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  • Asynchronous many-task systems and applications = Second International Workshop, WAMTA 2024, Knoxville, TN, USA, February 14-16, 2024 : proceedings /
  • Record Type: Electronic resources : Monograph/item
    Title/Author: Asynchronous many-task systems and applications/ edited by Patrick Diehl ... [et al.].
    Reminder of title: Second International Workshop, WAMTA 2024, Knoxville, TN, USA, February 14-16, 2024 : proceedings /
    remainder title: WAMTA 2024
    other author: Diehl, Patrick.
    corporate name: WAMTA (Workshop)
    Published: Cham :Springer Nature Switzerland : : 2024.,
    Description: x, 186 p. :ill. (some col.), digital ;24 cm.
    [NT 15003449]: Speaking Pygion: Experiences Writing an Exascale Single Particle Imaging Code. -- Futures for dynamic dependencies - Parallelizing the H-LU Factorization. -- Evaluating PaRSEC through Matrix Computations in Scientific Applications. -- Distributed Asynchronous Contact Mechanics with DARMA/vt. -- IRIS Reimagined: Advancements in Intelligent Runtime System for Task Based Programming. -- MatRIS: Addressing the Challenges for Portability and Heterogeneity using Tasking for Matrix Decomposition (Cholesky) -- ParSweet: A Suite of Codes for Benchmarking and Testing Mutex-Based Parallel Systems. -- Rethinking Programming Paradigms in the QC-HPC Context. -- Dynamic Tuning of Core Counts to Maximize Performance in Object-based Runtime Systems. -- Enhancing sparse direct solver scalability through runtime system automatic data partition. -- Experiences Porting Shared and Distributed Applications to Asynchronous Tasks: A Multidimensional FFT Case-study. -- An abstraction for distributed stencil computations using Charm++. -- DLA-Future: a task-based linear algebra library which provides a GPU enabled distributed eigensolver. -- ALPI: Enhancing Portability and Interoperability of Task-Aware Libraries. -- Evolving APGAS Programs: Automatic and Transparent Resource Adjustments at Runtime. -- Optimizing Parallel System Efficiency: Dynamic Task Graph Adaptation with Recursive Tasks. -- HPX with Spack and Singularity Containers: Evaluating Overheads for HPX/Kokkos using an astrophysics application.
    Contained By: Springer Nature eBook
    Subject: High performance computing - Congresses. -
    Online resource: https://doi.org/10.1007/978-3-031-61763-8
    ISBN: 9783031617638
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