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Barov, N.

Paper Title Page
WEPMS083 A Low-Voltage Klystron for the ILC and ILC Testing Program 2526
 
  • N. Barov
    Far-Tech, Inc., San Diego, California
 
  Funding: Work supported by the US Department of Energy.

FAR-TECH, Inc. is developing and building a 36 kV, 830 kW klystron for the International Linear Collider (ILC) testing program. A variant of the tube can also be used to supply RF energy for a 2-3 meter section of ILC. The tube design is of the multiple-beam klystron (MBK) type, using ten beams with confined flow focusing. The design optimizes small tube size and low cost. The initial prototype will use an electromagnet, but the design allows for the eventual use of a permanent magnet solenoid. An efficiency of 65% is expected. We will present the design and status of the construction of the klystron and supporting systems.

 
THPAS087 ACCELVIEW: A Graphical Means for Driving Integrated Numerical Experiments 3687
 
  • N. Barov
    Far-Tech, Inc., San Diego, California
  • S. Reiche
    UCLA, Los Angeles, California
 
  Funding: Work supported by the US Department of Energy.

Many simulation efforts make use of integrated numerical experiments, where the inputs and outputs of several accelerator codes are tied together. This is usually accomplished by writing custom scripts that launch the underlying programs and perform data format translation. We present a way to simplify this process by using a graphical user interface that allows one to describe the data flow in the style of the LabVIEW and Simulink environments. A module to support a new accelerator code involves writing data translators to/from a common format (SDDS or HDF5), and a function to generate an input file based on a standard way of specifying an accelerator lattice (such as Accelerator Markup Language, or AML).