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1.发明申请Media drive, processing method for recording data onto a medium, processing method for data read from a medium, and method for controlling a process for reading data from a medium 有权介质驱动器,用于将数据记录到介质上的处理方法,用于从介质读取的数据的处理方法以及用于控制从介质读取数据的处理的方法公开(公告)号:US20080259487A1
公开(公告)日:2008-10-23
申请号:US12217265
申请日:2008-07-01
申请人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
发明人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
IPC分类号: G11B21/02
CPC分类号: G11B27/36 , G11B5/09 , G11B19/04 , G11B20/1816 , G11B2020/183 , G11B2220/2516
摘要: Embodiments of the invention control a recovery procedure effectively in accordance with write conditions. In one embodiment, the data to be written into a sector includes not only user data but also recording condition data, which indicates the temperature prevalent during a write. If a data read is not accurately performed, a recovery procedure is executed. If a data read is accomplished by a retry and the temperature prevalent during a write is lower than predetermined, it is concluded that the employed medium is nondefective. Thus, the read data is rewritten into the same sector without being stored in a spare area. This prevents the spare area from being unnecessarily consumed.
摘要翻译: 本发明的实施例根据写入条件有效地控制恢复过程。 在一个实施例中,要写入扇区的数据不仅包括用户数据,而且包括指示写入期间流行的温度的记录条件数据。 如果没有准确地执行数据读取,则执行恢复过程。 如果通过重试来完成数据读取,并且在写入期间流行的温度低于预定值,则得出结论,所使用的介质是无缺陷的。 因此,读取的数据被重写到相同的扇区中而不被存储在备用区中。 这样可以防止备用区域被不必要地消耗掉。
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公开(公告)号:US07373477B2
公开(公告)日:2008-05-13
申请号:US11084455
申请日:2005-03-17
申请人: Makoto Takase , Minoru Hashimoto , Toshiroh Unoki , Toru Aida , Mariko Kado
发明人: Makoto Takase , Minoru Hashimoto , Toshiroh Unoki , Toru Aida , Mariko Kado
IPC分类号: G06F12/00
CPC分类号: G06F3/064 , G06F3/0619 , G06F3/0659 , G06F3/0676 , G06F12/023 , G11B20/10 , G11B2020/10972
摘要: When a host apparatus transfers/swaps stored information between user sectors in a storage device for the purpose of defragmentation or the like, the storage device is allowed to perform the data transfer or swap without transmission between the host apparatus and the storage device after the command is received by the storage device; and consistency in stored information identification is maintained between the host apparatus and the storage device even if the operation is interrupted. In one embodiment, information stored in the destination user sector LBA(Y) is copied to the dummy sector LBA(D), its entry is written in the mapping table RDM, information stored in the source user sector LBA(X) is copied to LBA(Y), and then the RDM entry is erased.
摘要翻译: 当主机设备在存储设备中的用户扇区之间传送/交换存储的信息以进行碎片整理等时,允许存储设备在命令之后不在主机设备和存储设备之间进行数据传输或交换 由存储设备接收; 并且即使操作被中断,在主机设备和存储设备之间也保持存储的信息识别的一致性。 在一个实施例中,存储在目的地用户扇区LBA(Y)中的信息被复制到虚拟扇区LBA(D),其条目被写入映射表RDM,存储在源用户扇区LBA(X)中的信息被复制到 LBA(Y),然后擦除RDM条目。
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公开(公告)号:US07746586B2
公开(公告)日:2010-06-29
申请号:US12217265
申请日:2008-07-01
申请人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
发明人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
IPC分类号: G11B27/36
CPC分类号: G11B27/36 , G11B5/09 , G11B19/04 , G11B20/1816 , G11B2020/183 , G11B2220/2516
摘要: Embodiments of the invention control a recovery procedure effectively in accordance with write conditions. In one embodiment, the data to be written into a sector includes not only user data but also recording condition data, which indicates the temperature prevalent during a write. If a data read is not accurately performed, a recovery procedure is executed. If a data read is accomplished by a retry and the temperature prevalent during a write is lower than predetermined, it is concluded that the employed medium is nondefective. Thus, the read data is rewritten into the same sector without being stored in a spare area. This prevents the spare area from being unnecessarily consumed.
