Advanced Nanoelectronics Devices
in European R&D Programmes
Georg Kelm
Nanoelectronics
Components and Systems
Information Society & Media Directorate-General
European Commission
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Presentation Outline
 ICT FP7 Current situation
 Today’s opportunities: WP 2011-12 + FET
 And WP 2013?
 Something on the future 8th FP
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
What is the money spent on?
(in 2011-12)
ICT for socio-economic challenges
+AAL
1. Network and
Service ~26%
Infrastructures
~12%
~9%
~6%
~4%
5. ICT for
Health,
Ageing,
Inclusion
& Gov.
6. ICT for
LowerCarbon
Economy
7. ICT for
Manufac. &
Enterprise
8. ICT for
Learning &
Cultural
Resources
2
PPPs
PPP
2. Cognitive
Systems and
Robotics ~6%
3. Component
+JTIs
and
~17%
Systems
4. Digital ~7%
Content and
Languages
~11%
Future & Emerging
Technologies (FET)
Basic ICT technologies &
infrastructures
incl FI PPP
~10%
~11%
International cooperation, Cooperation in an enlarged Europe, Pre-commercial Procurement
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
••• 3
FP7-CIP/ICT Budget Profile:
70% increase in period 2011-13
M€
PF7 ICT
CIP
2007
2008
2009
2010
2011
2012
2013
TOTAL
1.189
1.217
1.227
1.241
1.382
1.582
1.760
9.597
58
52
105
113
120
135
149
732
Financial support
•
FP7: master & shape research & development
•
CIP: ensure wider uptake & better use of research
•
+ Regional and Structural Funds,…
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
ICT in FP7: Where do we stand?
• In 2011, the FP7 ICT Programme is in its fifth year
of implementation
• Six main calls have been launched and evaluated
• Total EU funding of 3,9 B€
• Total number of projects ~1200
• Launch of two JTIs and AAL
• 3 Calls launched for 220 M€
• WP 2011-12 done, WP 2013 (1.5 B€) still to be
drafted
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
ICT in FP7:
In Summary
• ICT in the FP supports collaborative R&D projects
• industry - academia from at least 3 Member or ASs
• Project size between 3M€ and 20 M€ of funding
• 4 to 20 partners per project
• Supports ~17000 researchers and engineers/year
• During 2007-10
• ~ 5000 distinct organisations, ~14000 participations
• 1250 projects running (FP6 + FP7)
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Presentation Outline
 ICT FP7 Current situation
 Today’s opportunities: WP 2011-12 + FET
 And WP 2013?
 Something on the future 8th FP
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Nanoelectronics and Smart Systems
”Small, smaller, smarter”
performance
Lower cost, higher
performance and more
functionality
Baseline CMOS: CPU, Memory, Logic
•Power consumption
Moore’s Law: Miniaturization
Enabled by
Smart design and Smart
manufacturing of Smart Components
and Systems
More than Moore: Diversification
Analog/RF
Passives HV Power
130nm
Sensors
Actuators
Biochips
Interacting with people and
environment
Non-digital SoC & SiP
90nm
65nm
45nm
32nm
22nm
Information
Processing
Digital content
SoC
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
ICT Work Programme 2011-12
Objective 3.2: Smart
components and smart
systems integration
Objective 3.1: Very Advanced
Nanoelectronics Components
•
•
•
•
a) Beyond CMOS technology
b) Circuit-technology
solutions
c) Nano-manufacturing and
Joint Equipment Assessment
d) Coordination and Support
Actions
Call 8
60M€
•
•
•
•
Smart components
Smart (miniaturized)
systems
Micro-Nano Bio Systems
(MNBS)
Coordination and Support
Actions
Call 8 - MNBS
39M€
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Objective 3.1:
Advanced Nanoelectronics Technology
• To stimulate interaction of system
and technology to better explore
European system competences.
