AIDA is co-funded by the European Commission within the Framework Programme 7 Capacities Specific Programme, Grant Agreement 262025 WP4: Relation with.

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AIDA is co-funded by the European Commission within the Framework Programme 7 Capacities Specific Programme, Grant Agreement WP4: Relation with Industry Report Last AIDA annual meeting CERN 9 th -11 th December 2014 Advanced European Infrastructures for Detectors at Accelerators 1

Agenda WP4: Relation with industry Work completed D4.1: Overall Industry Report D4.2: Follow-up structure for the project Advanced European Infrastructures for Detectors at Accelerators 2

D4.1 Report: Content Academia Industry Matching Events (AIME) –Concept –Statistics –National events –Analysis Collaboration Spotting –Concept and purpose –Technology patterns –Selecting attendance –Event impact and follow-up Conclusion and future plans Advanced European Infrastructures for Detectors at Accelerators 3

D4.1: AIME Strategy –Foster collaborations between Academia & Industry Methodology –AIME Topical Events Needs of communities (HEP and others) Capability of Industry Two half-day events with booths, posters, long coffee breaks Networking dinner Statistics Advanced European Infrastructures for Detectors at Accelerators 4

5 AIME’s scope Enhance industry involvement in R&D for curiosity driven research Foster collaborations between academia and industry Promote the use of research results in other research disciplines and industrial applications Pre-commercial procurement Application oriented 3D-IC Industrial Applications Accelerators 3D Interconnection event (Frascati) Advanced European Infrastructures for Detectors at Accelerators 5

Events for Industry Report 11 AIME events organised since 2011 (7 reported in D4.1) Si-Photomultipliers (CERN, Geneva, 2011) (AIDA kick-off, HEPTech) Vacuum & Cryogenics (GSI, Darmstadt, 2011) (Jointly organised with ASPERA) Position Sensitive Solid State Detectors (DESY, Hamburg, 2012) Beam monitoring (GSI, Darmstadt, 2012) Micro Pattern Gaseous Detectors (IN2P3/LAPP, Annecy, 2012) 3D-IC (INFN, Frascati, 2013) Super conductivity (CIEMAT, Madrid, 2013) (HEPTech) Industrial applications of accelerators (STFC, Daresbury, 2013) Neutron detection with MPGDs (CERN, Geneva, 2013) (Jointly organised with RD-51) Control Systems (Demokritos, Athens, 2013) RPC and TGC (Vienna, 2014) (jointly organised with HEPTech) 6 Advanced European Infrastructures for Detectors at Accelerators

AIME RPC-TGC Report Advanced European Infrastructures for Detectors at Accelerators 7

D4.1: Events for Industry Report National Events –AIME-like event at Thessaloniki, 4-5/4/2011 Implementation of informatics to the HEP research NTUA, NRSC “Demokritos”, SEPVE –AIME-like event at Alexandroupolis, 26-27/11/2011 Implementation of Advanced Electronics and Precise Mechanical Components to the HEP research NTUA, NRSC “Demokritos” –Event organized by Ivan Vila in Seville, 24-25/6/2013 CPAN Workshop on technology transfer at CNA Advanced European Infrastructures for Detectors at Accelerators 8

AIME: Statistics Advanced European Infrastructures for Detectors at Accelerators people attended these events with an average of 87 participants per event 101 Companies attended the seven events for an average of 14 companies per event MPGD, RPC  Small industrial community supporting the activity Technologies where Europe could meet the needs of academia  EU industry is about 90% or above. Percentage goes down to 70% when the leading industry for a technology topic is in the US and/or Asia. 3-D interconnections

D4.1 Report: AIME Analysis –Interactions between academia and industry strongly depend on the type and readiness level of the technology and its use in detectors. –Early collaborations with industry are essential. But academic needs depend on the detector technology: Industry alone can manufacture critical components –3D-interconnections, Position Sensitive Solid State Detectors –  Development of an industrial process to meet physics requirements »Prototypes, characterisation, academic feedback to industry Industry has developed technologies for commercial applications that can be used for detectors with some optimizations. –RPC, TGC –Ex: PCB, coolant in gas mixtures –  Improvement of existing materials to meet physics requirements »Specific production in limited quantities  Risk of cost increase Advanced European Infrastructures for Detectors at Accelerators 10

