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Contribution to a conference proceedings/Contribution to a book | PUBDB-2024-01722 |
; ;
2024
JACoW Publishing
[Geneva]
ISBN: 978-3-95450-247-9
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Please use a persistent id in citations: doi:10.18429/JACoW-IPAC2024-THPR36 doi:10.3204/PUBDB-2024-01722
Report No.: arXiv:2405.12391
Abstract: High-power multi-beam klystrons represent a key component to amplify RF to generate the accelerating field of the superconducting radio frequency (SRF) cavities at European XFEL. Exchanging these high-power components takes time and effort, thus it is necessary to minimize maintenance and downtime and at the same time maximize the device's operation. In an attempt to explore the behavior of klystrons using machine learning, we completed a series of experiments on our klystrons to determine various operational modes and conduct feature extraction and dimensionality reduction to extract the most valuable information about a normal operation. To analyze recorded data we used state-of-the-art data-driven learning techniques and recognized the most promising components that might help us better understand klystron operational states and identify early on possible faults or anomalies.
Keyword(s): Accelerator Physics ; mc6-beam-instrumentation-controls-feedback-and-operational-aspects - MC6: Beam Instrumentation, Controls, Feedback, and Operational Aspects ; MC6.T22 - MC6.T22 Reliability, Operability ; klystron ; operation ; acceleration ; timing ; embedded
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Automated anomaly detection on European XFEL klystrons
[10.3204/PUBDB-2025-01089]
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