Presentation is loading. Please wait.

Presentation is loading. Please wait.

Managing Parameters Karin Rathsman 2011-12-05. Parameter Management Enforce groups as well as individuals to work towards the same solution Provide tools.

Published byAusten Bishop Modified over 9 years ago

Similar presentations

Presentation on theme: "Managing Parameters Karin Rathsman 2011-12-05. Parameter Management Enforce groups as well as individuals to work towards the same solution Provide tools."— Presentation transcript:

1 Managing Parameters Karin Rathsman 2011-12-05

2 Parameter Management Enforce groups as well as individuals to work towards the same solution Provide tools to identify inconsistencies Make it useful and easy to access

3 TableDateStatusTable owner High Level Parameters18-Apr-11ActiveCCB Lattice and Accelerator Science14-Nov-11ActiveH. Danared Ion Source16-Dec-10ActiveL. Celona Low Energy Beam Transport16-Dec-10ActiveL. Celona Radio Frequency Quadrupole15-Dec-10ActiveB. Pottin Medium Energy Beam Transport19-May-11ActiveI. Bustinduy Drift Tube Linac14-Nov-11ActiveA. Pisent Spoke resonators14-Nov-11ActiveS. Bousson Elliptical cavity linac, Low beta14-Nov-11ActiveG. Devanz Elliptical cavity linac, High beta14-Nov-11ActiveG. Devanz High Energy Beam Transport14-Nov-11ActiveS. Pape-Møller Target22-Nov-10ActiveS. Peggs Infrastructure Services22-Nov-10ActiveJ. Eguia RF Systems22-Nov-10ActiveR. Ruber LLRF14-Nov-11ActiveR. Zeng RF Sources, High beta14-Nov-11DraftD. McGinnis Cryomodules, High beta14-Nov-11DraftW. Hees Cryomodules, Low beta14-Nov-11DraftW. Hees Cryomodules, Spoke14-Nov-11DraftW. Hees Cryomodules, Utility module21-Oct-11DraftW. Hees Beam instrumentation29-Nov-11ActiveA. Jansson

4 LATTICE & ACCELERATOR SCIENCE (H. Danared) ParameterUnitValueStatusDateValidatorComment Ion source output energyMeV0.075Active23-Oct-10TB RFQ output energyMeV3Active23-Oct-10TB DTL output energyMeV50Active23-Oct-10TB Spoke resonator output energyMeV188Active15-Jun-11TBTech Note ESS/AD/0015 Elliptical low beta output energyMeV606Active15-Jun-11TBTech Note ESS/AD/0015 Elliptical high beta output energyMeV2500Active23-Oct-10TB Proton kinetic energy on targetMeV2500Active23-Oct-10TB Ion source lengthm2.5Active15-Dec-10TB LEBT lengthm1.6Active15-Dec-10TB RFQ lengthm4.0Active15-Dec-10TB MEBT lengthm2.5Active15-Dec-10TB DTL lengthm19.0Active15-Dec-10TB Spoke resonator section lengthm58.0Active15-Jun-11TBTech Note ESS/AD/0015 Elliptical low beta section lengthm108.0Active15-Jun-11TBTech Note ESS/AD/0015 Elliptical high beta section lengthm196.0Active15-Jun-11TBTech Note ESS/AD/0015 HEBT length, to first vertical bendm100.0Active15-Jun-11TBTech Note ESS/AD/0015 Length, source-to-first vertical bendm491.6Active15-Jun-11TBTech Note ESS/AD/0015 Depth of linac below ground levelm10Active15-Dec-10TBTech Note ESS/AD/0003 Number of accelerating gaps per spoke cavity3Active15-Dec-10TBDouble spoke resonator Number of cells per low beta cavity5Active23-Oct-10TB Number of cells per high beta cavity5Active23-Oct-10TB Spoke resonator cavities per cryomodule2Active15-Jun-11TBTech Note ESS/AD/0015 Low beta elliptical cavities per cryomodule4Active15-Jun-11TBTech Note ESS/AD/0015 High beta elliptical cavities per cryomodule8Active15-Jun-11TBTech Note ESS/AD/0015 Geometric beta, spoke resonators0.57Active15-Jun-11TBTech Note ESS/AD/0015 Geometric beta, low beta elliptical cavities0.70Active15-Jun-11TBTech Note ESS/AD/0015 Geometric beta, high beta elliptical cavities0.90Active15-Jun-11TBTech Note ESS/AD/0015 Operational gradient, spoke resonatorsMV/m8Active15-Jun-11TB

