Fast Solvers for Mesh-Based Computations

Name: Fast Solvers for Mesh-Based Computations
Brand: Taylor & Francis Inc
SKU: 9781498754194
Price: 122.99 EUR
Availability: InStock

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€122.99

Product variants

A01=Maciej Paszynski

Age Group_Uncategorized

algorithm

Algorithms

Author_Maciej Paszynski

automatic-update

B1 A1

backward

Backward Substitution

BLAS Routine

Category1=Non-Fiction

Category=PBW

Category=UMB

Category=UYA

Codes

complement

COP=United States

Delivery_Pre-order

Dependency Graph

Direct Solver

Direct solvers

Discrete Weak Formulation

Double A2

Double B1

Edge Singularity

element

elimination

Elimination Tree

eq_computing

eq_isMigrated=2

eq_non-fiction

Execution Time

finite

Finite Difference Method

Finite Element Mesh

Finite Element Methods

FLOPs

Language_English

Linear Basis Functions

LU Factorization

Master Element

Mesh-Based Computations

method

MULTI-FRONTAL SOLVER

Nested Dissections Algorithm

PA=Temporarily unavailable

Parallel Implementation

Patch Number

Precision Matrix

Price_€100 and above

PS=Active

schur

Schur Complement

softlaunch

Solver Algorithm

Son Node

substitution

tree

Tri Diagonal Matrix

Product details

ISBN 9781498754194
Weight: 834g
Dimensions: 178 x 254mm
Publication Date: 01 Dec 2015
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback
Language: English

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Fast Solvers for Mesh-Based Computations presents an alternative way of constructing multi-frontal direct solver algorithms for mesh-based computations. It also describes how to design and implement those algorithms.

The book’s structure follows those of the matrices, starting from tri-diagonal matrices resulting from one-dimensional mesh-based methods, through multi-diagonal or block-diagonal matrices, and ending with general sparse matrices.

Each chapter explains how to design and implement a parallel sparse direct solver specific for a particular structure of the matrix. All the solvers presented are either designed from scratch or based on previously designed and implemented solvers.

Each chapter also derives the complete JAVA or Fortran code of the parallel sparse direct solver. The exemplary JAVA codes can be used as reference for designing parallel direct solvers in more efficient languages for specific architectures of parallel machines.

The author also derives exemplary element frontal matrices for different one-, two-, or three-dimensional mesh-based computations. These matrices can be used as references for testing the developed parallel direct solvers.

Based on more than 10 years of the author’s experience in the area, this book is a valuable resource for researchers and graduate students who would like to learn how to design and implement parallel direct solvers for mesh-based computations.

Maciej Paszynski, PhD, Department of Computer Science, Electronics and Telecommunications, AGH University of Science and Technology, Kraków, Poland