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Activities brief

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    Activities of the CODAC Group

    The CODAC group activities result from a collaborative effort between the various vertical engineering competencies on Instrumentation, applied to various fusion/physics areas.

     activities.png

    Activities are mainly focused in:

    • The specification and development of CODAC systems and components;
    • Development of CODAC instrumentation hardware/firmware.
    • The development of operation, monitoring, data flow and algorithm codes for CODAC, diagnostics and plasma control systems;
    • Real-time/parallel data acquisition and processing;
    • Timing, synchronization, event management and data transport networks;
    • Collaboration on the development of international instrumentation standards;
    • Establishment of International Strategic Partnerships with the Industry;
    • Inform the Portuguese industry of fusion CODAC projects;
    • Inbound and outbound education and training activities;
    • Improving the laboratorial and work-shop infra-structures.

     

    The main R&D outcome is measurement Instrumentation systems aiming at:

    • Focused performance
    • Reliability and availability
    • Low-cost
    • State-of-the-art componentes

     Crate.jpg   ATCA_digitizer.jpg   modulo.png   gasInjection.png

    Collaborations with Fusion Laboratories

    JET-EFDA

    Joint European Torus - European Fusion Development Agreement

    United Kingdom

    		  

    ITER

    IO

    F4E

    Cadarache

    Barcelona

    		  

    CRPP

    Centre de Recherches en Physique des Plasmas

    Switzerland

    TCV

    IPP.CR

    Institute of Plasma Physics

    Check Republic

    COMPASS

    RFX

    Consorzio RFX

    Italy

    RFX

    IPP

    Max-Planck- Institut für PlasmaPhysik

    Germany

    W7-X, ASDEX-Upgrade

    CIEMAT

    Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas

    Spain

    TJII

    USP

    Instituto de Física da Universidade de São Paulo

    Brazil

    TCA/Br

    INPE

    Instituto Nacional de Pesquisas Espaciais

    Brazil

    ETE

    Recent AgreementsContracts

    ITER: FPSC – Fast Plant System Controller prototype.

    F4E

    • F4E-FPA-375 – Plasma Position Reflectometry
    • F4E-FPA-327 – Radial Neutron Camera (RNC) and Radial Gamma-Ray Spectrometer (RGRS)
    • F4E-OPE-442 – Design and Performance Assessment of  Integral and Proportional Data Acquisition Electronics for Real-time Acquisition

     

    JET

    • Gamma Ray Spectrometer Upgrade (GSU), Lost Alpha Particles Monitor (LRM) and Gamma Ray Camera Upgrade (GCU)
    • DNG-G -  Data acquisitionfor the neutron camera diagnostics enhancements.
    • GRS - Data acquisitionfor gamma spectroscopy.
    • PCU-VS  - ATCA hardware platform for the Plasma Control Upgrade project.
    • RTMC - Real-Time Measurement & Control Diagnostics & Infrastructure
    • TOFOR - Time-of-FlightNeutron Spectrometer Optimized for high count Rate.
    • MPRu- magnetic proton recoil neutron spectrometer.
    • Reflectometry measurements- X-mode reflectometry.

     

    COMPASS

    • Plasma control and CODAC hardware/software infrastructure
    • Gas Injection, Baking, Vacuum and Puffing control system software

     

    IPP: IPP-ICRH-REFLEC, W7-X CODAC digitizers

    RFX: Digitizersfor Plasma Positioning

     

    Manpower and Resources

    • The Group is composed of
      • 7 PhD, 6 MSc, 2 Engineers and 2 Technicians .
    • 4 of the Group members are in the process of graduation to PhD.
    • Most of R&D work happens in-house.
    • Only a fraction of the manpower is used for commissioning and R&D tasks on international experiments.
    • In-house prototyping and testing.

     Picture2.jpg

    Collaboration with the industry

    • Discussions have been held with international companies
      • Potential collaborations towards ITER
      • Licensing IPFN control & data acquisition systems
      • Co-development of control & data acquisition solutions
    • IPFN is trying to improve the collaboration with national industry

    Strategy

    • Continue collaborations with ITER and other fusion experiments.
    • Enlarge the scope of activities to other physics experiments, local or international.
    • Establish definite paths for:
      • IP transfer to Industry
      • Outsourcing from Industry
    • Improve efficiency of Project activities:
      • Continue R&D of a unified platform of Instrumentation able to cover a large scope of applications in Physics.
      • Establish clear boundaries between Academic activities and Project activities.
    • Continue the development of critical components:
      • xTCA hardware, Real-time MARTe framework, EPICS machine control, High-speed codes and algorithms for FPGAs, High-performance networks for database access, real-time processing and synchronization.

    ......