5 LATTICE & ACCELERATOR SCIENCE (H. Danared) ParameterUnitValueStatusDateValidatorComment Number of cells per high beta cavity5Active23-Oct-10TB Spoke resonator cavities per cryomodule2Active15-Jun-11TBTech Note ESS/AD/0015 Low beta elliptical cavities per cryomodule4Active15-Jun-11TBTech Note ESS/AD/0015 High beta elliptical cavities per cryomodule8Active15-Jun-11TBTech Note ESS/AD/0015 Geometric beta, spoke resonators0.57Active15-Jun-11TBTech Note ESS/AD/0015 Geometric beta, low beta elliptical cavities0.70Active15-Jun-11TBTech Note ESS/AD/0015 Geometric beta, high beta elliptical cavities0.90Active15-Jun-11TBTech Note ESS/AD/0015 Operational gradient, spoke resonatorsMV/m8Active15-Jun-11TB Operational gradient, low beta elliptical cavitiesMV/m15.44Active15-Jun-11TB Operational gradient, high beta elliptical cavitiesMV/m18.17Active15-Jun-11TB Elliptical power coupler power, to beamMW0.9Active15-Jun-11TB Number of modules in high beta sectionDraftTB Cavities per high beta cryomodule8Active23-Oct-10TB Quadrupoles per high beta cryomodule2DraftTB Number of modules in low beta sectionDraftTB Cavities per low beta cryomodule4Active23-Oct-10TB Quadrupoles per low beta cryomodule2DraftTB Number of modules in spoke section15DraftM. Eshraqi Cavities per spoke cryomodule3DraftM. Eshraqi Quadrupoles per spoke cryomodule1 / 0DraftM. Eshraqi 1 if non segmented, 0 if segmented

6 Parameter Database and Web Interface Tools Why not the present simple solution? 1.Easy for you but time consuming (and boring) for me as administrator. 2.Expect the number of parameter to increase. 3.Minimize sources of errors.

7 The Database Structure Reference Id Title Author Publication URL Data Team_ID System_ID Attribute_ID Parameter_ID Validator_ID Value Status Date_modified Comment Team Id Parent_Id Name Manager_Id System Id Parent_id Name Validator Id Name Manager Id Name Parameter Id Name Unit_id Definition Date_modified Reference_id Unit Id Name Attribute Id Name

8 Team or role, or view, or category… Natural to categorize parameters by teams, since the parameter list is a communication tool. Replaces the current tables names. Each team has a parameter manager (owner), with privileges to administrate parameters in the database. One person can be manager over several teams. Hierarchal structure

9 IDParameter TeamParameter Manager CCB (High Level Parameters)? 1Accelerator TB? 1.1Beam Physics (Lattice and Accelerator Science)H. Danared 1.2Front EndS. Gammino 1.2.1Ion SourceL. Celona 1.2.2Low Energy Beam TransportL. Celona 1.2.3Radio Frequency QuadrupoleB. Pottin 1.2.4Medium Energy Beam TransportI. Bustinduy 1.2.5Drift Tube LinacA. Pisent 1.3Spoke resonatorsS. Bousson 1.4Elliptical cavity linacG. Devanz 1.5High Energy Beam TransportS. Pape-Møller 1.5.1Target window (Target)S. Peggs ?Infrastructure ServicesP. Rådahl 1.6RF SystemsD. McGinnis 1.6.2LLRFR. Zeng 1.7CryomodulesW. Hees 1.8Beam instrumentationA. Jansson

10 System RF GALLERY CRYOPLANT TARGET Source RFQDTLSpokesHEBTLEBTMEBTLow βHigh β Buncher (LEBT) Low power 352 MHz Low power 704 MHz Medium power 704 MHZ High power 704 MHZ Coldbox Compressors… He tanksTransfer line… … … … … … LINAC TUNNEL INSTRUMENTS High power 352 MHz

11 Example

12 Attribute Default is nominal but can also be approximate, maximum, minimum, precision, accuracy... Optional Used for example by the planned Parameter Book. (application)

13 Example ParameterValueUnitPublisher Beam Current50mAGeneral Beam Current Precision1%Ion Source Beam Current Accuracy1%Ion Source Beam Current Ripple1%Ion Source Beam Current Pulse Length2.86mSGeneral Beam Current Pulse Length Precision1ppmChopper Beam Current Pulse length accuracy1ppmChopper Repetition Rate14HzGeneral Cavity Gradient Amplitude regulation0.5%Beam Physics Cavity Gradient Phase regulation0.5degreesBeam Physics Allowed AC Grid Load Variation (Flicker)1%Energy

14 Example ParameterMinimumNominalMaximumUnits RF Frequency704.42MHz Peak Output Power1.01.21.5MW RF Pulse length3.3ms Pulse repetition rate14Hz DC to RF efficiency65% Perveance0.55μPerv Beam Voltage102113kV Beam current1821A RF Power Gain48dB Bandwidth (-1 dB)4MHz Cathode lifetime100000h VSWR Tolerance1.2:1

15 Parameter The Parameter table accounts for the definition of parameters and unit. The level of unit control needs to be defined. To the lowest level it will be enforced that all parameters with identical name shall also have the same unit.

16 Data The primary key of the Data table is a tuple of System, Attribute and Parameter. Each record in the Data table will therefore be uniquely identified through this relation. A parameter name can apply to several systems of the facility.

17 Validation As before in boards (CCB, Technical board) Default validator is parent team Can however be someone else, for example for “interfaces” (target window, power coupler, etc.) between different groups.

18 Web Interface Tools Java based web interface tools. (Versatile, self-explanatory and efficient). A certain amount of control needs to be established, for example, for units and user privileges. This should be kept to a minimum. Example: Editor, tools to keep track of dependencies, Queries, Parameter Book.

