Hitachi Europe R&D (ERD) Activity in Europe March 2014 Dr. David Williams Hitachi Cambridge Laboratory
Contents 1. General information 2. ICT and Big Data Laboratories 3. Cambridge Laboratory 1
1-1 Hitachi s European R&D Centre (ERD) Contribute to Hitachi s business growth, Use R&D activity as leverage for business incubation. Enabling leading-edge physics to contribute to ICT innovation. EU Big Data Laboratory (EBDL) Headquarter (HQ) Since 2013 Big Data Analysis Since 1989 Maidenhead Manchester London Cambridge Aachen Munich Sophia Antipolis Hitachi Cambridge Laboratory (HCL) Leading-edge Physics Transportation, Energy & Environment Research Laboratory (TEEL) Since 2005 Rail, Automotive & Power Since 1989 Hitachi Design Centre Europe (HDCE) ICT Laboratory (ICTL) Since 1989 Experience Design & Branding Since 2000 Automotive Communications & Smart mobility 2
Hitachi Europe R&D (ERD) Activities on Smart Mobility and Big Data Mar. 2014 Dr. Massimiliano LENARDI Big Data (EBDL) and ICT (ICTL) Laboratories Manager Hitachi Europe R&D (ERD)
2-1 Hitachi s European R&D Centre (ERD) Contribute to Hitachi s business growth, Use R&D activity as leverage for business incubation. Enabling leading-edge physics to contribute to ICT innovation. EU Big Data Laboratory (EBDL) Headquarter (HQ) Since 2013 Big Data Analysis Manchester London Cambridge Aachen Hitachi Cambridge Laboratory (HCL) Since 1989 Leading-edge Physics Transportation, Energy & Environment Research Laboratory (TEEL) Since 1989 Maidenhead Munich Sophia Antipolis Since 2005 Rail, Automotive & Power Hitachi Design Centre Europe (HDCE) ICT Laboratory (ICTL) Since 1989 Experience Design & Branding Since 2000 Automotive Communications & Smart mobility 4
2-2 ICTL introduction www.hitachi.eu/erd/research/ict ICTL Information and Communication Technologies Laboratory 7 researchers, 4 with PhD ICTL: Sophia Antipolis FRANCE ICTL located side of ETSI, the EU Telecomm. Standard. Institute. Phase Exploration Maturation Research/Development Business Support Period 1997-2004 2004-2011 2011- Topics Wireless Communications, Ad Hoc Networks Vehicular Comms (C2X * ) ITS ** & Smart Mobility (e.g. eco-fev Pj) *C2X: Car to Any **ITS: Intelligent Transport Systems 5
2-3 ICTL s R&D strategy Design, standardize & develop service-oriented ICT technologies for Intelligent Transport Systems and Telematics, targeting in particular Automotive customers & IT infrastructures for social innovation business in smart environments. ICTL has succeeded in designing, standardizing and developing C2X comm. middleware PF, and in letting adopt the prototype by major customers in EU projects. Currently: apply the C2X MW PF to Smart Mobility and Smart City Smart City Smart Mobility C2X DriveC2X Score@f GeoNet (ICT for Big Data) now Autonet2030 eco-fev Standardisation *C2X: Car to Any EU projects 6
2-4 C2X activities in EU by ICTL 2005-2009 Standardization 2010 2011 2012 2013 2014- ITS in ISO and ETSI Starts Technical Validation R&D Phase C2X specs fix MoU * Press Release EU/National FOTs* Phase ICTL plays important roles in the C2X community ICTL in Standardization ETSI ITS in the Tech. Committee, plus: WG1 (Application): Co-chair WG2 (Architecture) WG3 (Networking): Editor WG4 (Media) WG5 (Security) C2C-CC * (WGs and Tech. Committee) Adv. Eng. and Piloting Phase C2X Market 2016- ICTL in EU/National FOT* PJs (DRIVE C2X, SCORE@F) Steering Committee Member SP1 (Pj Mngmt) SP2 (Specs): Leader SP3 (FOT) SP4 (Evaluation) SP5 (Promotion) FOT prototype *MoU: Memorandum of Understanding among OEMs *FOT: Field Operational Test *C2C-CC: Car-to-Car Comm. Consortium 7
2-5 Autonet2030 project Hitachi (via ICTL) is Partner in the AutoNet2030 project. Autonet2030 is a 3-years PJ sponsored by the EU Commission. The PJ aims to research & validate procedures and algorithms for interaction control among co-operative vehicles, including both automated & manually driven vehicles. C2X technologies brought by ICTL are of core importance for Autonet2030 The context is the 2020-2030 deployment time horizon Project specifications will be contributed to the standardization of cooperative ITS at ETSI and CEN. 8
2-6 eco-fev* project eco-fev is an EU Smart Mobility Project for EV-infrastructure cooperation Period September 2012 May 2015 www.eco-fev.eu Partners Hitachi (ICTL is Coordinator), Renault, Fiat + 10 organizations Test sites Grenoble (France), Torino - Frejus highway (Italy) Goals To develop a standardized big-data-like platform To exploit infrastructures info for advanced EV cloud services Road IT Infra. Traffic Status Automotive Cloud C2X & other EV status Availability EVs EV Charging Stations Original Route Traffic Jam Service example Destination New Optimal Route * eco-fev: Efficient Cooperative Infrastructure for Fully Electric Vehicles 9
