Podrobná bibliografia
| Názov: |
KlyH: 1D Disk Model-Based Large-Signal Simulation Software for Klystrons. |
| Autori: |
Zhao, Hezhang, He, Hu, Li, Shifeng, Huang, Hua, Liu, Zhengbang, Sun, Limin, He, Ke, Wu, Dongwenlong |
| Zdroj: |
Electronics (2079-9292); Jun2025, Vol. 14 Issue 11, p2223, 18p |
| Predmety: |
OPTIMIZATION algorithms, MULTI-objective optimization, PARTICLE swarm optimization, OPEN architecture (Computer science), ARTIFICIAL intelligence |
| Abstrakt: |
This paper presents KlyH, a new 1D (one-dimensional) large-signal simulation software for klystrons, designed to deliver efficient and accurate simulation and optimization tools. KlyH integrates a Fortran-based dynamic link library (DLL) as its computational core, which employs high-performance numerical algorithms to rapidly compute critical parameters such as efficiency, gain, and bandwidth. Compared with traditional 1D simulation tools, which often lack open interfaces and extensibility, KlyH is built with a modular and open architecture that supports seamless integration with advanced optimization and intelligent design algorithms. KlyH incorporates multi-objective optimization frameworks, notably the Non-Dominated Sorting Genetic Algorithm II (NSGA-II) and Optimized Multi-Objective Particle Swarm Optimization (OMOPSO), enabling automated parameter tuning for efficiency maximization and interaction length optimization. Its bandwidth-of-klystron-analysis module predicts gain and output power across operational bandwidths, with optimization algorithms further enhancing bandwidth performance. A Java-based graphical user interface (GUI) provides an intuitive workflow for parameter configuration and real-time visualization of simulation results. The open architecture also lays the foundation for future integration of artificial intelligence algorithms, promoting intelligent and automated klystron design workflows. The accuracy of KlyH and its potential for parameter optimization are confirmed by a case study on an X-band relativistic klystron amplifier. Discrepancies observed between 1D simulations and 3D PIC (three-dimensional particle-in-cell) simulation results are analyzed to identify model limitations, providing critical insights for advancing high-performance klystron designs. [ABSTRACT FROM AUTHOR] |
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