Download ppt "Managing Parameters Karin Rathsman 2011-12-05. Parameter Management Enforce groups as well as individuals to work towards the same solution Provide tools."

Similar presentations

Final Design of a CW Radio-Frequency Quadrupole (RFQ) for the Project X Injector Experiment (PXIE)* Abstract: The Project X Injector Experiment (PXIE)

Final Design of a CW Radio-Frequency Quadrupole (RFQ) for the Project X Injector Experiment (PXIE)* Abstract: The Project X Injector Experiment (PXIE)
The European Spallation Source Dave McGinnis Chief Engineer – ESS\Accelerator Division IVEC 2013.

The European Spallation Source Dave McGinnis Chief Engineer – ESS\Accelerator Division IVEC 2013.
Stephen Molloy RF Group ESS Accelerator Division

Stephen Molloy RF Group ESS Accelerator Division
ESS End-to-End Optics and Layout Integration Håkan Danared European Spallation Source Catania, 6 July 2011.

ESS End-to-End Optics and Layout Integration Håkan Danared European Spallation Source Catania, 6 July 2011.
Part2: Cavities and Structures Modes in resonant cavity From a cavity to an accelerator Examples of structures JUAS 2015 Linacs-JB.Lallement - JUAS 20151.

Part2: Cavities and Structures Modes in resonant cavity From a cavity to an accelerator Examples of structures JUAS 2015 Linacs-JB.Lallement - JUAS
Linac Front-End R&D --- Systems Integration and Meson Lab Setup

Linac Front-End R&D --- Systems Integration and Meson Lab Setup
Page The High power proton accelerator for the European Spallation Source (ESS) S. Gammino Milano, 9 Marzo 2012 1.

Page The High power proton accelerator for the European Spallation Source (ESS) S. Gammino Milano, 9 Marzo
Discussion on Studies at Test Stands Roger Ruber Uppsala University.

Discussion on Studies at Test Stands Roger Ruber Uppsala University.
The ESS ADU project Mats Lindroos Head of the ESS Accelerator Division Lund, 2011-03-23.

The ESS ADU project Mats Lindroos Head of the ESS Accelerator Division Lund,
ESS DTL beam commissioning

ESS DTL beam commissioning
Field and Phase Error Studies in Normal Conducting Structures LLRF and Beam Dynamics in Hadron Linacs – EuCARD2 Workshop Ciprian Plostinar 01.06.2015.

Field and Phase Error Studies in Normal Conducting Structures LLRF and Beam Dynamics in Hadron Linacs – EuCARD2 Workshop Ciprian Plostinar
Beam tolerance to RF faults & consequences on RF specifications Frédéric Bouly MAX 1 st Design Review WP1 - Task 1.2 Bruxelles, Belgium Monday, 12 th November.

Beam tolerance to RF faults & consequences on RF specifications Frédéric Bouly MAX 1 st Design Review WP1 - Task 1.2 Bruxelles, Belgium Monday, 12 th November.
Activities of Superconducting RF Accelerators at Nanjing University Sun An Proton Linear Accelerator Institute Institute of Energy Sciences, Nanjing University.

Activities of Superconducting RF Accelerators at Nanjing University Sun An Proton Linear Accelerator Institute Institute of Energy Sciences, Nanjing University.
High Power RF Systems, Control and Distribution in the HINS Alfred Moretti, Brian Chase, Chris Jensen and Peter Prieto Fermilab Accelerator Advisory Committee.

High Power RF Systems, Control and Distribution in the HINS Alfred Moretti, Brian Chase, Chris Jensen and Peter Prieto Fermilab Accelerator Advisory Committee.
ESS Design Options David McGinnis 4 March 2013 1.

ESS Design Options David McGinnis 4 March
Dave McGinnis Chief Engineer – Accelerator Division

Dave McGinnis Chief Engineer – Accelerator Division
SIMPLE CHARACTERIZATION METHOD OF SMALL HIGH GRADIENT PERMANENT MAGNET QUADRUPOLES Concetta Ronsivalle,Luigi Picardi, Monia Vadrucci (ENEA C.R. Frascati,

SIMPLE CHARACTERIZATION METHOD OF SMALL HIGH GRADIENT PERMANENT MAGNET QUADRUPOLES Concetta Ronsivalle,Luigi Picardi, Monia Vadrucci (ENEA C.R. Frascati,
June 23, 2005R. Garoby Introduction SPL+PDAC example Elements of comparison Linacs / Synchrotrons LINAC-BASED PROTON DRIVER.

June 23, 2005R. Garoby Introduction SPL+PDAC example Elements of comparison Linacs / Synchrotrons LINAC-BASED PROTON DRIVER.
Anders Sunesson RF Group ESS Accelerator Division

Anders Sunesson RF Group ESS Accelerator Division
J. Alessi RF Structures EBIS Project Technical Review 1/27/05 RF Structures J. Alessi Some general thoughts on what our approach will be.

J. Alessi RF Structures EBIS Project Technical Review 1/27/05 RF Structures J. Alessi Some general thoughts on what our approach will be.

Similar presentations

Ads by Google