D4.1 Report: AIME Analysis (continued) –Early collaborations with industry are essential. But purpose depends on the detector technology: Industry alone can manufacture critical components –3D-interconnections, Position Sensitive Solid State Detectors –Aim at including our needs into processes that can address a larger market Manufacturing of very large detectors no longer possible without the involvement of industry –RPC, TGC –No market outside PP –Applications outside PP are important to convince industry to invest in equipment (ex: Ore mining with TGC-based detectors) –Interesting market for education Advanced European Infrastructures for Detectors at Accelerators 11

Collaboration Spotting Advanced European Infrastructures for Detectors at Accelerators 12

Visualisation of large data sets as interactive graphs derived from metadata information Underlying mathematical formalism to be published soon. Formalism Data Set Files containing structured data, documents, database tables, web pages Metadata set instances of metadata of various types pointing to data e.g. Publication metadata = (title, abstract, authors/org, subject categories, citations, DOI, etc.) Graph navigation Within same data set, across a same landscape using different instances of metadata sub-types as nodes in graph e.g. Graph of subject categories  Graph of organisations Across data sets with different metadata type using nodes graph to access another graph e.g. technology Node in the Technogram  Graph of organisations Definitions Graph = nodes and edges showing features of metadata instances Node = an instance of metadata subtype or type Edge = metadata instances common to two nodes

Data set navigation Data Set Metadata 1 landscape Metadata 1 sub-landscape X Metadata 1 sub-landscape 2 Metadata 1 Metadata 2 Metadata X Metadata 2 sub-landscape X Metadata 2 sub-landscape 1 Metadata 2 landscape Metadata X landscape Metadata X sub-landscape 2 Metadata X sub-landscape 1

Data sets Monitoring of innovation and technological development Data sets: patents databases, scientific publication databases EPO, Thomson InnovationScopus, WoS, ArXiv Under development: input from experts and future users is key

Technology patterns The Collaboration Spotting Project Organisation landscape of the Bump Bonding technology. – Red: Companies, Blue: Institutions

Technology patterns(cont.) Advanced European Infrastructures for Detectors at Accelerators 17 Organisation landscape of the MPGD technology

Technology patterns(cont.) Advanced European Infrastructures for Detectors at Accelerators 18 Organisation landscape of the Positron Emission Tomography (PET) technology

Technology patterns(cont.) Advanced European Infrastructures for Detectors at Accelerators 19 Subset of the PET scanner organisation landscape in 1998

Technology patterns(cont.) Advanced European Infrastructures for Detectors at Accelerators 20 PET scanners organisation landscape with patents only

Selecting Attendance We can use Collaboration Spotting to invite experts to attend AIME events Example: 3-D interconnections –Three main technologies identified by AIDA experts: Interposers Through Silicon Vias (TSV) Solid Liquid Inter-Diffusion (SLID) The Collaboration Spotting Project

Selecting Attendance: Interposers Patents and publications related to interposers /Organisation landscape 22

Selecting Attendance: Interposers Organisation landscape sorted by size, connectivity and impact 23

Selecting Attendance: TSV Patents and publications related to TSV/Organisation landscape 24

Organisation landscape for TSV sorted by size, connectivity and impact 25

Selecting Attendance: TSV Patents and publications: IBM & IMEC connectivity diagrams 26

Selecting Attendance: SLID Patents and publications related to SLID/Tech context & Organisation landscape 27

Selecting Attendance: (SLID) cont. Organisation landscape for SLIDsorted by size, connectivity and impact 28

AIME: Attendance Advanced European Infrastructures for Detectors at Accelerators 29 Focus on Interposers and TSV. SLID not mature enough

