Parallel Verified Linear System Solver for Uncertain Input Data

Parallel Verified Linear System Solver for Uncertain Input Data

This paper presents a new parallel implementation for solving dense interval linear systems with verified computing. The use of intervals appears as one possible way to handle the uncertainty of input data in real problems. A verified method using midpoint-radius arithmetic and directed roundings wa...

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Hauptverfasser: Kolberg, M., Dorn, M., Fernandes, L.G., Bohlender, G.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Arithmetic
Concurrent computing
Equations
High performance computing
Interval Arithmetic
Libraries
Linear algebra
Linear systems
Optimization methods
Parallel Computing
Uncertain Input Data
Uncertainty
Vectors
Verified Computing
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Beschreibung
Zusammenfassung:This paper presents a new parallel implementation for solving dense interval linear systems with verified computing. The use of intervals appears as one possible way to handle the uncertainty of input data in real problems. A verified method using midpoint-radius arithmetic and directed roundings was combined with optimized libraries such as SCALAPACK and PBLAS to provide a free, fast, reliable and accurate solver. Accuracy and performance results for executing this implementation in a cluster are shown. It is the authors opinion that the combination of verified and parallel computing is a powerful tool that could be used for several other mathematical problems.
ISSN:1550-6533
2643-3001
DOI:10.1109/SBAC-PAD.2008.10