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4.发明授权Media drive, processing method for recording data onto a medium, processing method for data read from a medium, and method for controlling a process for reading data from a medium 失效介质驱动器,用于将数据记录到介质上的处理方法,用于从介质读取的数据的处理方法以及用于控制从介质读取数据的处理的方法公开(公告)号:US07660062B2
公开(公告)日:2010-02-09
申请号:US10950232
申请日:2004-09-23
申请人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
发明人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
IPC分类号: G11B5/09
CPC分类号: G11B27/36 , G11B5/09 , G11B19/04 , G11B20/1816 , G11B2020/183 , G11B2220/2516
摘要: Embodiments of the invention control a recovery procedure effectively in accordance with write conditions. In one embodiment, the data to be written into a sector includes not only user data but also recording condition data, which indicates the temperature prevalent during a write. If a data read is not accurately performed, a recovery procedure is executed. If a data read is accomplished by a retry and the temperature prevalent during a write is lower than predetermined, it is concluded that the employed medium is nondefective. Thus, the read data is rewritten into the same sector without being stored in a spare area. This prevents the spare area from being unnecessarily consumed.
摘要翻译: 本发明的实施例根据写入条件有效地控制恢复过程。 在一个实施例中,要写入扇区的数据不仅包括用户数据,而且包括指示写入期间流行的温度的记录条件数据。 如果没有准确地执行数据读取,则执行恢复过程。 如果通过重试来完成数据读取,并且在写入期间流行的温度低于预定值,则得出结论,所使用的介质是无缺陷的。 因此,读取的数据被重写到相同的扇区中而不被存储在备用区中。 这样可以防止备用区域被不必要地消耗掉。
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公开(公告)号:US20050210214A1
公开(公告)日:2005-09-22
申请号:US11084455
申请日:2005-03-17
申请人: Makoto Takase , Minoru Hashimoto , Toshiroh Unoki , Toru Aida , Mariko Kado
发明人: Makoto Takase , Minoru Hashimoto , Toshiroh Unoki , Toru Aida , Mariko Kado
CPC分类号: G06F3/064 , G06F3/0619 , G06F3/0659 , G06F3/0676 , G06F12/023 , G11B20/10 , G11B2020/10972
摘要: When a host apparatus transfers/swaps stored information between user sectors in a storage device for the purpose of defragmentation or the like, the storage device is allowed to perform the data transfer or swap without transmission between the host apparatus and the storage device after the command is received by the storage device; and consistency in stored information identification is maintained between the host apparatus and the storage device even if the operation is interrupted. In one embodiment, information stored in the destination user sector LBA(Y) is copied to the dummy sector LBA(D), its entry is written in the mapping table RDM, information stored in the source user sector LBA(X) is copied to LBA(Y), and then the RDM entry is erased.
摘要翻译: 当主机设备在存储设备中的用户扇区之间传送/交换存储的信息以进行碎片整理等时,允许存储设备在命令之后不在主机设备和存储设备之间进行数据传输或交换 由存储设备接收; 并且即使操作被中断,在主机设备和存储设备之间也保持存储的信息识别的一致性。 在一个实施例中,存储在目的地用户扇区LBA(Y)中的信息被复制到虚拟扇区LBA(D),其条目被写入映射表RDM,存储在源用户扇区LBA(X)中的信息被复制到 LBA(Y),然后擦除RDM条目。
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6.发明申请Media drive, processing method for recording data onto a medium, processing method for data read from a medium, and method for controlling a process for reading data from a medium 失效介质驱动器,用于将数据记录到介质上的处理方法,用于从介质读取的数据的处理方法以及用于控制从介质读取数据的处理的方法公开(公告)号:US20050073761A1
公开(公告)日:2005-04-07
申请号:US10950232
申请日:2004-09-23
申请人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
发明人: Toru Aida , Minoru Hashimoto , Toshiroh Unoki , Mariko Kado
CPC分类号: G11B27/36 , G11B5/09 , G11B19/04 , G11B20/1816 , G11B2020/183 , G11B2220/2516
摘要: Embodiments of the invention control a recovery procedure effectively in accordance with write conditions. In one embodiment, the data to be written into a sector includes not only user data but also recording condition data, which indicates the temperature prevalent during a write. If a data read is not accurately performed, a recovery procedure is executed. If a data read is accomplished by a retry and the temperature prevalent during a write is lower than predetermined, it is concluded that the employed medium is nondefective. Thus, the read data is rewritten into the same sector without being stored in a spare area. This prevents the spare area from being unnecessarily consumed.
