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• W2971435483 abstract "Visualization is vital to the scientific discovery process. An interactive high-fidelity rendering provides accelerated insight into complex structures, models and relationships. However, the efficient mapping of visualization tasks to high performance architectures is often difficult, being subject to a challenging mixture of hardware and software architectural complexities in combination with domain-specific hurdles.These difficulties are often exacerbated on heterogeneous architectures.In this thesis, a variety of ray casting-based techniques are developed and investigated with respect to a more efficient usage of heterogeneous HPC systems for distributed visualization, addressing challenges in mesh-free rendering, in-situ compression, task-based workload formulation, and remote visualization at large scale.A novel direct raytracing scheme for on-the-fly free surface reconstruction of particle-based simulations using an extended anisoptropic kernel model is investigated on different state-of-the-art cluster setups. The versatile system renders up to 170 million particles on 32 distributed compute nodes at close to interactive frame rates at 4K resolution with ambient occlusion.To address the widening gap between high computational throughput and prohibitively slow I/O subsystems, in situ topological contour tree analysis is combined with a compact image-based data representation to provide an effective and easy-to-control trade-off between storage overhead and visualization fidelity.Experiments show significant reductions in storage requirements, while preserving flexibility for exploration and analysis.Driven by an increasingly heterogeneous system landscape, a flexible distributed direct volume rendering and hybrid compositing framework is presented.Based on a task-based dynamic runtime environment, it enables adaptable performance-oriented deployment on various platform configurations. Comprehensive benchmarks with respect to task granularity and scaling are conducted to verify the characteristics and potential of the novel task-based system design.A core challenge of HPC visualization is the physical separation of visualization resources and end-users. Using more tiles than previously thought reasonable, a distributed, low-latency multi-tile streaming system is demonstrated, being able to sustain a stable 80 Hz when streaming up to 256 synchronized 3840x2160 tiles and achieve 365 Hz at 3840x2160 for sort-first compositing over the internet, thereby enabling lightweight visualization clients and leaving all the heavy lifting to the remote supercomputer." @default.
• W2971435483 created "2019-09-12" @default.
• W2971435483 creator A5023826409 @default.
• W2971435483 date "2019-01-01" @default.
• W2971435483 modified "2023-09-27" @default.
• W2971435483 title "Towards Efficient Ray Casting-Based Visualization on Heterogeneous HPC Architectures" @default.
• W2971435483 hasPublicationYear "2019" @default.
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