JP2010140342A - Drive device, information processor and data rewriting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a drive device or the like improving a rewriting restriction frequency to infinity. <P>SOLUTION: The drive device using a flash memory as a recording medium replaces an external memory mounted in a memory slot. The drive device incorporates a plurality of memory slots, and includes serial ATA or parallel ATA as an external interface of an SSD. In the drive device, the flash memory of an SSD body is allocated to a first drive, the external memory mounted in the memory slot is allocated to a second drive, frequently accessed data use the second drive, reading-dedicated data not executed with frequent erasure or rewriting use the first drive, data having high rewriting frequency, and data having low rewriting frequency or the reading-dedicated data are separately managed, the frequently accessed data are used inside the external memory, and the external memory is replaced with a new external memory when the external memory becomes unusable by writing frequency restriction. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a technique for rewriting data in a drive device.

  Drive devices that use flash memory as a storage medium use flash memory, so they can freely erase and write data, but have a limited number of times of writing. Is not suitable.

  Further, if the memory capacity is large, it becomes expensive and cannot be used easily in a product.

As a related technique, a technique has been proposed in which an optical disc and an external memory are combined and writable independently of each other (see, for example, Patent Document 1).
Utility Model Registration No. 3092366

  However, since the SSD uses a flash memory, the data can be freely erased and written, but the number of writing is limited to a few hundreds, and the number is limited to several millions.

  In addition, it is superior in speed, low current consumption, and impact resistance as compared with HDD, but there is a problem that large capacity SSD is expensive and difficult to purchase and adopt easily.

  SUMMARY An advantage of some aspects of the invention is that it provides a drive device, an information processing device, and a data rewriting method that can improve the rewrite limit number to infinity.

The drive device of the present invention is a drive device using a flash memory as a recording medium.
The external memory mounted in the memory slot is exchanged.

  The information processing apparatus according to the present invention includes a drive device that uses a flash memory as a recording medium and replaces an external memory mounted in a memory slot.

  In the data rewriting method of the present invention, the drive device has a plurality of memory slots built therein, the SSD has a serial ATA or parallel ATA as an external interface, and the flash memory of the SSD main body is mounted in the memory slot in the first drive. Allocate external memory to the second drive, frequently accessed data is not erased / rewritten to the second drive, read-only data is rewritten with frequently rewritten data using the first drive Infrequent data or read-only data is managed separately, frequently accessed data is used in the external memory, and when it becomes unusable due to the limited number of writing, it is replaced with a new external memory .

  According to the present invention, the number of rewrite limits can be improved to infinity.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The drive device according to the present embodiment shown in FIG. 1 incorporates a memory slot in a housing of a drive device (SSD) using flash memory.

  An SSD having a built-in memory slot includes an interface unit such as serial ATA, parallel ATA, or USB as an external interface, and can be connected to an external device.

  “SD, CF, etc.” flash memory is mounted in the built-in memory slot.

  Since flash memory has restrictions on data erasure and rewriting, data is not frequently erased and rewritten in the flash memory of the SSD main body.

  When erasing and rewriting are frequently performed, it is performed in a flash memory mounted in a memory slot.

  The flash memory installed in the memory slot is removable, so if it reaches the limit of rewrite and becomes unusable, the file currently in use temporarily uses the flash memory of the SSD itself, or replaces it with a new flash memory and saves it. To do.

  For this reason, an SSD using a flash memory originally has a limit on the number of times of rewriting. However, since the flash memory can be exchanged by incorporating this memory slot, the number of times of rewriting can be used. That is, the number of times of rewriting can be improved infinitely as compared with the usual erasing / rewriting limitation of several hundred to several million times.

  Further, by increasing the capacity of the flash memory to be replaced, it is possible to increase the total memory capacity of the SSD.

  Next, the operation in the embodiment of the actual invention will be described in detail.

  For example, when an 8 GB SSD is used, it is necessary to newly prepare another SSD in order to increase the capacity. Since this SSD uses a flash memory as a storage medium, the number of erase / rewrite operations is limited.

  As an embodiment of the present invention, a plurality of memory slots are built in this 8 GB SSD, an external memory (SD such as 2G or 4G, CF, etc.) is mounted in this slot, the flash memory of the SSD main body is a C drive, a memory By assigning the external memory mounted in the slot as a D drive and increasing the capacity of the mounted external memory, the total memory capacity of the SSD can be increased.

  SSD has multiple memory slots (for mounting memory such as SD, CF, etc.), it has serial ATA or parallel ATA as external interface of SSD, "SSD flash memory" is mounted on C drive and "memory slot" External memory (flash memory) "is assigned to the D drive, frequently accessed data is used for the D drive, and frequent erasure / rewriting is not performed, and read-only data is used for the C drive.

