JP5794600B2 - Data replication system, data replication method, and disk array device - Google Patents

Description

The present invention relates to a remote data copy method between disk array devices, wherein the disk array devices are connected to each other via a communication line, and data replication between the disk array devices is created without going through a host computer which is a host device. data copying system, data replication method, a 及 beauty disk array device.

  In preparation for disasters such as earthquakes, there is generally a computer system that backs up data from the disk array device at the primary site to the disk array device at the secondary site that is remotely located. Several techniques for realizing remote copy are known (see, for example, Patent Documents 1, 2, and 3).

In Patent Documents 1 and 2, the disk array device at the primary site transfers a copy request for the copy transfer multiplicity to the disk array device at the secondary site, and the disk array device at the secondary site receives the copy request and performs a copy. When the copy is completed, a copy completion notification is transmitted to the disk array device at the primary site. When the disk array device at the primary site receives the copy completion notification, the next copy request is transferred.
JP 2005-275537 A JP 2006-338064 A

  By the way, since the two disk array devices are remotely arranged, the connection line type, the connection method, and the connection between the two disk array devices are considered in the future when connecting at a longer distance. The line delay greatly depends on the computer system. That is, in remote data copy, the time from when the disk array device at the primary site transfers a copy request until it receives a copy completion notification from the disk array device at the secondary site (hereinafter referred to as copy completion response time) is: It is greatly affected by line delay. If the line delay is large, the copy completion response time becomes long, the next copy request transfer is delayed, and a time during which the copy process is not executed in the disk array device at the secondary site occurs, resulting in a delay in the copy process.

  Therefore, by increasing the number of copy requests (hereinafter referred to as copy transfer multiplicity) that the disk array device at the primary site simultaneously transfers to the disk array device at the secondary site, copy processing at the disk array device at the secondary site is stopped. Can not be. However, if the copy transfer multiplicity is increased when the line delay is small, tasks waiting for copying accumulate in the disk array device at the secondary site, and the rate at which the copy process is executed decreases, resulting in a delay in the copy process. Will do.

  As described above, the copy performance between the disk array devices is affected by the line delay, but there is a demand for exhibiting high copy performance in any line situation. However, in Patent Documents 1 and 2 described above, the copy transfer multiplicity is set to the line delay because the copy transfer multiplicity is not controlled according to the line delay in the asynchronous copy although the line delay varies depending on the system. If not, there is a problem that the copy performance expected in the disk array device cannot be exhibited.

The present invention has been made in consideration of such circumstances, and the object thereof is a data replication system capable of exhibiting the copy performance expected in the apparatus without being influenced by line delay in asynchronous copying, data replication method is to provide a 及 beauty disk array device.

In order to solve the above-described problem, the present invention provides a data replication system that replicates data of a primary disk array device to a secondary disk array device, wherein the primary disk array device includes the disk array. In response time measurement means for measuring a copy completion response time including line delay between devices at regular intervals, and in the asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measurement means A multiplicity determining means for determining a copy transfer multiplicity; and a transfer means for transferring data to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determining means; Means is a dummy in the disk array device on the secondary side at a predetermined timing. From the transmission of the copy request, the time from the secondary side of the disk array device to the reception of the copy completion notification to the dummy copy request, is measured as a copy completion response time, the multiplicity determination means copies completed The data replication system is characterized in that a response time is divided by a product of a copy processing time per unit copy length and a copy size to obtain the copy transfer multiplicity .

In order to solve the above-described problem, the present invention provides a data replication system that replicates data of a primary disk array device to a secondary disk array device, wherein the primary disk array device includes data The first storage means for storing the data, the response time measuring means for measuring the copy completion response time including the line delay between the disk array devices at regular intervals, and the copy completion response time measured by the response time measuring means. Based on the multiplicity determining means for determining the copy transfer multiplicity in the asynchronous copy between the disk array devices, and the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determining means. Transfer means for transferring data stored in one storage means, and The disk array device includes a receiving unit that receives data transferred from the transfer unit, and a second storage unit that stores data received by the receiving unit, and the response time measuring unit is configured to transmit the response time measuring unit at a predetermined timing. After the dummy copy request is transmitted to the secondary disk array device, the time from when the secondary disk array device receives the copy completion notification to the dummy copy request is measured as the copy completion response time , The multiplicity determination means is a data replication system characterized in that the copy transfer multiplicity is obtained by dividing a copy completion response time by a product of a copy processing time per unit copy length and a copy size .
In order to solve the above-described problem, the present invention provides a data replication system that replicates data of a primary disk array device to a secondary disk array device, wherein the primary disk array device includes: Response time measuring means for measuring a copy completion response time including a line delay between the disk array devices, and copy transfer in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means A multiplicity determining means for determining multiplicity; and a transfer means for transferring data to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determining means, wherein the response time measuring means is The primary-side disk array device and the secondary-side disk array A dummy copy request is transmitted to the secondary disk array device when the device is first connected to the device or when the connection line is changed, and then the dummy disk request is sent from the secondary disk array device. The copy completion response time is measured as a copy completion response time, and the multiplicity determining means calculates the copy completion response time by the product of the copy processing time per unit copy length and the copy size. A data replication system characterized in that the copy transfer multiplicity is obtained by division.
In order to solve the above-described problem, the present invention provides a data replication system that replicates data of a primary disk array device to a secondary disk array device, wherein the primary disk array device includes data On the basis of the copy completion response time measured by the response time measurement means, the response time measurement means for measuring the copy completion response time including the line delay between the disk array devices, and the copy completion response time measured by the response time measurement means. Multiplicity determining means for determining copy transfer multiplicity in asynchronous copying between disk array devices, and the first storage means in the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determining means Transfer means for transferring the data stored in the disk array on the secondary side Is provided with receiving means for receiving data transferred from the transferring means, and second storage means for storing data received by the receiving means, wherein the response time measuring means is the primary-side disk array. When the device and the secondary disk array device are first connected, or when the connection line is changed, a dummy copy request is sent to the secondary disk array device, and then the secondary disk array device is connected. The time required to receive a copy completion notification for the dummy copy request from the disk array device on the side is measured as a copy completion response time, and the multiplicity determining means determines the copy completion response time as a copy process per unit copy length. Data replication characterized in that the copy transfer multiplicity is obtained by dividing by the product of time and copy size It is a stem.