35 nm
Gate Length
• To address energy efficiency needs
for mobile applications
• Nanoelectronics products as system
enablers and solution providers for
global challenges as aging society,
global warming, growing population
or sustainable manufacturing.
• To prepare for “beyond” traditional
shrinking (ITRS roadmap)
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Objective 3.1:
Advanced Nanoelectronics Technology
• Future developments in Beyond CMOS
and More than Moore as an
extended-CMOS vision. No
disconnection from the advanced
silicon CMOS in order to keep impact
of its results on the applications and
markets.
• Needs of hybridizing silicon with
molecular switches, ferromagnetic
logic, spin devices and sensors in
order to enable heterogeneous and
morphic system architectures.
ITRS-ERD vision of the role of Beyond CMOS and More than Moore elements to
form future extended CMOS platforms.
• Integrate-ability of novel technology
with CMOS and their reliability
become key factors.
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
3.1 Very advanced nanoelectronic components
•
•
•
•
•
•
•
•
•
•
•
•
•
a) Beyond CMOS technology
- New switches and interconnects (scalability, performance and
energy efficiency gains, operational reliability and RT operation);
- Advanced system integration technology and new methods for
computation;
- Emerging memories targeting the concept of non-volatile universal
memory;
- Nano-photonic devices & interconnects integrated with nano- and
Beyond-CMOS;
- Carbon based electronic devices;
-Novel materials for interconnects , nano-packaging, Beyond-CMOS
(logic and memory);
- Understanding fundamental artefacts and limits: nano-scale
thermal processes; computational material and device science.
Developed components and technologies need to fulfil the criteria of
“systemability”,“integratability”, and – in the end – of
“manufacturability”
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Objective 3.1:
c) Manufacturing and Equipment assessment
• Access to nano-manufacturing and to
advanced technologies to be assured in
Europe.
• Access to world wide equipment market
for European suppliers, especially SMEs,
need to be stimulated.
Semiconductor Equipment for
Wafer Bonding with Plasma Activation
EV Group, CEA-LETI, Soitec
Ruthenium Atomic Vapor Deposition
Competitiveness in Nanoelectronic
Device Generations
AIXTRON, Fraunhofer IISB, Infineon
Munich
Low Energy and Dose Implant Test
SEMILAB, Fraunhofer IISB,
ST Microelectronics Crolles II,
NXP Crolles R&D
Metrology Using X-Ray Techniques
Jordan Valley, CEA-LETI,
STMicroelectronics Crolles II,
NXP Crolles R&D
3D Integration of Bulk Si Wafers
EV Group, CEA-LETI,
STMicroelectronics Crolles II
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
3.1 Very advanced nanoelectronic components: design,
engineering, technology and manufacturability
Summary

Call 8



Funding schemes:
a)
b)
c)
d)

Open: 26 July 2011
Close: 17 January 2012 (at 17:00 Brussels local time)
Beyond CMOS technology: STREPs
Circuit-technology solutions: STREPs and at least 1 IP
Nano-manufacturing and joint equipment assessment: STREPs and
at least 1 IP
Support measures: CSAs
Indicative budget - 60 M€:
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Future & Emerging Technologies – FET
Supporting high-risk transformative research in ICT
Two complementary funding schemes
FET Open
• Bottom-up approach
• Open to any research idea
FET Proactive
• Top-down approach
• Set of novel pre-defined
themes
Nano-electronics related topics with EU funding ~ 30M€/year:
Molecular-scale systems, Tera-scale computing, Quantum-ICT,
Bio-Chemistry-based and towards zero power ICT
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Objective ICT-2011.9.8: Minimising Energy
Consumption of Computing to the Limit
(FET Pro-active)
Target Outcome:
Foundations for radically new ICT technologies striving for
the theoretical limits in energy consumption
• New elementary devices and inter-device-communication
mechanisms
• Novel computing paradigms with radically improved energy
efficiency (e.g. inspired by biology, post-Boolean logics, …)
• Software models and programming methodologies
supporting the strive for the energetic limit (e. g. energy
cost awareness,..)
