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    • 7. 发明授权
    • Method of managing storage and retrieval of data objects
    • 管理数据对象的存储和检索的方法
    • US08489555B2
    • 2013-07-16
    • US13151336
    • 2011-06-02
    • John Mark MorrisCriselda CarrilloP. Keith Muller
    • John Mark MorrisCriselda CarrilloP. Keith Muller
    • G06F17/30G06F17/00
    • H03M7/30
    • A technique for managing storage of a data object in a storage device involves receiving the data object (A) to store in the storage device, where the data object has an indicator bit pattern (P). Successive compression data transformations are applied to data object A to obtain respective corresponding compressed data objects, and one of these compressed data objects is selected, such that the selected compressed data object (C) has the shortest length with respect to the remaining compressed data objects. Compression information (I) is then associated with the compression data transformation used to generate data object C, and a threshold value T is calculated at least partly from the length of compression information I. If length (C)+T.gtoreq.length (A), then the indicator bit pattern of data object A is reset and the data object A is written to the storage device. If length (C)+T
    • 用于管理存储设备中的数据对象的存储的技术涉及接收存储在存储设备中的数据对象(A),其中数据对象具有指示符位模式(P)。 将连续的压缩数据变换应用于数据对象A以获得相应的对应的压缩数据对象,并且选择这些压缩数据对象中的一个,使得所选择的压缩数据对象(C)相对于剩余的压缩数据对象具有最短的长度 。 压缩信息(I)然后与用于生成数据对象C的压缩数据变换相关联,并且至少部分地根据压缩信息I的长度来计算阈值T.如果长度(C)+ T.gtoreq.length( A),则复位数据对象A的指示符位模式,并将数据对象A写入存储装置。 如果长度(C)+ T <长度(A),则设置数据对象C的指示符位模式,压缩信息I被合并到数据对象C中,数据对象C被写入存储装置。
    • 8. 发明申请
    • METHOD OF MANAGING STORAGE AND RETRIEVAL OF DATA OBJECTS
    • 管理数据对象存储和检索的方法
    • US20110231377A1
    • 2011-09-22
    • US13151336
    • 2011-06-02
    • John Mark MorrisCriselda CarrilloP. Keith Muller
    • John Mark MorrisCriselda CarrilloP. Keith Muller
    • G06F17/30
    • H03M7/30
    • A technique for managing storage of a data object in a storage device involves receiving the data object (A) to store in the storage device, where the data object has an indicator bit pattern (P). Successive compression data transformations are applied to data object A to obtain respective corresponding compressed data objects, and one of these compressed data objects is selected, such that the selected compressed data object (C) has the shortest length with respect to the remaining compressed data objects. Compression information (I) is then associated with the compression data transformation used to generate data object C, and a threshold value T is calculated at least partly from the length of compression information I. If length (C)+T.gtoreq.length (A), then the indicator bit pattern of data object A is reset and the data object A is written to the storage device. If length (C)+T
    • 用于管理存储设备中的数据对象的存储的技术涉及接收存储在存储设备中的数据对象(A),其中数据对象具有指示符位模式(P)。 将连续的压缩数据变换应用于数据对象A以获得相应的对应的压缩数据对象,并且选择这些压缩数据对象中的一个,使得所选择的压缩数据对象(C)相对于剩余的压缩数据对象具有最短的长度 。 压缩信息(I)然后与用于生成数据对象C的压缩数据变换相关联,并且至少部分地根据压缩信息I的长度来计算阈值T.如果长度(C)+ T.gtoreq.length( A),则复位数据对象A的指示符位模式,并将数据对象A写入存储装置。 如果长度(C)+ T <长度(A),则设置数据对象C的指示符位模式,压缩信息I被合并到数据对象C中,数据对象C被写入存储装置。
    • 9. 发明授权
    • Method of managing storage and retrieval of data objects
    • 管理数据对象的存储和检索的方法
    • US07979394B2
    • 2011-07-12
    • US11533102
    • 2006-09-19
    • John Mark MorrisCriselda CarrilloP. Keith Muller
    • John Mark MorrisCriselda CarrilloP. Keith Muller
    • G06F17/30G06F17/00
    • H03M7/30
    • A technique for managing storage of a data object in a storage device involves receiving the data object (A) to store in the storage device, where the data object has an indicator bit pattern (P). Successive compression data transformations are applied to data object A to obtain respective corresponding compressed data objects, and one of these compressed data objects is selected, such that the selected compressed data object (C) has the shortest length with respect to the remaining compressed data objects. Compression information (I) is then associated with the compression data transformation used to generate data object C, and a threshold value T is calculated at least partly from the length of compression information I. If length (C)+T≧length (A), then the indicator bit pattern of data object A is reset and the data object A is written to the storage device. If length (C)+T
    • 用于管理存储设备中的数据对象的存储的技术涉及接收存储在存储设备中的数据对象(A),其中数据对象具有指示符位模式(P)。 将连续的压缩数据变换应用于数据对象A以获得相应的对应的压缩数据对象,并且选择这些压缩数据对象中的一个,使得所选择的压缩数据对象(C)相对于剩余的压缩数据对象具有最短的长度 。 压缩信息(I)然后与用于生成数据对象C的压缩数据变换相关联,并且至少部分地根据压缩信息I的长度来计算阈值T.如果长度(C)+T≥长度(A) ,则复位数据对象A的指示符位模式,并将数据对象A写入存储装置。 如果长度(C)+ T <长度(A),则设置数据对象C的指示符位模式,压缩信息I被合并到数据对象C中,数据对象C被写入存储装置。
    • 10. 发明申请
    • FINE-GRAINED CAPACITY MANAGEMENT OF COMPUTING ENVIRONMENTS THAT MAY SUPPORT A DATABASE
    • 可以支持数据库的计算环境的精细化能力管理
    • US20130086374A1
    • 2013-04-04
    • US13309806
    • 2011-12-02
    • John Mark MorrisP. Keith MullerDouglas P. Brown
    • John Mark MorrisP. Keith MullerDouglas P. Brown
    • G06F9/00
    • G06F9/5011G06F2209/504Y02D10/22
    • Computing capacity of a computing environment can be managed by controlling it associated processing capacity based on a target (or desired) capacity. In addition, fine-grained control over the processing capacity can be exercised. For example, a computing system can change the processing capacity (e.g., processing rate) of at least one processor operating based on a target capacity. The computing system may also be operable to change the processing capacity based on a measured processing capacity (e.g., a measured average of various processing rates of a processor taken over a period of time when a processor may have been operating at different processing rates over that period). By way of example, the processing rate of a processor can be switched between 1/8 and 2/8 of a maximum processing rate to achieve virtually any effective processing rates between them.
    • 可以通过基于目标(或期望的)容量控制其相关联的处理能力来管理计算环境的计算能力。 另外,可以对处理能力进行细粒度的控制。 例如,计算系统可以改变基于目标容量操作的至少一个处理器的处理能力(例如,处理速率)。 计算系统还可以用于基于测量的处理能力来改变处理能力(例如,当处理器可能以不同的处理速率工作在一段时间内所采用的处理器的各种处理速率的测量平均值 期)。 作为示例,处理器的处理速率可以在最大处理速率的1/8和2/8之间切换,以实现它们之间的几乎任何有效的处理速率。