More intensive collaboration between various
actors
Integrated Projects 2-3 times as many partners
per project
From industry, academia and public research labs
Concern over SME participation
Integration of effort in an enlarged Europe
important
International co-operation

13
Lessons for WP 2005-06 preparation

Large oversubscription in some fields
Networked Government, Networked Business, ICT
forHealth, Technology Enhanced Learning/ Access
to Cultural Heritage, software, Risk
Management and Mobile applications Around 10
Low SMEs participation
Call1 16 Call2 17
NoEs 7 IPs 15 STREPs 24
Integration of the ICT research effort in an
enlarged Europe
Participation of Member States that joined the EU
recently and of Associated Candidate Countries
below expectations (3 to 4)
International co-operation
Domain-specific approaches are needed

14
Lessons on new instruments

Observations coherent with conclusions of the
Marimon panel.
Further concentration
More ambitious proposals (IPs)
STREPs continue to be a flexible and well
understood instrument
Issues concerning NoEs
governing rules
optimal size of NoEs.
added-value wrt co-ordination actions or SSAs.
budgeting rules
practical implementation of lasting
integration.
integration across disciplines or across borders.
lack of industrial involvement in NoEs.

15
Portfolio analysis
130 MEuros
450 MEuros
120 MEuros
420 MEuros
480 MEuros
16
Defining the SOs Five main groups (1)

Reinforce leadership where Europe has
demonstrated strengths, e.g.
mobile communications and services, broadband
communications
micro-opto electronics µsystems,
networked audiovisual systems...
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,...
Knowledge and computing GRIDs,
Security and dependability,

17
Defining the SOs five main groups (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 systems
Support to infrastructure development
Research networking test beds
Open development platforms
IST for safety in transport, risk management,..

18
Reinforce leadership where Europe has
demonstrated strength

Microelectronics
Microsystems
Mobile and broadband communications
Audio-visual systems and consumer electronics
Objective maintain and further develop Europes
position on the global scale
improved structuring of research activities
continuity of action
standards and open environments
pushing the limits of technology

19
Focus CMOS Post CMOS 89 MEuros

20
FP 6-IST Call 1 Processes, Materials, Equipment
Devices - A European Nano-Electronics Cluster
12 projects of ca. 89 M funding...
Materials Defects
Nano Devices Architectures
Virtual 300mm (Fl.Wafer)0
NanoCMOS SINANO Si Processes Devices for
features down to 10 nm
More Moore EUV 45/32/22 nm node
Altern. BE opto on Si (PICMOS)
DesignTechnol. for compound PAs (TARGET)
Altern. FE Ge high k (ET4US)
New Memory Concepts (Nosce Memorias)
Litho-Metrology (Ocsli)
21
Example IP NANOCMOS

Funding 24.17 million euro (first phase of 27
months)
Partners STMicroelectronics, Philips, Infineon,
IMEC, CEA-LETI, CNRS, FhG-IISB, ZFM, IBS,
Isiltec, Magwel, ACIES.
Objectives
keeping Europe at the forefront of
nano-electronics
pushing the limits of semiconductor performance
and density
pioneering changes in materials, process modules,
device architectures and interconnections,
modelling and simulation work.
demonstrating the feasibility of 45nm CMOS
technologies
exploratory research on critical issues for 32nm
and 22nm technologies
aims at pilot manufacturing of 45nm technology in
2008-09
Part of a coordinated strategic effort
? MEDEA proposal for second phase (integration
and validation 45nm CMOS 300mm wafer)
? links with SINANO Network-of-Excellence (9,9 M
funding, 3 years, 43 partners)

22
Some Key European Technology Projects
1992 1993 1994 1995 1996 1997
1998 1999 2000 2001 2002 2003
2004 2005
0.35mm FE 0.35mm BE
ADEQUAT
ADEQUAT-1
ADEQUAT-2
0.25mm FE 0.35mm BE
0.18mm FE 0.25mm BE
ADEQUAT COIN
ACE
0.18-0.15mm FE 0.18mm BE
DAMASCENE
Copper inter.
100 nm FE
HUNT
MEDEA T201
90 nm Full Integr
ARTEMIS
65 nm FE
ULISSE
Cu/low k
MEDEA T207
65 nm Full Integr.
NESTOR
45/32/22 FE
NANOCMOS
45demo 32/22 studies, followed by MEDEA 45
nm full int.
23
Mobile and Wireless Systems beyond 3G
102 MEuro

24
Different Cycles of Innovation
Short cycles

up to

a year
Short cycles

up to
a year
Dynamic evolution of services
Services
Dynamic evolution of services
Services
Regular updates of targets required
Regular updates of targets required
Medium cycles

several years
Medium cycles

several years
Networks
for IP based functions (e.g. for mobility)
Networks
for IP-based functions (e.g. for mobility)
operation
Migration to IPv6 will take longer
Systems B3G in
Long cycles

up to
a decade
Long cycles

up to
a decade
Investigation and test of new radio technology
Investigation and test of new radio technology
Radio
Radio
Regulation and allocation of spectrum
Regulation and allocation of spectrum
Development of radio products
Development of radio products
Source Mobile Technology Platform
25
Mobile and Wireless Systems beyond 3G

