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    • 1. 发明申请
    • CONTROLLING DATA DESTAGING WITHIN A MULTI-TIERED STORAGE SYSTEM
    • 控制在多层存储系统中的数据转移
    • US20120102242A1
    • 2012-04-26
    • US12911975
    • 2010-10-26
    • Benny KorenShachar FienblitGuy KerenEyal GordonEyal David
    • Benny KorenShachar FienblitGuy KerenEyal GordonEyal David
    • G06F13/10
    • G06F3/0683G06F3/061G06F3/0637G06F3/0659
    • There is provided according to an example of the claimed subject matter, a system and a method for managing access to a shared storage entity. According to an example of the claimed subject matter, a system for managing access to a shared storage entity can include two or more initiator entities, two or more local sequencing agents and an arbitration module. Each of the two or more local sequencing agents can be associated with a respective one of two or more initiator entities which generate I/O requests for accessing the shared storage entity. Each local sequencing agent can be adapted to locally sequence its respective initiator entity's I/O requests. The arbitration module can be adapted to manage an access cycle to the shared storage entity by allocating to each one of the plurality of initiator entities a monolithic/continuous chunk of the access cycle to implement its own I/O access sequence, wherein chunk allocation is determined according to subframe allocation criteria related to the functional characteristics of each of the initiator entities.
    • 根据所要求保护的主题的示例提供了一种用于管理对共享存储实体的访问的系统和方法。 根据所要求保护的主题的示例,用于管理对共享存储实体的访问的系统可以包括两个或更多个启动器实体,两个或更多个本地排序代理和仲裁模块。 两个或多个本地排序代理中的每一个可以与生成用于访问共享存储实体的I / O请求的两个或更多个启动器实体中的相应一个相关联。 每个本地排序代理可以适于对其各自的发起者实体的I / O请求进行本地排序。 仲裁模块可以适于通过向多个发起者实体中的每一个分配访问周期的单片/连续块来实现其自己的I / O访问序列来管理对共享存储实体的访问周期,其中块分配是 根据与每个发起者实体的功能特征相关的子帧分配标准确定。
    • 3. 发明授权
    • Initializing of a memory area
    • 初始化内存区域
    • US08347052B2
    • 2013-01-01
    • US13352274
    • 2012-01-17
    • Shachar FienblitEyal GordonAviad Zlotnick
    • Shachar FienblitEyal GordonAviad Zlotnick
    • G06F12/00
    • G06F12/023G06F3/0605G06F3/0632G06F3/0689
    • A method for initializing a memory area, the method includes: receiving a request to access a first memory sub area of a first memory area that comprises multiple memory sub areas; and initializing the first memory sub area if a first memory area initialization indicator differs from a first memory sub area initialization request indicator; wherein the first memory area initialization request indicator is a multiple bit variable indicative of a time of a last request to initialize the first memory area and the first memory sub area initialization indicator is a multiple bit variable indicative of a time of a request to initialize the first memory area that resulted in a last initialization of the first memory sub area.
    • 一种用于初始化存储区域的方法,所述方法包括:接收访问包括多个存储器子区域的第一存储器区域的第一存储器子区域的请求; 以及如果第一存储区初始化指示符与第一存储器子区初始化请求指示符不同,则初始化第一存储器子区; 其中所述第一存储区初始化请求指示符是指示初始化所述第一存储器区域的最后请求的时间的多位变量,并且所述第一存储器子区初始化指示符是表示初始化所述第一存储区初始化请求的时间的多位变量 导致第一存储器子区域的最后初始化的第一存储区域。
    • 4. 发明申请
    • INITIALIZING OF A MEMORY AREA
    • 记忆区的初始化
    • US20120117347A1
    • 2012-05-10
    • US13352274
    • 2012-01-17
    • Shachar FienblitEyal GordonAviad Zlotnick
    • Shachar FienblitEyal GordonAviad Zlotnick
    • G06F12/00G06F12/16
    • G06F12/023G06F3/0605G06F3/0632G06F3/0689
    • A method for initializing a memory area, the method includes: receiving a request to access a first memory sub area of a first memory area that comprises multiple memory sub areas; and initializing the first memory sub area if a first memory area initialization indicator differs from a first memory sub area initialization request indicator; wherein the first memory area initialization request indicator is a multiple bit variable indicative of a time of a last request to initialize the first memory area and the first memory sub area initialization indicator is a multiple bit variable indicative of a time of a request to initialize the first memory area that resulted in a last initialization of the first memory sub area.
