寻道时间

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  • seek time;track-to-track seek
寻道时间寻道时间
  1. 因此,寻道时间一直是HDD的延迟时间的最主要来源。

    Therefore , seek time continues to be the largest source of latency in HDDs .

  2. 针对如何提高磁盘调度效率的问题,提出了一种基于平均寻道时间(AST)的磁盘调度优化算法。

    To improve the efficiency of disk scheduling , this paper proposed an optimization algorithm of disk scheduling based on the Average Seek Time ( AST ) .

  3. 这是因为HDD的性能受到诸如磁头移动(寻道时间)和旋转等待时间等机械约束的限制。

    The reason is that HDD performance is limited by mechanical constraints such as head movement ( seek time ) and rotational latency .

  4. 数据传输时间一般几毫秒,所以旋转延迟时间和寻道时间是一个物理HDD的主要磁盘延迟时间来源。

    Data transfer times are typically fractions of a millisecond , so rotational latency and seek time are the primary sources of disk latency on a physical HDD .

  5. 因为EFD没有移动的部件,所以它们不会像FC和SATAHDD那样受到寻道时间或旋转延迟时间的约束。

    Because EFDs have no moving parts , they are not constrained by seek time or rotational latency in the way that FC and SATA HDDs are .

  6. WDS25硬盘与发烧级别的VelociRaptor产品有几分类似,不过前者的读写速度更快,其读取/写入寻道时间分别只有3.6ms和4.2ms。

    Superficially , the WD S25 appears similarly to the VelociRaptor , but it has much faster read and write seek times at3.6 ms and4.2 ms respectively .

  7. 一种基于平均寻道时间的磁盘调度优化算法

    Optimization algorithm of disk scheduling based on average seek time

  8. 模拟试验表明,磁道预留技术能减少30%以上的寻道时间。

    The simulation shows that it can decrease over 30 % seeking .

  9. 内部边缘通常具有最短的寻道时间。

    The inner edge usually has the slowest seek times .

  10. 寻道时间平均值一般为几毫秒,并且它取决于驱动器类型。

    Seek time typically averages a few milliseconds and is dependent upon the drive type .

  11. 磁盘调度算法,有最短寻道时间优先调度算法和扫描算法。

    Disk scheduling , priority scheduling algorithm with the shortest seek time and scanning algorithms .

  12. 应该寻找比较长的寻道时间,因为它们会导致应用程序性能降低。

    Look for long seek times , as they can result in decreased application performance .

  13. 其读写系统使用了飞行式光纤光学头,极大程度地降低了平均寻道时间。

    By the use of the fiber optical head , the average access time of the storage system is decreased effectively .

  14. 本文还讨论了在该调度算法下,系统的平均寻道时间与I/O请求到达率之间的关系。

    This paper also discusses the relationship between the seek time and the I / O ar - rival frequency () .

  15. 一般的规则是,靠近中央的数据要比靠近外边缘的数据具有更快的寻道时间。

    As a general rule , data that is written toward its center has faster seek times than data written on the outer edge .

  16. 当应用程序发出磁盘请求的速率快于磁盘返回数据的速率时,操作系统会让磁盘请求排队,还可能调整请求的次序以降低寻道时间。

    The operating system queues disk requests when the applications issue them faster than the disks can return the data , optionally reordering them to minimize seeking .

  17. 如果有多个磁盘,那么把负载分配到不同的磁盘上是加快读写速度的有效方法,因为磁盘延迟的最大组成部分是寻道时间。

    If you have several disks , splitting load onto separate spindles is an effective way of making reads and writes faster because the largest component of disk latency is the seek time .

  18. 而完成一次I/O请求(称为磁盘延迟时间)所需要的时间是寻道时间、旋转延迟时间和磁盘传输时间之和。

    The time it takes to complete an I / O request ( referred to as disk latency ) is a combination of seek time , rotational latency , and disk transfer time .

  19. 磁盘容量以每年60%速度增长,而磁盘的性能指标,如寻道时间和旋转延迟等仅仅以10%左右的速度增长。

    Disk capacity in-creases at the rate of 60 % per year , while the performance parameters of disks , such as seek time and rotational delays , increase at the rate of about only 10 % .

  20. 该方法利用光纤光学头的耦合物镜实现对光斑的自动近场聚焦,可实现海量信息的并行读写,并能极大地减少三维存储的寻道时间。

    The coupling object lens of optical fiber head can auto-focus the optical spot in near field , so that enormous information can be written and read simultaneously , and the tracking time of three-dimension information storage can be reduced greatly .