• Proof of concept, indication of expected energy gain,
appropriate energy metrics or benchmarks for verification
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Objective ICT-2011.9.8:
Minimising Energy Consumption of
Computing to the Limit (MINECC)
-Funding/Instruments: 15 MEuro for STREPs
-Closing of Call 8 (tbc): 17 Jan 2012
-Contacts:
Ralph.Stuebner (at) ec.europa.eu
Francisco.Ibanez-Gallardo (at) ec.europa.eu
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
ICT-2011.9.9: Quantum Information and
Communication Technologies (QICT)
Target Outcomes
Push forward the boundaries of our knowledge in the
Quantum-ICT area by demonstrating
•
Quantum simulators capable to operate on many-particle
systems
•
Hybrid systems linking different quantum bit realizations.
•
Novel quantum devices exploiting entanglement and
quantum coherence as a resource, such as quantum
sensing, imaging, measurement and communication
•
Enabling methods and technologies to support
aforementioned outcomes
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Objective ICT-2011.9.9: Quantum Information
and Communication Technologies (QICT)
“How the combination of quantum mechanics and
information theory offers new concepts and
resources for computing and communications.”
-Funding/Instruments: 15 MEuro, STREPs & IPs
7 MEuro, ERA-NET Plus
-Closing of Call 9 (tbc): 17 April 2012
-Contact:
Werner.Steinhoegl (at) ec.europa.eu
David.Guedj (at) ec.europa.eu
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Work Programme 2011-12
Objectives 3.1 and 3.2 vs FET
Idea
Proof-of-Principle
Proof-of-Concept
Prototype demonstration
FET
Objective 3.1: Advanced
Nanoelectronics Technology
Objective 3.2: Smart
components and Systems
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Presentation Outline
 ICT FP7 Current situation
 Today’s opportunities: WP 2011-12 + FET
 And WP 2013?
 Something on the future 8th FP
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
What is next?
2010
2011
2012
2013
2014
ICT WP 2011-12
FP7
ICT WP 2013
Preparatory work
2011: Framework 8 Preparation
•
•
•
•
•
9 Feb
Feb-May
10/6
June
Dec
Green Paper
Consultation based on Green Paper
Consultation ‘wrap-up’
KETs event in Brussels
Proposal for next MAFF
Proposal (s) for FP8/CIP-II
FP8
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
And in FP7 ICT WP 2013 ?
 Advanced devices – more focus – but on what?
 Stronger links Technology - Design
 Mfg approaches for BC and adv MtM integration
 Joint E&M assessments – focus on 450 mm?
 Bridging to FP8: Innovation elements (pilots,
research infrastructure, …)
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Some first and preliminary
thinking on FP 8
Towards a Common R&I framework in the next MAFF
“3 sets of challenges, 4 type of activities, (funding schemes)”
Focussed,
Roadmap
based
Societal challenges
e.g. EIPs
Flexible,
Open, agile
Infrast and
skills
Testing,
piloting
Light WP
e.g. Living
labs
CIP Pilots
Any time
Small size
Industrial leadership
e.g. PPPs
Excellence in science
e.g. FET
flagships
SMEs specific
e.g. Clean
rooms,
Innovation
clusters
CIP Pilots
e.g. FET open E-Infrastruct
.
ERC
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
Summary
Two messages:
•Input from Summer School is very welcome
•Participate in Call 8 !!!
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland
THANK YOU
Georg.Kelm@ec.europa.eu
Information Society and Media:
http://ec.europa.eu/information_society
http://cordis.europa.eu/fp7/ict/nanoelectronics/mission_en.html
European research on the web:
http://cordis.europa.eu
http://www.eniac.eu
Nano Summer School 2011, Beyond CMOS – Aug 28th-30th, 2011 – Kildare, Ireland