摘要翻译: 本发明的实施例根据写入条件有效地控制恢复过程。 在一个实施例中,要写入扇区的数据不仅包括用户数据,而且包括指示写入期间流行的温度的记录条件数据。 如果没有准确地执行数据读取,则执行恢复过程。 如果通过重试来完成数据读取,并且在写入期间流行的温度低于预定值,则得出结论,所使用的介质是无缺陷的。 因此,读取的数据被重写到相同的扇区中而不被存储在备用区中。 这样可以防止备用区域被不必要地消耗掉。
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7.发明授权公开(公告)号:US07941729B2
公开(公告)日:2011-05-10
申请号:US11807155
申请日:2007-05-24
申请人: Toshiroh Unoki , Minoru Hashimoto , Toru Aida , Naoki Tajima , Hiroshi Kawanobe
发明人: Toshiroh Unoki , Minoru Hashimoto , Toru Aida , Naoki Tajima , Hiroshi Kawanobe
IPC分类号: G11C29/00
CPC分类号: G11B20/18 , G11B20/1217 , G11B2020/183
摘要: Embodiments in accordance with the present invention help a disk drive to effectively cope with a data address mark detection error. In one embodiment, a data sector is provided with plural data address marks and an read/write (RW) channel reads out the data sector using part of those data address marks. Each divisional section of a split sector has two data address marks and the RW channel uses one of the two data address marks. A data address mark to be used is specified by a register. When an error occurs in detecting a data address mark, its position is stored in a register. Based on the error position, an error recovery processing section stores, in the register, a data address mark to be used in a next retry.
摘要翻译: 根据本发明的实施例有助于磁盘驱动器有效地处理数据地址标记检测错误。 在一个实施例中,数据扇区被提供有多个数据地址标记,并且读/写(RW)通道使用这些数据地址标记的一部分读出数据扇区。 分割扇区的每个分区具有两个数据地址标志,RW通道使用两个数据地址标记中的一个。 要使用的数据地址标志由寄存器指定。 当检测到数据地址标记出现错误时,其位置存储在寄存器中。 基于错误位置,错误恢复处理部分在寄存器中存储要在下次重试中使用的数据地址标记。
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8.发明申请公开(公告)号:US20070273995A1
公开(公告)日:2007-11-29
申请号:US11807155
申请日:2007-05-24
申请人: Toshiroh Unoki , Minoru Hashimoto , Toru Aida , Naoki Tajima , Hiroshi Kawanobe
发明人: Toshiroh Unoki , Minoru Hashimoto , Toru Aida , Naoki Tajima , Hiroshi Kawanobe
CPC分类号: G11B20/18 , G11B20/1217 , G11B2020/183
摘要: Embodiments in accordance with the present invention help a disk drive to effectively cope with a data address mark detection error. In one embodiment, a data sector is provided with plural data address marks and an read/write (RW) channel reads out the data sector using part of those data address marks. Each divisional section of a split sector has two data address marks and the RW channel uses one of the two data address marks. A data address mark to be used is specified by a register. When an error occurs in detecting a data address mark, its position is stored in a register. Based on the error position, an error recovery processing section stores, in the register, a data address mark to be used in a next retry.
