<span class="var-sub_title">OpenACC-Based GPU Parallelization of Plane Sweep Algorithm for Geometric Intersection</span> SC18 Proceedings

The International Conference for High Performance Computing, Networking, Storage, and Analysis

Fifth Workshop on Accelerator Programming Using Directives (WACCPD)


OpenACC-Based GPU Parallelization of Plane Sweep Algorithm for Geometric Intersection

Abstract: Line segment intersection is one of the elementary operations in computational geometry. Complex problems in Geographic Information Systems (GIS) like finding map overlays or spatial joins using polygonal data require solving segment intersections. Plane sweep paradigm is used for finding geometric intersection in an efficient manner. However, it is difficult to parallelize due to its in-order processing of spatial events. We present a new fine-grained parallel algorithm for geometric intersection and its CPU and GPU implementation using OpenMP and OpenACC. To the best of our knowledge, this is the first work demonstrating an effective parallelization of plane sweep on GPUs. We chose compiler directive based approach for implementation because of its simplicity to parallelize sequential code. Using Nvidia Tesla P100 GPU, our implementation achieves around 40X speedup for line segment intersection problem on 40K and 80K data sets compared to sequential CGAL library.

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