     

    Version from 16:48, 15 Jul 2014

    This revision modified by jsousa (Ban)

    TOC {{page.toc }}

    Other pages:

    {{ wiki.tree(page.path, 1) }}

    Activities of the CODAC Group

    The CODAC group activities result from a collaborative effort between the various vertical engineering competencies on Instrumentation, applied to various fusion/physics areas.

     activities.png

    Activities are mainly focused in:

    • The specification and development of CODAC systems and components;
    • Development of CODAC instrumentation hardware/firmware.
    • The development of operation, monitoring, data flow and algorithm codes for CODAC, diagnostics and plasma control systems;
    • Real-time/parallel data acquisition and processing;
    • Timing, synchronization, event management and data transport networks;
    • Collaboration on the development of international instrumentation standards;
    • Establishment of International Strategic Partnerships with the Industry;
    • Inform the Portuguese industry of fusion CODAC projects;
    • Inbound and outbound education and training activities;
    • Improving the laboratorial and work-shop infra-structures.

     

    The main R&D outcome is measurement Instrumentation systems aiming at:

    • Focused performance
    • Reliability and availability
    • Low-cost
    • State-of-the-art componentes

     Crate.jpg   ATCA_digitizer.jpg   modulo.png   gasInjection.png

    Collaborations with Fusion Laboratories

    JET-EFDA

    Joint European Torus - European Fusion Development Agreement

    United Kingdom

    		  

    ITER

    IO

    F4E

    Cadarache

    Barcelona

    		  

    CRPP

    Centre de Recherches en Physique des Plasmas

    Switzerland

    TCV

    IPP.CR

    Institute of Plasma Physics

    Check Republic

    COMPASS

    RFX

    Consorzio RFX

    Italy

    RFX

    IPP

    Max-Planck- Institut für PlasmaPhysik

    Germany

    W7-X, ASDEX-Upgrade

    CIEMAT

    Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas

    Spain

    TJII

    USP

    Instituto de Física da Universidade de São Paulo

    Brazil

    TCA/Br

    INPE

    Instituto Nacional de Pesquisas Espaciais

    Brazil

    ETE

    Recent Contracts

    ITER: FPSC – Fast Plant System Controller prototype.

    F4E

    • F4E-FPA-375 – Plasma Position Reflectometry
    • F4E-FPA-327 – Radial Neutron Camera (RNC) and Radial Gamma-Ray Spectrometer (RGRS)
    • F4E-OPE-442 – Design and Performance Assessment of  Integral and Proportional Data Acquisition Electronics for Real-time Acquisition

     

    JET

    • Gamma Ray Spectrometer Upgrade (GSU), Lost Alpha Particles Monitor (LRM) and Gamma Ray Camera Upgrade (GCU)
    • DNG-G -  Data acquisitionfor the neutron camera diagnostics enhancements.
    • GRS - Data acquisitionfor gamma spectroscopy.
    • PCU-VS  - ATCA hardware platform for the Plasma Control Upgrade project.
    • RTMC - Real-Time Measurement & Control Diagnostics & Infrastructure
    • TOFOR - Time-of-FlightNeutron Spectrometer Optimized for high count Rate.
    • MPRu- magnetic proton recoil neutron spectrometer.
    • Reflectometry measurements- X-mode reflectometry.

     

    COMPASS

    • Plasma control and CODAC hardware/software infrastructure
    • Gas Injection, Baking, Vacuum and Puffing control system software

     

    IPP: IPP-ICRH-REFLEC, W7-X CODAC digitizers

    RFX: Digitizersfor Plasma Positioning

     

    Manpower and Resources

    • The Group is composed of
      • 7 PhD, 6 MSc, 2 Engineers and 2 Technicians .
    • 4 of the Group members are in the process of graduation to PhD.
    • Most of R&D work happens in-house.
    • Only a fraction of the manpower is used for commissioning and R&D tasks on international experiments.
    • In-house prototyping and testing.

     Picture2.jpg

    Collaboration with the industry

    • Discussions have been held with international companies
      • Potential collaborations towards ITER
      • Licensing IPFN control & data acquisition systems
      • Co-development of control & data acquisition solutions
    • IPFN is trying to improve the collaboration with national industry

    Strategy

    • Continue collaborations with ITER and other fusion experiments.
    • Enlarge the scope of activities to other physics experiments, local or international.
    • Establish definite paths for:
      • IP transfer to Industry
      • Outsourcing from Industry
    • Improve efficiency of Project activities:
      • Continue R&D of a unified platform of Instrumentation able to cover a large scope of applications in Physics.
      • Establish clear boundaries between Academic activities and Project activities.
    • Continue the development of critical components:
      • xTCA hardware, Real-time MARTe framework, EPICS machine control, High-speed codes and algorithms for FPGAs, High-performance networks for database access, real-time processing and synchronization.

    ......

