A tool for scaling media utilizing healthy regions of a data storage cartridge. The tool determines a health status index for one or more regions of a data storage cartridge. The tool records the health status index to a cartridge memory and housekeeping dataset of the data storage cartridge. The tool determines one or more available regions of the data storage cartridge, based, at least in part, on a capacity designation and the health status index for the one or more regions. The tool returns the one or more available regions and a reduced capacity for the data storage cartridge to a user.

A method of recovering data from one or more failed data sectors includes estimating a reader offset position from a first or a second read attempt of the one or more failed data sectors at a current set of channel parameters and basing the estimated reader offset position on, at least in part, a position error signal generated during the first or second read attempt. At least one read is performed on the one or more failed data sectors at the estimated reader offset position to obtain one or more samples. The one or more samples are processed to obtain a processed sample. Iterative outer code recovery is performed on the processed sample.

A storage array includes a plurality of hard disks, where each of the hard disks is divided into a plurality of chunks, and a plurality of chunks of different hard disks form a chunk group using a redundancy algorithm. The storage array obtains fault information of a faulty area in a first hard disk, and determines a faulty chunk storing the lost data according to the fault information. The storage array recovers the data in the faulty chunk using another chunk in a chunk group to which the faulty chunk belongs and stores the recovered data in a recovered chunk. The recovered chunk is located in a second hard disk which is not a hard disk for forming the chunk group.

A recording apparatus including: a recording unit configured to record on a recording medium a file that includes sequentially obtained data; a repair unit configured to repair a predetermined file that needs to be repaired out of files recorded on the recording medium; and a control unit configured to control the recording unit so that recording of data is stopped in response to a drop of a free capacity of the recording medium to a predetermined capacity during recording of the data, the control unit being configured to determine the predetermined capacity based on a data amount necessary to repair the predetermined file that is recorded on the recording medium, to thereby control the recording unit so that the recording of the data is stopped in response to a drop of the free capacity of the recording medium to the predetermined capacity during the recording of the data.

A recording apparatus including: a recording unit configured to record on a recording medium a file that includes sequentially obtained data; a repair unit configured to repair a predetermined file that needs to be repaired out of files recorded on the recording medium; and a control unit configured to control the recording unit so that recording of data is stopped in response to a drop of a free capacity of the recording medium to a predetermined capacity during recording of the data, the control unit being configured to determine the predetermined capacity based on a data amount necessary to repair the predetermined file that is recorded on the recording medium, to thereby control the recording unit so that the recording of the data is stopped in response to a drop of the free capacity of the recording medium to the predetermined capacity during the recording of the data.

In an optical disc apparatus for reproducing information recorded on a track of an optical disc, an optical head irradiates a light beam onto the track, detects a reflected light reflected by the track, and generates a reproduction signal based on the reflected light. A decoder circuit decodes the reproduction signal, and generates a decoded signal including information recorded on the track. A correlation detector circuit calculates a cross-correlation value between the reproduction signal and the decoded signal. A servo circuit detects a deviation amount of an irradiation position of the light beam onto the track, from the reproduction signal, and controls the irradiation position of the optical head based on the cross-correlation value and the deviation amount.

In an optical disc apparatus for reproducing information recorded on a track of an optical disc, an optical head irradiates a light beam onto the track, detects a reflected light reflected by the track, and generates a reproduction signal based on the reflected light. A decoder circuit decodes the reproduction signal, and generates a decoded signal including information recorded on the track. A correlation detector circuit calculates a cross-correlation value between the reproduction signal and the decoded signal. A servo circuit detects a deviation amount of an irradiation position of the light beam onto the track, from the reproduction signal, and controls the irradiation position of the optical head based on the cross-correlation value and the deviation amount.

According to one embodiment, a magnetic disk device includes a disk, a head that writes data to the disk and reads data from the disk, and a controller that executes error correction on a first sector which is unreadable in a first track from an initial reading time of initially one-round reading the first track of the disk based on first parity data corresponding to the first track.

A sequential storage media system may include a head for reading or writing data to sequential storage media and a controller communicatively coupled to the head. The controller may be configured to control winding of a tape comprising sequential storage media and cleaning media between reels of a cartridge comprising the tape in order to clean a head of a sequential storage media system by passing the cleaning media over the head, after cleaning the head of the sequential storage media system, monitor a bit error rate of input/output communication between the head and the sequential storage media, and repeat the cleaning and the monitoring steps responsive to the bit error rate exceeding a threshold.

A sequential storage media system may include a head for reading or writing data to sequential storage media and a controller communicatively coupled to the head. The controller may be configured to control winding of a tape comprising cleaning media between reels of a cartridge comprising the tape in order to determine an occurrence of an event indicative of a need to clean a head of a sequential storage media system, issue to a user an indication of the occurrence of the event, determine an amount of cleaning for the head based on a bit error rate of input/output communication associated with the head, and responsive to receiving a cleaning cartridge in the sequential storage media system, clean the head of a sequential storage media system in accordance with the amount of cleaning by passing cleaning media of a cartridge over the head.

In the magnetic recording medium, a number distribution A of a plurality of bright regions, based on equivalent circle diameters thereof, in a binarized image of a secondary electron image obtained by imaging a surface of the magnetic layer by a scanning electron microscope at an acceleration voltage of 5 kV and a number distribution B of a plurality of dark regions, based on equivalent circle diameters thereof, in a binarized image of a secondary electron image obtained by imaging a surface of the magnetic layer by a scanning electron microscope at an acceleration voltage of 2 kV respectively satisfy a predetermined number distribution.