Christoph Kowitz scite author profile

Plasma microinstabilities, which can be described in the framework of the linear gyrokinetic equations, are routinely computed in the context of stability analyses and transport predictions for magnetic confinement fusion experiments. The GENE code, which solves the gyrokinetic equations, has been coupled to the SLEPc package for an efficient iterative, matrix-free, and parallel computation of rightmost eigenvalues. This setup is presented, including the preconditioner which is necessary for the newly implemented Jacobi-Davidson solver. The fast computation of instabilities at a single parameter set is exploited to make parameter scans viable, that is to compute the solution at many points in the parameter space. Several issues related to parameter scans are discussed, such as an efficient parallelization over parameter sets and subspace recycling.

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Fault-Tolerant Grid-Based Solvers: Combining Concepts from Sparse Grids and MapReduce

Larson

Hegland

Harding

et al. 2013

Procedia Computer Science

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Christoph Kowitz

The Combination Technique for the Initial Value Problem in Linear Gyrokinetics

Multi-dimensional gyrokinetic parameter studies based on eigenvalue computations

Fault-Tolerant Grid-Based Solvers: Combining Concepts from Sparse Grids and MapReduce

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