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    Input-output-controlled nonlinear equation solvers

    New search for: Padovan, Joseph

    To upgrade the efficiency and stability of the successive substitution (SS) and Newton-Raphson (NR) schemes, the concept of input-output-controlled solvers (IOCS) is introduced. By employing the formal properties of the constrained version of the SS and NR schemes, the IOCS algorithm can handle indefiniteness of the system Jacobian, can maintain iterate monotonicity, and provide for separate control of load incrementation and iterate excursions, as well as having other features. To illustrate the algorithmic properties, the results for several benchmark examples are presented. These define the associated numerical efficiency and stability of the IOCS.

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    Input-output-controlled nonlinear equation solvers

    New search for: Padovan, Joseph

    To upgrade the efficiency and stability of the successive substitution (SS) and Newton-Raphson (NR) schemes, the concept of input-output-controlled solvers (IOCS) is introduced. By employing the formal properties of the constrained version of the SS and NR schemes, the IOCS algorithm can handle indefiniteness of the system Jacobian, can maintain iterate monotonicity, and provide for separate control of load incrementation and iterate excursions, as well as having other features. To illustrate the algorithmic properties, the results for several benchmark examples are presented. These define the associated numerical efficiency and stability of the IOCS.

    Access

    Access via TIB
    Check availability in my library

    Input-output-controlled nonlinear equation solvers

    New search for: Padovan, Joseph

    To upgrade the efficiency and stability of the successive substitution (SS) and Newton-Raphson (NR) schemes, the concept of input-output-controlled solvers (IOCS) is introduced. By employing the formal properties of the constrained version of the SS and NR schemes, the IOCS algorithm can handle indefiniteness of the system Jacobian, can maintain iterate monotonicity, and provide for separate control of load incrementation and iterate excursions, as well as having other features. To illustrate the algorithmic properties, the results for several benchmark examples are presented. These define the associated numerical efficiency and stability of the IOCS.

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    Access via TIB
    Check availability in my library

    Access

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    Document information
    Title:

    Input-output-controlled nonlinear equation solvers

    Contributors:

    Padovan, Joseph (author)

    Published in:

    Numerical Heat Transfer ; 14

    Publication date:

    1988-01-01

    ISSN:

    0149-5720

    Type of media:

    Miscellaneous

    Type of material:

    No indication

    Language:

    English

    Keywords:

    Fluid Mechanics And Heat Transfer

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