JP2007317047A - Data access method in multichannel flash memory - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data access method in a multichannel flash memory. <P>SOLUTION: This data access method in a multichannel flash memory comprises preparing the scheduled quantity of information channels between a plurality of flash memories and flash memory controllers at first. Each information channel transmits single bit set data, and when transmitting the scheduled quantity of bit set data from the scheduled quantity of information channels, the definition value of a sector is accumulated, and data are transmitted to a main server in the same way as hard diskware. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a data access method in a multi-channel flash memory.

  The large-capacity storage devices used by general computers are all hard disk hardware, and the hard disk technology has been improved day by day, and the price has been satisfactory to users. However, when accessing the data, the read head of the hard disk hardware comes into contact with the magnetic disk of the actually stored data, so that the magnetic disk is easily broken and the data stored by the hardware is lost. In addition, since the hard disk employs a high-speed motor and moves the magnetic disk, it is a problem that is difficult to solve in terms of electrical consumption. This is a major problem for portable devices (eg, notebook personal computers) that have strict demands for electrical consumption.

In order to solve the above problems, there is no problem of contact with motors and magnetic heads that consume a large amount of electricity, and flash memory correlation technology is the best in non-volatile memory. Manufactures a large-capacity storage device with an IDE interface.

  Although the storage device of the flash memory has an advantage that does not require a motor and a magnetic head, there are problems in the basic characteristics that need to be solved. The flash memory is composed of a plurality of transistor memory cells, and the data is stored and deleted by Fowler-Nordheim. That is, when a large amount of current accesses data, it passes through the electric field tank on the floating valve (FG) side of these transistor memory cells. As a result, a transistor memory cell also causes a mistake or failure after a certain amount of writing / deleting. The problem occurs only when the number of write / delete operations reaches between 100,000 and 1 million times. However, in order to develop a flash memory storage device, the number of write / delete operations is reduced to access data. This is the goal, and many manufacturers strive to extend the life of this type of storage device.

  In addition to reducing the number of write / delete operations, there are data read / write speed issues that some people have problems with. Current flash memory storage devices can only read a set of bits and accumulate data for one sector (ie, 512 bit sets) before transmitting it to the main server.

  SUMMARY OF THE INVENTION A main object of the present invention is to provide a data access method in a multi-channel flash memory, and simultaneously perform an access operation to the flash memory through a plurality of information channels, and the storage device of the flash memory improves data access efficiency. .

  Based on the above object, the data access method in the multi-channel flash memory according to the present invention first creates a predetermined number of information channels between a plurality of flash memories and flash memory controllers. Since each information channel transmits a single bit set of data, if a predetermined quantity of bit set data is transmitted simultaneously from a predetermined quantity of information channels, if the sector definition value accumulates, the main server will Transmit data to

The invention of claim 1 is a data access method in a multi-channel flash memory.
Creates a predetermined number of information channels between multiple flash memories and flash memory controllers, and each information channel can transmit a single bit set data.
At the same time, the data of the bit set of the planned quantity is transmitted from the information channel of the planned quantity,
A data access method in a multi-channel flash memory is characterized in that when data simultaneously picked up from opposite flash memories is accumulated into a defined value of one sector, it is transmitted to a main server.
According to a second aspect of the present invention, in the data access method in the multi-channel flash memory according to the first aspect, the sector has a definition value of 512 bits in the multi-channel flash memory. Data access method.
According to a third aspect of the present invention, there is provided a data access method in a multi-channel flash memory according to the first aspect, wherein each of the information channels is an address line, a data line, and a selection line. A data access method in a multi-channel flash memory is characterized in that it is electrically connected to a controller.
According to a fourth aspect of the present invention, in the data access method in the multi-channel flash memory according to the first aspect, the flash memory controller is configured such that the main server interface and the main server transmit data to each other. This is a data access method in a flash memory.
The invention of claim 5 is the data access method in the multi-channel flash memory according to claim 1, wherein the main server interface is a small computer system interface (SCSI), an optical fiber channel interface (FC). Peripheral Component Interconnect (PCI), Flash Memory Card Interface, Serial Storage Architecture (SSA), IDE (Integrated Drive Electronics, IDE), USB (Universal Serial Bus), PCMCIA ( Data access in multi-channel flash memory characterized by Personal International Association) interface, Serial ATA (SATA), Parallel ATA (Parallel ATA) or other suitable bus interface It has been with the law.