2-7 EBDL introduction http://www.hitachi.eu/erd/research/bigdata/ EBDL European Big Data Laboratory 4 researchers Manchester UK EBDL located in the campus of the Manchester University EBDL: Development of new core IT business based on big data analytics First research activity is for healthcare as an exemplar model for other domains Phase Period 2013-2015 Topics Exploration Maturation 01/07/2013: Lab. Established in ERD 01/08/2013: First research front office based in Manchester 2013-2015: ehealth Project in collaboration with NHS, MAHSC and NWEH 2014-2015: Expand R&D & PoCs in other sectors, e.g. in Automotive and Energy 10
2-8 The ehealth Proof-of-Concept (PoCs) Projects Enhancement of healthcare with the use of IT in Greater Manchester The start of POC projects in Salford, Greater Manchester (Oct/2013 ~ ) Starting 2 two-years POC projects from Oct 2013 1. Secure healthcare data platform Developing the capability of integrating, exchanging and analyzing healthcare data securely through federated data platform, which would enable a variety of healthcare services to run off it. 2. Life-style related diseases prevention programme Support and enhance the ongoing disease prevention activity with the use of IT for people with impaired glucose tolerance at risk of diabetes as the first target. Adapting technologies, products, services, technical know-how in working with big data, security technologies taking into account the patient privacy and the experience of working within the healthcare space in Japan, Hitachi is bringing cutting-edge Made in Japan technology to the NHS GM. Hitachi, in which EBDL takes initiative, is working with the NHS GM in developing a new model for building on skills and experiences from the medical field, and applying them to preventative medicine. 11
Hitachi Europe R&D (ERD) Hitachi Cambridge Laboratory March 2014 Dr. David WILLIAMS Cambridge Laboratory Manager Hitachi Europe R&D (ERD)
3-1 Hitachi s European R&D Centre (ERD) Contribute to Hitachi s business growth, Use R&D activity as leverage for business incubation. Enabling leading-edge physics to contribute to ICT innovation. EU Big Data Laboratory (EBDL) Hitachi Cambridge Laboratory (HCL) Headquarter (HQ) Since 2013 Big Data Analysis Since 1989 Maidenhead Manchester London Cambridge Aachen Munich Sophia Antipolis Leading-edge Physics Transportation, Energy & Environment Research Laboratory (TEEL) Since 2005 Rail, Automotive & Power Since 1989 Hitachi Design Centre Europe (HDCE) ICT Laboratory (ICTL) Since 1989 Experience Design & Branding Since 2000 Automotive Communications & Smart mobility 13
3-2 Collaboration with Cavendish Laboratory Since it was founded in 1874, the Cavendish Laboratory has been at the forefront of discovery in physics. The core of the Laboratory s programme has been, and continues to be, experimental physics, supported by excellence in theory. The policy of the Department is to maintain a very powerful core of fundamental physics in all its diversity. To continue technology trends in advanced electronics we need a continuous flow from basic physics to device manufacture 14
3-3 Synergy of Hitachi Cambridge collaboration Collaboration started in 1989 HCL Cavendish Physics for future electronic and optical devices
3-3 Synergy of Hitachi Cambridge collaboration 25 Hitachi staff All postdoctoral HCL Prof Henning Sirringhaus Dr Andrew Ferguson PhD students Cavendis h Physics for future electronic and optical devices
3-4 Research Strategy Fundamental Understanding Future Product Proof of Principle New column Detectors Fundamental new Information processing Low power High speed Memory, logic, sensors 17
3-4 Research Strategy Fundamental Understanding Future Product Proof of Principle Sensors Memory Programmable logic Hybrid devices and circuits Communicatio n devices Nextgeneration electron microscopes 18
3-5 EU Project TOLOP Low Power Electronics Lead Person Institute Approach David Williams Françoise Remacle Raphael Levine Stefanos Kraxiras Hitachi Europe Ltd Universite de Liege Hebrew University of Jerusalem Uppsala University Nanodevices Non-Boolean Logic Non-Boolean Logic Low power circuit architecture Marc Sanquer CEA / LETI Advanced silicon devices Sven Rogge University of New South Wales SAT / SET / FET Experiment Theory Theory Design Experiment Experiment 19
3-6 EU Project TOLOP Low Power Electronics 20
3-7 Atomic Scale of Silicon Devices How we think about the transistors now A 25 nm MOSFET In production 2013 Asen Asenov, Glasgow A 4.2 nm MOSFET In production??? IEEE Trans Electron Dev 50(9), 1837 (2003) 21
3-7 Atomic Scale of TOLOP Devices Room temperature SET operation demonstrated 22
3-8 TOLOP Hitachi confidential23
END Hitachi Europe R&D (ERD) 03/2014 Hitachi ERD 24