  Further, since the SSD is composed of a flash memory, the number of erase / rewrite operations is determined. Therefore, it was necessary to replace the SSD with a new one (see the flowchart in FIG. 2).

  In order to solve this problem, the external memory mounted in the built-in memory slot can be exchanged, so the data that is frequently erased / rewritten is executed in the flash memory (SD, CF) on the D drive side and frequently rewritten. No or read-only data uses C drive.

  When the number of rewrites in the flash memory (SD, CF) of the D drive that is frequently erased / rewritten exceeds the limit value, the number of rewrites can be used without limitation as an SSD by replacing the external memory with a new memory. (Refer to the flowchart of FIG. 3).

  In other words, a drive device (hereinafter referred to as SSD) using a flash memory as a storage medium incorporates a plurality of memory slots (from 1 slot) for mounting an external memory (SD, CF, etc.), and this memory slot has an external memory (flash memory). Can be mounted and replaced, and a drive is allocated to each of the flash memory and the external memory of the SSD main body.

  Use the “SSD flash memory (C drive)” for the area where data is rewritten less frequently, and use “External memory (flash memory) (D drive) installed in the memory slot” for data that is rewritten more frequently. By doing so, the number of SSD rewrites, which originally had a limit on the number of rewrites, is improved to infinity.

  In addition, by increasing the external memory capacity mounted in the memory slot built in the SSD, the memory capacity of the entire SSD can be easily increased at low cost.

As described above, according to the present embodiment, the following effects can be obtained.
The first effect is that a plurality of memory slots are built in a drive device using a flash memory as a storage medium so that the external memory can be replaced.
The second effect is that the external memory can be exchanged, so that data can be erased and rewritten in the external memory, and frequently accessed data is used in the flash memory of the external memory, exceeding the rewrite limit. In this case, the number of rewrite limits can be increased to infinity by exchanging the external memory.
The third effect is that when the external memory is replaced, data can be temporarily stored using the flash memory of the SSD main body.
As a fourth effect, it is possible to increase the total memory capacity of the SSD by increasing the capacity of the external memory.

By increasing the number of memory slots to N slots and increasing the number of external memories to be mounted, it is possible to increase the capacity and limit the number of rewrites to infinity.
In addition, reliability can be further improved.

  The above-described embodiment is a preferred embodiment of the present invention, and various modifications can be made without departing from the gist of the present invention.

The present invention is applicable to the following uses.
Storage device for small and lightweight information processing devices (mobile, notebook PC, etc.).
A storage device for devices that require impact resistance.
A storage device for a system that saves and reads large files in a short time or frequently. (Recording device for systems that require read and write speeds)
A device that requires low power consumption in a system including a storage device such as an HDD.

It is a figure which shows the apparatus structure which concerns on embodiment of this invention. It is a flowchart relevant to the whole operation | movement which concerns on embodiment of this invention. It is a flowchart which shows the whole operation | movement which concerns on embodiment of this invention.

Claims (5)

In a drive device using flash memory as a recording medium,
A drive apparatus characterized by exchanging an external memory mounted in a memory slot.   The drive device has a plurality of memory slots, and is equipped with a serial ATA or parallel ATA as an external interface of the SSD. The flash memory of the SSD main body is assigned to the first drive, and the external memory mounted in the memory slot is assigned to the second drive. Frequently accessed data is not frequently erased / rewritten to the second drive, read-only data is used for the first drive, and frequently rewritten data and infrequently rewritten data or read-only data are used. A drive device characterized in that data that is separately managed and frequently accessed is used in an external memory, and is replaced with a new external memory when the data becomes unusable due to a limitation on the number of times of writing.   An information processing apparatus comprising a drive device that uses a flash memory as a recording medium and replaces an external memory mounted in a memory slot.   The drive device has a plurality of memory slots, and is equipped with a serial ATA or parallel ATA as an external interface of the SSD. The flash memory of the SSD main body is assigned to the first drive, and the external memory mounted in the memory slot is assigned to the second drive. Frequently accessed data is not frequently erased / rewritten to the second drive, read-only data is used for the first drive, and frequently rewritten data and infrequently rewritten data or read-only data are used. An information processing apparatus comprising: a drive device that separately manages and uses frequently accessed data in an external memory, and replaces the data with a new external memory when the data becomes unusable due to a write count limitation.   The drive device has a plurality of memory slots, and is equipped with a serial ATA or parallel ATA as an external interface of the SSD. The flash memory of the SSD main body is assigned to the first drive, and the external memory mounted in the memory slot is assigned to the second drive. Frequently accessed data is not frequently erased / rewritten to the second drive, read-only data is used for the first drive, and frequently rewritten data and infrequently rewritten data or read-only data are used. A data rewriting method characterized in that data that is managed separately and frequently accessed is used in the external memory, and is exchanged with a new external memory when the data becomes unusable due to the limitation on the number of times of writing.

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