    • 一种用于初始化存储区域的方法,所述方法包括:接收访问包括多个存储器子区域的第一存储器区域的第一存储器子区域的请求; 以及如果第一存储区初始化指示符与第一存储器子区初始化请求指示符不同,则初始化第一存储器子区; 其中所述第一存储区初始化请求指示符是指示初始化所述第一存储器区域的最后请求的时间的多位变量,并且所述第一存储器子区初始化指示符是表示初始化请求的请求的时间的多位变量 导致第一存储器子区域的最后初始化的第一存储区域。
    • 5. 发明申请
    • INITIALIZING OF A MEMORY AREA
    • 记忆区的初始化
    • US20100030992A1
    • 2010-02-04
    • US12182045
    • 2008-07-29
    • Shachar FienblitEyal GordonAvaid Zlotnick
    • Shachar FienblitEyal GordonAvaid Zlotnick
    • G06F12/00
    • G06F12/023G06F3/0605G06F3/0632G06F3/0689
    • A method for initializing a memory area, the method includes: receiving a request to access a first memory sub of a first memory area that comprises multiple memory sub areas; and initializing the first memory sub area if a first memory area initialization indicator differs from a first memory sub area initialization request indicator; wherein the first memory area initialization request indicator is a multiple bit variable indicative of a time of a last request to initialize the first memory area and the first memory sub area initialization indicator is a multiple bit variation indicative of a time of a request to initialize the first memory area that resulted in a last initialization of the first memory sub area.
    • 一种用于初始化存储区域的方法,所述方法包括:接收访问包括多个存储器子区域的第一存储器区域的第一存储器子的请求; 以及如果第一存储区初始化指示符与第一存储器子区初始化请求指示符不同,则初始化第一存储器子区; 其中所述第一存储区初始化请求指示符是指示初始化所述第一存储区的最后请求的时间的多位变量,并且所述第一存储器子区初始化指示符是指示初始化请求的时间的多位变量 导致第一存储器子区域的最后初始化的第一存储区域。
    • 7. 发明授权
    • Initializing of a memory area
    • 初始化内存区域
    • US08135932B2
    • 2012-03-13
    • US12182045
    • 2008-07-29
    • Shachar FienblitEyal GordonAvaid Zlotnick
    • Shachar FienblitEyal GordonAvaid Zlotnick
    • G06F12/00
    • G06F12/023G06F3/0605G06F3/0632G06F3/0689
    • A method for initializing a memory area, the method includes: receiving a request to access a first memory sub of a first memory area that comprises multiple memory sub areas; and initializing the first memory sub area if a first memory area initialization indicator differs from a first memory sub area initialization request indicator; wherein the first memory area initialization request indicator is a multiple bit variable indicative of a time of a last request to initialize the first memory area and the first memory sub area initialization indicator is a multiple bit variation indicative of a time of a request to initialize the first memory area that resulted in a last initialization of the first memory sub area.
    • 一种用于初始化存储区域的方法,所述方法包括:接收访问包括多个存储器子区域的第一存储器区域的第一存储器子的请求; 以及如果第一存储区初始化指示符与第一存储器子区初始化请求指示符不同,则初始化第一存储器子区; 其中所述第一存储区初始化请求指示符是指示初始化所述第一存储区的最后请求的时间的多位变量,并且所述第一存储器子区初始化指示符是指示初始化请求的时间的多位变量 导致第一存储器子区域的最后初始化的第一存储区域。
    • 8. 发明授权
    • Implementing a logical unit reset command in a distributed storage system
    • 在分布式存储系统中实现逻辑单元复位命令
    • US08909816B2
    • 2014-12-09
    • US13423549
    • 2012-03-19
    • Smadar GonenBenny KorenEran MannEyal GordonDoron TalIdo Benda
    • Smadar GonenBenny KorenEran MannEyal GordonDoron TalIdo Benda
    • G06F3/00G06F11/07
    • G06F11/0727G06F11/0751G06F11/1658G06F11/2089G06F11/2092
    • A method of implementing a logical unit reset across a plurality of interfaces in a distributed storage system, comprising: initiating a session for implementing the logical unit reset across the plurality of interfaces in response to receiving at a central controller a logical unit reset command from an originator interface, and writing session-data including an indication that the originator interface implemented the respective logical unit reset locally; communicating a logical unit reset command from the central controller to each interface other than the originator interface; updating the session data in response to receiving an indication from an interface that the logical unit was successfully reset locally and when each one of the plurality of interfaces implemented the logical unit reset locally, communicating a success response to each one of the plurality of interfaces.
