Numerical Methods for Analysis, Design and Modelling of Particle Accelerators, 11 November 2018 - 23 November 2018, Thessaloniki, Greece

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School administrator(s):

Delphine Rivoiron

The CERN accelerator school organises a course on simulation and modelling tools used for the design, construction and operation of accelerators. It will be of interest to staff and students in accelerator laboratories and universities who wish to increase their expertise in this field and learn about recent progress.
The lectures will cover the fundamentals of modern algorithms and techniques as well as a review of the mathematical background. Strong emphasis is put on the assimilation of the presented concepts by the participants. For this purpose the lectures are complemented by hands-on exercises and tutorials to get acquainted with some modern tools and their working principles.

Attachment Size
Linear Algebra I, II (Andreas Adelmann, PSI) 379.75 KB
Numerical computing (Werner Herr, CERN) 1.63 MB
Linear Optics Calculations I, II (Guido Sterbini, CERN) 9.47 MB
Ordinary Differential Equations (Andreas Adelmann, PSI) 226.39 KB
Monte Carlo - Simulation Techniques (Ji Qiang) 3.62 MB
Genetic Optimisation I, II (Andreas Adelmann, PSI) 7.98 MB
Nonlinear Beam Dynamics (Werner Herr, CERN) 1.07 MB
Truncated Power Series Algebra I, II, III (Etienne Forest, KEK) 722.96 KB
Imperfections and corrections I, II (Tomas Rogelio, CERN) 6.57 MB
Hamiltonian Dymanics (Werner Herr, CERN) 4.04 MB
Dynamical Systems, Representation of Particle Beams (Alex Chao, SLAC) 690.52 KB
Partial differential equations I (Stephan Russenschuck, CERN) 4.91 MB
Partial differential equations II (Stephan Russenschuck, CERN) 11.38 MB
Partial differential equations III (Stephan Russenschuck, CERN) 3.82 MB
Multi Particle Simulation Techniques I (Ji Qiang, LBL) 2.1 MB
Multi Particle Simulation Techniques II (Ji Qiang, LBL) 4.55 MB
Machine Learning I (Daniel Ratner, SLAC) 2.82 MB
Machine Learning II (Daniel Ratner, SLAC) 4.53 MB
Analysis Techniques I (Yannis Papaphilippou, CERN) 3.83 MB
Analysis Techniques II (Yannis Papaphilippou, CERN) 10.41 MB
Computing Techniques I, II (Xavier Buffat, CERN) 11.69 MB
Field Solvers I (Herbert De Gersem, TU Darmstadt) 13.78 MB
Field Solvers II (Herbert De Gersem, TU Darmstadt) 5.5 MB
Field Solvers III (Herbert De Gersem, TU Darmstadt) 22.46 MB
Field Solvers IV (Herbert De Gersem, TU Darmstadt) 8.59 MB
Simulation of Interaction with Material I (Nikolai Mokhov, Fermilab) 3.2 MB
Simulation of Interaction with Material II (Nikolai Mokhov, Fermilab) 4.27 MB
Direct Vlasov Solvers I (Nicolas Mounet, CERN) 23.19 MB
Direct Vlasov Solvers II (Nicolas Mounet, CERN) 28.91 MB
Comparison of various codes for interaction with material (Nikolai Mokhov, Fermilab) 3.68 MB