Avancerad sökning
Visar resultat 1 - 5 av 86 avhandlingar som matchar ovanstående sökkriterier.
1. Invasive interactive parallelization
Sammanfattning : While looking at the strengths and weaknesses of contemporary approaches to parallelization this thesis s uggests a form of parallelizing refactoring - Invasive Interactive Parallelization - that aims at addressing a number of weaker sides of contemporary methods. Our ultimate goal is to make the parallelization more user and developer friendly. LÄS MER
2. Inverse factorization in electronic structure theory : Analysis and parallelization
Sammanfattning : This licentiate thesis is a part of an effort to run large electronic structure calculations in modern computational environments with distributed memory. The ultimate goal is to model materials consisting of millions of atoms at the level of quantum mechanics. LÄS MER
3. Parallelization of dynamic algorithms for electronic structure calculations
Sammanfattning : The aim of electronic structure calculations is to simulate behavior of complex materials by resolving interactions between electrons and nuclei in atoms at the level of quantum mechanics. Progress in the field allows to reduce the computational complexity of the solution methods to linear so that the computational time scales proportionally to the size of the physical system. LÄS MER
4. Automatic and Explicit Parallelization Approaches for Equation Based Mathematical Modeling and Simulation
Sammanfattning : The move from single-core processor systems to multi-core and manyprocessor systems comes with the requirement of implementing computations in a way that can utilize these multiple computational units efficiently. This task of writing efficient parallel algorithms will not be possible without improving programming languages and compilers to provide the supporting mechanisms. LÄS MER
5. Automatic Parallelization of Equation-Based Simulation Programs
Sammanfattning : Modern equation-based object-oriented modeling languages which have emerged during the past decades make it easier to build models of large and complex systems. The increasing size and complexity of modeled systems requires high performance execution of the simulation code derived from such models. LÄS MER