Cambazoğlu, Berkant Barla2016-01-082016-01-0820002000http://hdl.handle.net/11693/18191Ankara : The Department of Computer Engineering and the Institute of Engineering and Science of Bilkent University, 2000.Thesis (Master's) -- Bilkent University, 2000.Includes bibliographical references (leaves 72-76).Cataloged from PDF version of article.Ray-casting is a popular direct volume rendering technique, used to explore the content of 3D data. Although this technique is capable of producing high quality visualizations, its slowness prevents the interactive use. The major method to overcome this speed limitation is parallelization. In this work, we investigate the image-space parallelization of ray-casting for distributed memory architectures. The most important issues in image-space parallelization are load balancing and minimization of the data redistribution overhead introduced at successive visualization instances. Load balancing in volume rendering requires the estimation of screen work load correctly. For this purpose, we tested three different load assignment schemes. Since the data used in this work is made up of unstructured tetrahedral grids, clusters of data were used instead of cells, for efficiency purposes. Two different cluster-processor distribution schemes are employed to see the effects of initial data distribution. The major contribution of the thesis comes at the hypergraph partitioning model proposed as a solution to the remapping problem. For this purpose, existing hypergraph partitioning tool PaToH is modified and used as a one-phase remapping tool. The model is tested on a Parsytec CC system and satisfactory results are obtained. Compared to the two-phase jagged partitioning model, our work incurs less preprocessing overhead. At comparable load imbalance values, our hypergraph partitioning model requires 25% less total volume of communication than jagged partitioning on the average.xiv, 78 leaves : illustrations, charts ; 30 cm.Englishinfo:eu-repo/semantics/openAccessImage-space parallelizationRay-castingUnstructured gridsWork load assignmentHypergraph partitioningLoad balancingRemappingThesisBILKUTUPB051146