    • 一种在分布式存储系统中跨多个接口实现逻辑单元重置的方法,包括:响应于在中央控制器处接收来自一个或多个接口的逻辑单元复位命令,发起用于实现跨多个接口的逻辑单元复位的会话 发起者接口和写入会话数据,包括:发起者接口实现相应逻辑单元本地复位的指示; 将逻辑单元复位命令从中央控制器传送到除始发者接口之外的每个接口; 响应于接收到来自接口的指示,逻辑单元在本地被成功地重置,并且当多个接口中的每一个实现逻辑单元在本地重置时,向多个接口中的每一个传送成功响应,来更新会话数据。
    • 9. 发明申请
    • IMPLEMENTING A LOGICAL UNIT RESET COMMAND IN A DISTRIBUTED STORAGE SYSTEM
    • 在分布式存储系统中实现逻辑单元复位命令
    • US20130246660A1
    • 2013-09-19
    • US13423549
    • 2012-03-19
    • Smadar GONENBenny KorenEran MannEyal GordonDoron TalIdo Benda
    • Smadar GONENBenny KorenEran MannEyal GordonDoron TalIdo Benda
    • G06F3/00
    • G06F11/0727G06F11/0751G06F11/1658G06F11/2089G06F11/2092
    • A method of implementing a logical unit reset across a plurality of interfaces in a distributed storage system, comprising: initiating a session for implementing the logical unit reset across the plurality of interfaces in response to receiving at a central controller a logical unit reset command from an originator interface, and writing session-data including an indication that the originator interface implemented the respective logical unit reset locally; communicating a logical unit reset command from the central controller to each interface other than the originator interface; updating the session data in response to receiving an indication from an interface that the logical unit was successfully reset locally and when each one of the plurality of interfaces implemented the logical unit reset locally, communicating a success response to each one of the plurality of interfaces.
    • 一种在分布式存储系统中跨多个接口实现逻辑单元重置的方法,包括:响应于在中央控制器处接收来自一个或多个接口的逻辑单元复位命令,发起用于实现跨多个接口的逻辑单元复位的会话 发起者接口和写入会话数据,包括:发起者接口实现相应逻辑单元本地复位的指示; 将逻辑单元复位命令从中央控制器传送到除始发者接口之外的每个接口; 响应于接收到来自接口的指示,逻辑单元在本地被成功地重置,并且当多个接口中的每一个实现逻辑单元在本地重置时,向多个接口中的每一个传送成功响应,来更新会话数据。
    • 10. 发明授权
    • Method and system for providing three-dimensional and range inter-planar estimation
    • 提供三维和范围平面估计的方法和系统
    • US08908016B2
    • 2014-12-09
    • US13122633
    • 2009-10-11
    • Eyal GordonZeev ZalevskyHamootal Duadi
    • Eyal GordonZeev ZalevskyHamootal Duadi
    • G06K9/46G01B11/00G06T7/00G01B11/25G06K9/36
    • G06T7/0057G01B11/002G01B11/2509G06T7/521
    • A system, apparatus and method of performing 3-D object profile inter-planar estimation and/or range inter-planar estimation of objects within a scene, including: providing a predefined finite set of distinct types of features, resulting in feature types, each feature type being distinguishable according to a unique bi-dimensional formation; providing a coded light pattern having multiple appearances of the feature types; projecting the coded light pattern, having axially varying intensity, on objects within a scene, the scene having at least two planes, resulting in a first plane and a second plane; capturing a 2-D image of the objects having the projected coded light pattern projected thereupon, resulting in a captured 2-D image, the captured 2-D image including reflected feature types; determining intensity values of the 2-D captured image; and performing 3-D object profile inter-planar estimation and/or range inter-planar estimation of objects within the scene based on determined intensity values.
    • 执行场景内的对象的3-D对象轮廓平面间估计和/或范围平面内估计的系统,装置和方法,包括:提供预定义的有限集合的不同类型的特征,导致特征类型,每个 特征类型根据独特的二维形成是可区分的; 提供具有多种特征类型的外观的编码光图案; 将具有轴向变化的强度的编码光图案投射到场景内的物体上,所述场景具有至少两个平面,导致第一平面和第二平面; 拍摄具有投影的投影编码光图案的物体的2-D图像,导致捕获的2-D图像,所捕获的2-D图像包括反射的特征类型; 确定2-D拍摄图像的强度值; 以及基于确定的强度值,对所述场景内的对象进行3-D对象轮廓平面内估计和/或范围内平面估计。