驱动器缓存和算法一起可以提高数据进出驱动器的速度,以及为RAID5实现进行奇偶检验。
Together, drive cache and algorithms work to improve the transfer of data in and out of the drive and to make parity calculations for RAID 5 implementations.
这指的是驱动器上可用的缓存数,以及用于读写数据的算法集。
This is the amount of cache available on the drive, as well as the set of algorithms that are used to read and write data.
的GPU内存可以被认为是一个“缓存”,GPU目前经营上的数据,但许多GPU算法的设计有更多的数据比操作可以在“缓存”。
The GPU memory could be considered to be a "cache" of data that the GPU is currently operating on, but many GPU algorithms are designed to operate on more data than can fit in the "cache".
该算法采用乒乓缓存策略,使得数据的传输和编码能够同时进行。
The strategy of Ping-Pong buffer allows data transfer and code to perform simultaneously.
在硬件纹理加速体重建算法的基础上,提出了两种模拟三维数据切割的方法:利用深度缓存实现和利用离散距离场实现。
Based on hardware-accelerated texture-based volume rendering algorithm, this paper proposed two methods for volume cutting, which are based on either depth buffer or discrete distance field.
选择性缓存是一种先进的算法,能识别哪些数据值得放在缓存中,把它们储存起来供以后检索,而且它不局限于某种特定的协议。
Selective caching, an advanced algorithm that identifies which data is worth caching and stores it for later retrieval, is not limited to a specific protocol.
利用文件系统存储这些信息,利用Hash碰撞分页算法,加上最新数据的内存缓存,实现高效的信息检索。
Use of document storage systems such information, the use of tabs collision Hash algorithm, with the latest data cache memory to achieve efficient information retrieval.
最后通过模拟测试,比较不同的缓存一致性控制算法的特点和性能,证明在存在数据竞争的情况下,P 2pbcc要优于其他算法。
Finally, we simulation some algorithms, and compare their character and performance. P2PBCC outperforms the other ones while there is data contention among clients.
该设计使用了基于空间散列的帧频控制算法以优化LCD显示图像质量,并使用两级缓存结构以保证稳定的输出数据流。
This design USES a frame rate control algorithm based on space-hash to improve the quality of the LCD display. It USES two-level buffer structure to ensure steady output flow.
研究网络状态检测算法、数据缓存更新策略、数据同步策略、数据并发策略。
Studying the algorithms for network condition, the strategy for refreshing Data Caching, the Data Synchronization Strategy and the Data Concurrency Strategy;
元数据缓存使用改进的广播一致性协议和 LRU替换算法 。
The metadata caching uses a modified broadcasting caching coherence protocol and LRU caching block replacing algorithm.
元数据缓存使用改进的广播一致性协议和 LRU替换算法 。
The metadata caching uses a modified broadcasting caching coherence protocol and LRU caching block replacing algorithm.
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