The case of Tezzaron Semicond. Tezzaron Semiconductor, one of the prominent industrial players in 3-D packaging does not appear in TSV, nor Interposers. When searching for this company specifically we found two publications and five patents related to 3-D packaging: Publications: –A novel chip-to-wafer (C2W) three-dimensional (3D) integration approach using a template for precise alignment –Three-dimensional integrated circuits and the future of system-on-chip designs Patents: –Method for bonding wafers to produce stacked integrated circuits –Fiducial scheme adapted for stacked integrated circuits –NETWORK WITH PROGRAMMABLE INTERCONNECT NODES ADAPTED TO LARGE INTEGRATED CIRCUITS –Method for bonding wafers to produce stacked integrated circuits –3D INTEGRATED CIRCUIT PACKAGE AND METHOD OF FABRICATION THEREOF None of these publications or patents can be found by looking for TSV or interposers. Indeed when looking into Tezzaron website one finds the following quotation: “These incredibly fine vertical connections are applied by the hundreds of thousands, allowing a single circuit to be spread vertically across multiple dies. They are so small we don’t even call them TSVs. They are SuperContacts™!” confirming the pertinence of this company in the TSV technology and indicating that there are other technologies close to TSV that should be included in the searches in relation with 3- D packaging. Advanced European Infrastructures for Detectors at Accelerators 30

Event impact & follow-up Increasing attractiveness for attending industry Representativeness of the attendance Fostering collaborations Advanced European Infrastructures for Detectors at Accelerators 31

Increasing attractiveness PET industry is considering the use of SiPM in conjunction with L(Y)SO scintillating crystals in the next generation of scanners. This combination of technology allows the use of PET scanners in strong magnetic fields such as those of Magnetic Resonance Imaging. The technology landscape for SiPM clearly indicates the links with PET scanners and L(Y)SO crystals. Contributions from the medical imaging community at the AIME event on SiPM can strengthen the interests of the manufacturers in developing the SiPM technology. Advanced European Infrastructures for Detectors at Accelerators 32

Representativeness of attendance Advanced European Infrastructures for Detectors at Accelerators 33 Organisation landscape of SiPM where organisations are ranked by size. Organisations that attended the AIME event are coloured in gold.

Representativeness of attendance(2) Advanced European Infrastructures for Detectors at Accelerators 34 Subset of the above representing the publications and patents of the attendees and their collaborators

Fostering collaborations Evolution of the number Publications of the Technical University of Delft between 2011 and

Conclusions & future plans AIME –Efficient tool to bring industry closer to academia Ex: SI-PM: “Thanks to this event a company decited to enter the Si-PM business” –Address all detector technologies Follow-ups Calorimetry (not specifically address in AIDA WP4) Advanced European Infrastructures for Detectors at Accelerators 36

Conclusions & future plans Collaboration Spotting –Valuable tool to understand the organisation landscape of individual technologies –CERN-JRC collaboration for the development of a Technology Innovation Monitor Fields of activity of an organisation Evaluation of organisation’s excellence in a field Analysis of collaborations Monitoring technology lifecycle & detection of emerging technologies Assistance to decision makers Understanding the dynamic of innovation –Extend the approach to other metadata Ex: projects Advanced European Infrastructures for Detectors at Accelerators 37

Agenda AIME RPC-TGC Report D4.1: Overall Industry Report D4.2: Follow-up structure for the project Advanced European Infrastructures for Detectors at Accelerators 38

D4.2: Follow-up structure for the project Moving from R&D to pre-construction –Include the Detector dimension Distinguish between –HEP-driven developments (Ex: Gaseous detectors) –Industry-driven developments (Ex: Silicon detectors) Continue with AIME (Review format) –Technology follow-up HEP community to propose topics requiring further AIMEs Suggest continuing AIMEs in collaboration with RD-51, HEPTech, etc. to reach the HEP community beyond AIDA For HEP-driven developments, include success stories to widen the market prospects for industry –Technologies related to detector integration Adjust topics according to detector development needs –Search for partners and Impact-assessment: Collaboration Spotting Advanced European Infrastructures for Detectors at Accelerators 39

Advanced European Infrastructures for Detectors at Accelerators 40 Thank you for your attention