     

    Version as of 16:13, 8 Jan 2018

    This revision modified by jsousa (Ban)

    TOC {{page.toc }}

    Other pages:

    {{ wiki.tree(page.path, 1) }}

    Activities of the CODAC Group

    The CODAC group activities result from a collaborative effort between the various vertical engineering competencies on Instrumentation, applied to various fusion/physics areas.

     activities.png

    Activities are mainly focused in:

    • The specification and development of CODAC systems and components;
    • Development of CODAC instrumentation hardware/firmware.
    • The development of operation, monitoring, data flow and algorithm codes for CODAC, diagnostics and plasma control systems;
    • Real-time/parallel data acquisition and processing;
    • Timing, synchronization, event management and data transport networks;
    • Collaboration on the development of international instrumentation standards;
    • Establishment of International Strategic Partnerships with the Industry;
    • Inform the Portuguese industry of fusion CODAC projects;
    • Inbound and outbound education and training activities;
    • Improving the laboratorial and work-shop infra-structures.

     

    The main R&D outcome is measurement Instrumentation systems aiming at:

    • Focused performance
    • Reliability and availability
    • Low-cost
    • State-of-the-art componentes

     Crate.jpg   ATCA_digitizer.jpg   modulo.png   gasInjection.png

    Collaborations with Fusion Laboratories

    JET-EFDA

    Joint European Torus - European Fusion Development Agreement

    United Kingdom

    		  

    ITER

    IO

    F4E

    Cadarache

    Barcelona

    		  

    CRPP

    Centre de Recherches en Physique des Plasmas

    Switzerland

    TCV

    IPP.CR

    Institute of Plasma Physics

    Check Republic

    COMPASS

    RFX

    Consorzio RFX

    Italy

    RFX

    IPP

    Max-Planck- Institut für PlasmaPhysik

    Germany

    W7-X, ASDEX-Upgrade

    CIEMAT

    Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas

    Spain

    TJII

    USP

    Instituto de Física da Universidade de São Paulo

    Brazil

    TCA/Br

    INPE

    Instituto Nacional de Pesquisas Espaciais

    Brazil

    ETE

    Recent Agreements

    ITER: FPSC – Fast Plant System Controller prototype.

    F4E

    • F4E-FPA-375 – Plasma Position Reflectometry
    • F4E-FPA-327 – Radial Neutron Camera (RNC) and Radial Gamma-Ray Spectrometer (RGRS)
    • F4E-OPE-442 – Design and Performance Assessment of  Integral and Proportional Data Acquisition Electronics for Real-time Acquisition

     

    JET

    • Gamma Ray Spectrometer Upgrade (GSU), Lost Alpha Particles Monitor (LRM) and Gamma Ray Camera Upgrade (GCU)
    • DNG-G -  Data acquisitionfor the neutron camera diagnostics enhancements.
    • GRS - Data acquisitionfor gamma spectroscopy.
    • PCU-VS  - ATCA hardware platform for the Plasma Control Upgrade project.
    • RTMC - Real-Time Measurement & Control Diagnostics & Infrastructure
    • TOFOR - Time-of-FlightNeutron Spectrometer Optimized for high count Rate.
    • MPRu- magnetic proton recoil neutron spectrometer.
    • Reflectometry measurements- X-mode reflectometry.

     

    COMPASS

    • Plasma control and CODAC hardware/software infrastructure
    • Gas Injection, Baking, Vacuum and Puffing control system software

     

    IPP: IPP-ICRH-REFLEC, W7-X CODAC digitizers

    RFX: Digitizersfor Plasma Positioning

     

    Manpower and Resources

    • The Group is composed of
      • 7 PhD, 6 MSc, 2 Engineers and 2 Technicians .
    • 4 of the Group members are in the process of graduation to PhD.
    • Most of R&D work happens in-house.
    • Only a fraction of the manpower is used for commissioning and R&D tasks on international experiments.
    • In-house prototyping and testing.

     Picture2.jpg

    Collaboration with the industry

    • Discussions have been held with international companies
      • Potential collaborations towards ITER
      • Licensing IPFN control & data acquisition systems
      • Co-development of control & data acquisition solutions
    • IPFN is trying to improve the collaboration with national industry

    Strategy

    • Continue collaborations with ITER and other fusion experiments.
    • Enlarge the scope of activities to other physics experiments, local or international.
    • Establish definite paths for:
      • IP transfer to Industry
      • Outsourcing from Industry
    • Improve efficiency of Project activities:
      • Continue R&D of a unified platform of Instrumentation able to cover a large scope of applications in Physics.
      • Establish clear boundaries between Academic activities and Project activities.
    • Continue the development of critical components:
      • xTCA hardware, Real-time MARTe framework, EPICS machine control, High-speed codes and algorithms for FPGAs, High-performance networks for database access, real-time processing and synchronization.

    ......

     
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