Dynamic network composition
WWI AMBIENT
Personal Area networks
MAGNET
Smart Antennas
ACE (NoE)

New instruments coverage
Satellite overlay network MAESTRO SATNEX (NoE)
End to end service delivery /Convergence DAIDALOS

UWB systems
PULSERS
New Radio access
for terrestrial systems Beyond 3G
WINNER
NEWCOM (NoE)

Re-configurable radio and networks E2R
26
Daidalos
Application / Content
Pervasive services framework and API
Personalised
Platform for Pervasive Applications
Context adaptation
information delivery
and communication
Rules and policy engine
Context inference engine
Personalisation user interfaces
Service Provisioning
Multimedia
Session migration
Conferencing
Mobile data transfer
Telephony
-
SIP
Network management
Mobility
Network
Content
Content
context
context
Pricing
Pricing
Mobility
Mobility
Management
Adaptation
Adaptation
Information
Information
Broadcast
Broadcast
Location
Signalling
Location information
Information
Multicast
Multicast
Resource Monitoring
Resource Management
A4C
QoS
QoS
Metering
Metering
Security
Security
A4C
Mobile IPv6
Access Technologies
DVB
-
T W
-
CDMA TD
-
CDMA Ethernet WLAN
Bluetooth
wireless
wireless
fixed
fixed
infrastructure
infrastructure
ad hoc
ad hoc
27
Broadband for All
85.4 MEuro

28
Broadband Projects Coverage
Optical Core Network Technologies
Broadband Access Technologies
LASAGNE
NOBEL (IP)
29
Explore new opportunities that will lead to
future markets

Opto-electronics
Embedded technologies
Semantic-based knowledge systems
Display technologies
Intelligent interfaces and environments
Security-related developments
GRID research

30
Opto-electronics and Photonics
56 MEuro
13.5
SME estimate 13
31
Coverage
OPTIMIST-EPIC-COST, Athens 2004
H. Rajbenbach
32
Photonics Technology coverage
16 selected proposals

Microelec / Photonic integration
Active / passive integration (Photonic Integrated
circuits)
Active components (Lasers and LED)
Passive components
Nanophotonics, Photonic crystals
33
Example TERANOVA

Research
Terahertz Sensing Imaging for
- Biotechnology (bio molecule and DNA sensing)
- Healthcare (medical imaging)
- Security (access control, explosives,
bio-agents)
- Process Monitoring (micro- nanoelectronics)
Partnership
Large Industry (BAe Systems, Evotec, Renishaw,
Thales)
SMES (Alpes Lasers, Femtolasers, TeraView)
Universities (Aachen, Delft, Durham, Leeds,
Neuchatel, Freiburg
Paris-VII, Pisa, Wien)
Contract
IP, 4 years, 5 M grant

H. Rajbenbach
34
Embedded systems
58 MEuro
35
IP Example DECOS (19 Partners )

Industrial Partners
Audi Electronics Venture, Airbus, EADS,
Infineon, TTTech, Fiat, Profactor, Hella,
Liebherr, Thales, Esterel
Research Centers
ARC Seibersdorf (Co-ordinator), SP Swedish Test.
Res. Inst.
Universities
TU Vienna, TU Darmstadt, TU Hamburg, Uni Kassel,
Uni Kiel, Uni Budapest

Duration 3 Years,
Budget 14.3 Mio
EU Funding 9 Mio

36
DECOS Motivation
Facilitate the systematic design deployment of
integrated electronic subsystems in embedded
systems through

Electronic Hardware Cost Reduction
(fewer ECUs, cables, connectors)
Enhanced Dependability by Design
(clear partitioning of safety-critical
and non safety-critical subsystems
by design)
Reduced Development Costs
(modular certification, reuse of software
components, structured integration for
communication computational elements)
Diagnosis and Maintenance
(diagnosis of transient and intermittent
component failures)
Intellectual Property (IP) Protection

37
DECOS Application Areas

Automotive
Aerospace
Railways
Industrial Control
Medical Systems
Autonomous Systems

DECOS will develop structured guidelines for
domain-independant and technology independent
integration.

38
New opportunities Focus Semantic-based knowledge
systems
73 MEuro
39
Leading and challenging applications responding
to emerging needs

e-Government
e-Business
ICT for health care
e-Inclusion
e-Safety
e-Learning
e-Culture
Objective
Exploit new markets that will emerge from the
deployment of societal applications
Bring technology closer to peoples needs

40
EGov/eBusiness
41
EGov/eBusiness participation
eBusiness
eGovernment
42
Leading applications Focus eGovernment
Text-to-Speech and Speech Synthesis
42
Maturity
43
FP6 Integrated Project

e
-
e
-
Admin
ICT functionalities to deliver an Integrated Open
System City Platform (IOSCP)..
Mobility
System

System
Integrated Open System

City Platform

Local eG
overnment Interface based on
XML, XSL, VRML, eGIF other standards

Decision and analysis system supported by
GIS and other analysis tools such as data
mining, etc.

Integrated multi
-
di
mensional
database with intelligent

information management.
e
-
Land
-
Includes spatial data for buildings
Use
and land, economic, social, and

environmental data.

System

e
-
Inclusion

Wired
Wireless

System

System

Project Number 507860
44
eHealth
45
FET
Open
Proactive
46
Conclusion SWOT analysis (I)