The invention of claim 6 is a data access method in a multi-channel flash memory.
Creates a predetermined number of information channels between multiple flash memories and flash memory controllers, and each information channel can transmit a single bit set data.
Get the sector data from the main server,
At the same time, the data access method in the multi-channel flash memory is characterized in that the information is transmitted from the information channel of the predetermined quantity to the flash memory corresponding to the data of the bit set of the predetermined quantity.
A seventh aspect of the present invention is the data access method in the multi-channel flash memory according to the sixth aspect, wherein the defined value of the sector is a 512-bit set. It is an access method.
According to an eighth aspect of the present invention, in the data access method in the multi-channel flash memory according to the sixth aspect, each of the information channels is all address lines, data lines, and select lines, and the corresponding information channel flash memory and flash memory. A data access method in a multi-channel flash memory is characterized in that it is electrically connected to a controller.
According to a ninth aspect of the present invention, in the data access method in the multi-channel flash memory according to the sixth aspect, the flash memory controller is configured such that the main server interface and the main server transmit data to each other. This is a data access method in a flash memory.
A tenth aspect of the present invention is the data access method in the multi-channel flash memory according to the sixth aspect, wherein the main server includes a small computer (Small Computer System Interface, SCSI), an optical fiber channel interface (FC), Peripheral Component Interconnect Interface (Peripheral Component Interconnect, PCI), Flash Memory Card Interface, Serial Transfer Architecture Storage Architecture (SSA), IDE (Integrated Drive Electronics, IDE), USB (Universal Serial Bus), PCMCIA (Personal) It is a data access method in a multi-channel flash memory characterized by an international association) interface, serial ATA (SATA), parallel ATA (Parallel ATA) or other suitable bus interface.

  The data access method in the multi-channel flash memory of the present invention has an advantage that the data access is performed by reducing the number of write / delete operations, thereby extending the life of the storage device.

  FIG. 1 is a display diagram of a data access method in a multi-channel flash memory according to the present invention. As shown in FIG. 1, the data access method of the present invention includes, as an example, eight rows of flash memories 16a-16c, 17a-17c, 18a-18c, 19a-19c, 20a-20c, 21a-21c, 22a-22c, flash Eight scheduled quantities of communication channels are created between the memory controllers 14a and 14b. Each communication channel is similar to a known technique, and each channel can access one bit set data each time. However, the number of communication channels may be between 2 and 512, and is not limited to eight as shown in FIG. The flash memory controllers 14a and 14b are not limited in number, and the more controllers, the faster data access can be made to each information channel.

  In brief, the data access method in the multi-channel flash memory of the present invention mainly uses a storage device of the flash memory and replaces the hard disk, so that the main server interface 12 and the flash memory controllers 14a and 14b Special data exchange and processing. Actually, the flash memory 16a to 16c, 17a to 17c, 18a to 18c, 19a to 19c, 20a to 20c, 21a to 21c, 22a to 22c, and 23a to 23c are accessed. There is no difference with the disc.

  Specifically, the above-described data exchange and processing are performed in units of sectors (that is, 512 bit sets) in the same manner as the disk when data access is performed each time, and thus created in the flash memory controllers 14a and 14b. When 256 bit groups are cumulatively accessed (256 × 2 = 512) for each buffer section, the main server interface 12 transmits one sector data to the main server 10.

  The flash memory controller 14a simultaneously accesses four bits of data from the flash memories 16a to 16c, 17a to 17c, 18a to 18c, and 19a to 19c, and the flash memory controller 14a simultaneously accesses the flash memories 20a to 20c and 21a. ˜21c, 22a-22c, and 23a-23c access four bit set data. For this reason, as shown in FIG. 1, under the eight information channels, the flash memory controllers 14a and 14b can access data of 8 bit sets each time, and each access is 64 times (512/8 = 64). Then, access to one sector data is completed. In the prior art, accessing one sector data had to be done 512 times, but in the data access method in the multi-channel flash memory of the present invention, the access efficiency can be greatly increased. If the number of information channels is further increased, the number of accesses necessary for each sector data can be further reduced, and the access efficiency can be further increased.

  In addition, the main server interface 12 shown in FIG. 1 includes a small computer system interface (SCSI), an optical fiber channel interface (FC), a peripheral component interconnect interface (PCI), and a flash memory card. Interface, Serial Transfer Architecture Storage Architecture (SSA), IDE (Integrated Drive Electronics, IDE), USB (Universal Serial Bus), PCMCIA (Personal international Association) interface, Serial ATA (SATA), Parallel ATA (Parallel) ATA) or other suitable bus interface.