摘要翻译: 根据本发明的实施例有助于磁盘驱动器有效地处理数据地址标记检测错误。 在一个实施例中,数据扇区被提供有多个数据地址标记,并且读/写(RW)通道使用这些数据地址标记的一部分读出数据扇区。 分割扇区的每个分区具有两个数据地址标志,RW通道使用两个数据地址标记中的一个。 要使用的数据地址标志由寄存器指定。 当检测到数据地址标记出现错误时,其位置存储在寄存器中。 基于错误位置,错误恢复处理部分在寄存器中存储要在下次重试中使用的数据地址标记。
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公开(公告)号:US07551389B2
公开(公告)日:2009-06-23
申请号:US11975516
申请日:2007-10-18
申请人: Shingo Tsuda , Kenji Kuroki , Toshiroh Unoki , Minoru Hashimoto
发明人: Shingo Tsuda , Kenji Kuroki , Toshiroh Unoki , Minoru Hashimoto
IPC分类号: G11B21/02
摘要: Embodiments of the present invention relate to retracting a magnetic head of a disk drive device to a retract position in accordance with a fall state, and to suppressing the performance degradation due to erroneous fall determinations as well as occurrence of damage by a head-disk crash. According to one embodiment of the present invention, in a Hard Disk Drive (HDD), a servo controller moves a head slider to a cylinder at the side of a ramp at a predetermined timing that a fall determiner determines that it is falling and an unload controller starts an unload process. This shortens the time between determination by the fall determiner that it is falling to retraction of the head slider to the retract position. Furthermore, it prevents increase of the erroneous determinations by relaxing the fall determination condition for safety. Also, it shortens the time that the head slider returns to the initial position before the seek in case that it is not determined that it is falling.
摘要翻译: 本发明的实施例涉及根据跌倒状态将盘驱动装置的磁头回缩到缩回位置,并且抑制由于错误的下降判定引起的性能下降以及头盘崩溃的损坏的发生 。 根据本发明的一个实施例,在硬盘驱动器(HDD)中,伺服控制器在预定定时将磁头滑块移动到斜坡侧的气缸,以便下降确定器确定其正在下降并且卸载 控制器启动卸载过程。 这缩短了下降确定器确定其下降到头部滑块缩回到缩回位置之间的时间。 此外,通过放松用于安全的跌倒判定条件,防止了错误判定的增加。 而且,如果没有确定它正在下降,它会缩短磁头滑块在搜索之前返回到初始位置的时间。
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公开(公告)号:US07542223B2
公开(公告)日:2009-06-02
申请号:US11546200
申请日:2006-10-10
IPC分类号: G11B20/12
CPC分类号: G11B27/105 , G11B20/18 , G11B27/36 , G11B2220/2512 , G11B2220/2516
摘要: Embodiments of the invention provide ways to write data in a load/unload area. In one embodiment, address numbers (ranging from 981 to 1065) whose order of addressing by host equipment is later than that of address numbers (ranging from 1 to 980) as logical block addresses (LBAs) assigned to data sectors in the data area are assigned as LBAs to data sectors whose absolute block addresses (ABAs) range from 1001 to 1100 in the load/unload area. As a result, when the host equipment performs addressing in a magnetic disk drive, the priority order given to the load/unload area becomes low. Accordingly, with the storage capacity being increased, it is possible to prevent the substantial performance from decreasing.
摘要翻译: 本发明的实施例提供了在加载/卸载区域中写入数据的方式。 在一个实施例中,作为分配给数据区域中的数据扇区的逻辑块地址(LBA),其主机设备的寻址顺序晚于地址号(范围从1到980)的地址号(范围从981到1065)是 被分配为LBA到其加载/卸载区域的绝对块地址(ABAs)的范围从1001到1100的数据扇区。 结果,当主机设备在磁盘驱动器中执行寻址时,给予加载/卸载区域的优先顺序变低。 因此,随着存储容量的增加,可以防止实质性的降低。
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