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<scp>Ginkgo</scp>: A Modern Linear Operator Algebra Framework for High Performance Computing

Hartwig Anzt, Terry Cojean, Goran Flegar, Fritz Göbel, Thomas Grützmacher, Pratik Nayak, Tobias Ribizel, Yu‐Hsiang Tsai, Enrique S. Quintana–Ort́ı

2022ACM Transactions on Mathematical Software76 citationsDOIOpen Access PDF

Abstract

In this article, we present Ginkgo , a modern C++ math library for scientific high performance computing. While classical linear algebra libraries act on matrix and vector objects, Ginkgo ’s design principle abstracts all functionality as “linear operators,” motivating the notation of a “linear operator algebra library.” Ginkgo ’s current focus is oriented toward providing sparse linear algebra functionality for high performance graphics processing unit (GPU) architectures, but given the library design, this focus can be easily extended to accommodate other algorithms and hardware architectures. We introduce this sophisticated software architecture that separates core algorithms from architecture-specific backends and provide details on extensibility and sustainability measures. We also demonstrate Ginkgo ’s usability by providing examples on how to use its functionality inside the MFEM and deal.ii finite element ecosystems. Finally, we offer a practical demonstration of Ginkgo ’s high performance on state-of-the-art GPU architectures.

Topics & Concepts

Linear algebraComputer scienceAlgebra over a fieldUsabilityGraphicsFocus (optics)Recursion (computer science)GinkgoSoftwareProgramming languageMathematicsComputer graphics (images)Operating systemTraditional medicineOpticsPhysicsMedicineGeometryPure mathematicsMatrix Theory and AlgorithmsDistributed and Parallel Computing SystemsParallel Computing and Optimization Techniques
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