  In the case of the same hard disk, the storage device of the data access method in the multi-channel flash memory according to the present invention creates a distribution table in the flash memory controllers 14a and 14b, and the distribution table is a file allocation table used by the hard disk ( (File Allocation Table, FAT). A single information channel belongs to a known technique, but can be easily drawn by a distribution table.

  FIG. 2 is a display diagram of the information channel of the present invention. As shown in FIG. 2, each information channel is electrically connected to the flash memory 16a to 16c and the flash memory controller 14a of the information channel facing each other by an address line 21, a data line 22, and selection lines 24a to 24c. For example, the data that must be accessed based on the distribution table is located at the first address in the flash memory 16b. When accessing the first address in the flash memory 16b, the data is selected through the address line 21 and the selection line 24b. Thereafter, data access from the data line 22 is completed.

FIG. 3 is a display diagram of a data access method in a multi-channel flash memory according to the present invention. It is an information channel display figure of the present invention.

Explanation of symbols

10 Main server 12 Main server interface 14a, 14b Flash memory controllers 16a, 16b, 16c Flash memory 17a, 17b, 17c Flash memory 18a, 18b, 18c Flash memory 19a, 19b, 19c Flash memory 20a, 20b, 20c Flash memory 21a, 21b, 21c Flash memory 22a, 22b, 22c Flash memory 23a, 23b, 23c Flash memory 21 Address line 22 Data line 24a, 24b, 24c Selection line

Claims (10)

In a data access method in a multi-channel flash memory,
Creates a predetermined number of information channels between multiple flash memories and flash memory controllers, and each information channel can transmit a single bit set data.
At the same time, the data of the bit set of the planned quantity is transmitted from the information channel of the planned quantity,
A data access method in a multi-channel flash memory, characterized in that when data simultaneously picked up from opposite flash memories is accumulated in a defined value of one sector, it is transmitted to a main server.   2. The data access method in a multi-channel flash memory according to claim 1, wherein the sector has a defined value of 512 bits.   2. The data access method in a multi-channel flash memory according to claim 1, wherein each of the information channels is electrically connected to the flash memory and the flash memory controller of the opposite information channel by an address line, a data line, and a selection line. A data access method in a multi-channel flash memory.   2. The data access method in a multi-channel flash memory according to claim 1, wherein the flash memory controller transmits data to each other between the main server interface and the main server.   2. The data access method in a multi-channel flash memory according to claim 1, wherein the main server interface includes a small computer system interface (SCSI), an optical fiber channel interface (FC), a peripheral component connection interface ( Peripheral Component Interconnect (PCI), Flash memory card interface, Serial Transfer Architecture Storage Architecture (SSA), IDE (Integrated Drive Electronics, IDE), USB (Universal Serial Bus), PCMCIA (Personal international Association) interface, Data access method in multi-channel flash memory characterized by serial ATA (SATA), parallel ATA (Parallel ATA) or other suitable bus interface . In a data access method in a multi-channel flash memory,
Creates a predetermined number of information channels between multiple flash memories and flash memory controllers, and each information channel can transmit a single bit set data.
Get the sector data from the main server,
A data access method in a multi-channel flash memory, wherein the information channel of the scheduled quantity is simultaneously transmitted to the flash memory corresponding to the data of the bit set of the scheduled quantity.   7. The data access method in a multi-channel flash memory according to claim 6, wherein the defined value of the sector is a 512-bit set.   7. The data access method in a multi-channel flash memory according to claim 6, wherein each of the information channels is electrically connected to the flash memory and the flash memory controller of the corresponding information channel by an address line, a data line, and a selection line. A data access method in a multi-channel flash memory.   7. The data access method in a multi-channel flash memory according to claim 6, wherein the flash memory controller transmits data to each other between the main server interface and the main server.   7. The data access method in a multi-channel flash memory according to claim 6, wherein the main server comprises a small computer system interface (SCSI), an optical fiber channel interface (FC), a peripheral component connection interface (Peripheral Component interface). Interconnect, PCI), flash memory card interface, serial storage architecture (Serial Storage Architecture, SSA), IDE (Integrated Drive Electronics, IDE), USB (Universal Serial Bus), PCMCIA (Personal international Association) interface, serial ATA (SATA), parallel ATA (Parallel ATA), or other suitable bus interface, a data access method in a multi-channel flash memory.

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