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Online Data Analysis and Simulation

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Title: Online Data Analysis and Simulation


1
Online Data Analysis and Simulation
  • Sven Reiche
  • UCLA - 09/22/04

2
Goals
  • Help operators in commissioning the machine.
  • Essential for semi-automated procedures (e.g.
    BBA).
  • Confirm (or reject) certain models for beam
    propagation.
  • Complete understanding of the machine, required
    for further modification/upgrades.

3
Requirements
  • Database of machine settings and diagnostic
  • Integrated analysis software (e.g. emittance
    measurement)
  • Core simulation suite (Parmela/Astra, Elegant,
    Genesis/Ginger)
  • Data conversions modules
  • Scripting environment
  • Hardware resources

4
Basic Set-up
Machine/Experiment
Input for Simulation
Change Settings
Diagnostic/ Measurement
Derived Beam Model
Comparison (Operator)
Derived Measurement
Complete Beam Model
Update Model
Start-end Simulation
5
Online Data Analysis
  • Goal to model the electron beam or to confirm an
    existing model.
  • Direct and calibrated measurements (Charge, RF
    Phases etc).
  • Programs to extract information (e.g. emittance
    from quad scan or tomography).
  • Stores information in database.
  • Requires eventually to automate control of the
    machine.

6
Online Simulation
  • Simulation, based on machine set-values and/or
    experimental beam model.
  • Reproduction of existing measurement (e.g. beam
    profiles at OTR screens).
  • Comparison with experimentally derived beam
    information.
  • Interface with machine set-value and/or
    experimental results.

7
Injector
  • Fast calculation of beam envelope (HOMDYN,
    Trace3D) or more time-consuming Particle Tracking
    (PARMELA, Astra).
  • Depends critical of the underlying model (e.g.
    thermal emittance) and injector settings (e.g.
    solenoid field, rf phase).
  • Weak/non-existing interface to drive laser
    (import profile of virtual cathode into the
    codes).

8
Linac
  • ELEGANT as solely choice for Linac simulation.
  • Execution of 3D CSR calculation (Traffic4,
    CSRTrack) too time consuming for
    online-simulation.
  • Because simulation depends on various machine
    set-values, automated interface with database is
    essential.

9
Undulator/FEL
  • No dynamic machine parameters (undulator lattice
    only).
  • Requires a detailed model of the electron beam.
  • Calculation varies from minutes (FEL amplifier
    model) to days (full bunch SASE simulation).
  • Background signal from spontaneous radiation not
    negligible.

10
Realization I
  • Extension of established start-end simulation by
    automated interface between codes and/or machine
    database.
  • Support by the code authors is essential.
  • Codes and code-interface programs should be
    scriptable or callable by a programming
    environment (e.g. Matlab). Simplest form of
    system calls (e.g. system in C/C or spawn
    in IDL) should be sufficient.

11
Realization II
  • Interface to database for machine set-values
    (dynamic parameters) and machine parameters
    (static parameters).
  • Postprocessing of simulation output is written
    back to database or handed over to next code
    (agreement on format essential).
  • For commissioning the postprocessor should mimic
    diagnostic for better comparison.

12
Simplification for Operation
  • No particle tracking for Injector
  • No CSR codes for Linac tracking
  • FEL Amplifier model only for time-dependent runs
  • Far-field approximation for calculation of the
    spontaneous background
  • Piecewise calculation (no single-button start-end
    simulation)

13
Conclusion
  • Diagnostic has to be defined so that codes can
    model the equivalent virtual LCLS.
  • Automation between codes is straight forward if
    support by authors exists.
  • Embedded in an easy to program environment
    (Matlab).
  • Online simulation have to be fast to support the
    operation of the machine and not the data
    analysis.
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