Lucene内存方法将基于RAM的存储与非常快的文档分析器组合在一起,方便了针对高度优化的实现进行自定义。
The Lucene in-memory approach combines RAM-based storage with a very fast document analyzer that trades ease of customization for a highly optimized implementation.
优化软件用于修改和压缩系统,这样应用程序执行速度更快或操作更少的内存存储量和其他资源。
Optimized software is used to modify and compress a system so that an application can execute more rapidly or operate with a reduced amount of memory storage and other resources.
采用优化的循环除算法及开辟内存存储数据方式实现了分数的快速高精度求解。
The paper uses cyclic division algorithm and opening-up-memory data storage to realize rapid high-precis- ion based on fraction.
提出一种内存优化管理方法,能更高效地存储海量数据。
A memory optimizing management method is proposed, which can memorize massive data efficiently.
针对DSP片内资源特点设计了片内存储器数据分配方案,并根据该方案优化了MPEG 4视频压缩的数据流模式。
The data flow scheme of the MPEG-4 video compression is optimized by utilizing the DSP's on-chip memory.
针对DSP片内资源特点设计了片内存储器数据分配方案,并根据该方案优化了MPEG 4视频压缩的数据流模式。
The data flow scheme of the MPEG-4 video compression is optimized by utilizing the DSP's on-chip memory.
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