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引用次数: 3

摘要

倒排索引是目前大多数大型信息检索系统中使用的基本数据结构。它可以被建模为排序的整数序列的集合。过去已经研究了许多倒排索引的压缩技术,其中一些通过使用现代cpu上可用的SIMD指令达到了惊人的解压速度。虽然在图形处理单元(Graphics processing Units, gpu)的查询处理算法上已经做了一些工作,但很少关注如何有效地访问压缩索引结构,我们看到了在解压缩速度方面有一些显著改进的潜力。在本文中,我们描述并实现了两种用于GPU架构索引解压缩的编码方案。它们的格式和解码算法是基于现有的基于cpu的压缩方法,利用gpu提供的执行模型和内存层次结构。我们表明,我们的解决方案,GPU-BP和GPU-VByte,实现显著的速度比他们已经精心优化的CPU对手。
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GPU-Accelerated Decoding of Integer Lists
An inverted index is the basic data structure used in most current large-scale information retrieval systems. It can be modeled as a collection of sorted sequences of integers. Many compression techniques for inverted indexes have been studied in the past, with some of them reaching tremendous decompression speeds through the use of SIMD instructions available on modern CPUs. While there has been some work on query processing algorithms for Graphics Processing Units (GPUs), little of it has focused on how to efficiently access compressed index structures, and we see some potential for significant improvements in decompression speed. In this paper, we describe and implement two encoding schemes for index decompression on GPU architectures. Their format and decoding algorithm is adapted from existing CPU-based compression methods to exploit the execution model and memory hierarchy offered by GPUs. We show that our solutions, GPU-BP and GPU-VByte, achieve significant speedups over their already carefully optimized CPU counterparts.
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