In order to solve the above-described problem, the present invention provides a data replication method for replicating data of a primary disk array device to a secondary disk array device, wherein the primary disk array device uses a disk A step of measuring a copy completion response time including a line delay between the array devices every predetermined time and a copy transfer multiplicity in the asynchronous copy between the disk array devices is determined based on the measured copy completion response time. And a step of transferring data to the secondary disk array device according to the determined copy transfer multiplicity, and the copy completion response time is determined by the primary disk array device at a predetermined timing. Dummy copy request to the secondary disk array device After transmitted, the Ri time der from the secondary side of the disk array device to the reception of the copy completion notification to the dummy copy request, the copy transfer multiplicity, copies the copy completion response time per unit copy length This is a data duplication method characterized by being obtained by dividing by the product of processing time and copy size .
In order to solve the above-described problem, the present invention provides a data replication method for replicating data of a primary disk array device to a secondary disk array device, wherein the primary disk array device uses a disk Measuring a copy completion response time including a line delay between the array devices, determining a copy transfer multiplicity in the asynchronous copy between the disk array devices based on the measured copy completion response time; Transferring the data to the secondary disk array device according to the determined copy transfer multiplicity, and the copy completion response time is determined by the primary disk array device at the secondary side at a predetermined timing. Is a dummy copy request sent to the disk array device? , The time until receiving a copy completion notification for the dummy copy request from the secondary side disk array device, and the copy transfer multiplicity is the copy completion response time as the copy processing time per unit copy length and the copy size. The dummy copy request is obtained when the primary-side disk array device and the secondary-side disk array device are connected for the first time, or there is a change in the line to be connected. In some cases, the data duplicating method is transmitted to the disk array device on the secondary side.

In order to solve the above-described problem, the present invention provides a primary-side disk array device that transfers data to a secondary-side disk array device for duplication, and includes first storage means for storing data, Response time measuring means for measuring a copy completion response time including a line delay between the disk array apparatuses at regular intervals, and asynchronously between the disk array apparatuses based on the copy completion response time measured by the response time measuring means Multiplicity determining means for determining copy transfer multiplicity in copying, and data stored in the first storage means in the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determining means Transfer means for transferring, the response time measuring means at a predetermined timing at the secondary side disk storage. After transmitting a dummy copy request to Lee device, the time from said secondary side of the disk array device to the reception of the copy completion notification to the dummy copy request, is measured as a copy completion response time, the multiplicity of decision The means is a disk array device characterized in that the copy transfer multiplicity is obtained by dividing the copy completion response time by the product of the copy processing time per unit copy length and the copy size .
In order to solve the above-described problem, the present invention provides a primary-side disk array device that transfers data to a secondary-side disk array device for duplication, and includes first storage means for storing data, Response time measuring means for measuring a copy completion response time including a line delay between the disk array devices, and copy transfer in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means Multiplicity determining means for determining multiplicity, and transfer means for transferring data stored in the first storage means to the secondary disk array device in accordance with the copy transfer multiplicity determined by the multiplicity determining means The response time measuring means includes the primary disk array device and the secondary data array. When the disk array device is connected to the disk array device for the first time or when the line to be connected is changed, a dummy copy request is transmitted to the disk array device on the secondary side, and then the disk array device on the secondary side The time until receiving a copy completion notification for the dummy copy request is measured as a copy completion response time, and the multiplicity determining means calculates the copy completion response time by multiplying the copy processing time per unit copy length by the copy size. The disk array apparatus is characterized in that the copy transfer multiplicity is obtained by dividing by.

  According to the present invention, there is an advantage that the expected copy performance of the apparatus can be exhibited regardless of the line delay.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
A. First Embodiment The present invention relates to an asynchronous remote data copy in a data copy method between two remotely arranged disk array devices. The disk array device at the primary site is simultaneously transferred to the disk array device at the secondary site. The copy transfer multiplicity in asynchronous copy is optimal for the copy completion response time from when the disk array device at the primary site transfers a copy request to when the copy completion notification is received from the disk array device at the secondary site. The multiplicity is set so that the copying performance of the apparatus can be exhibited at all times. In the present invention, asynchronous copy is a copy method in which as soon as data update in the disk array device at the primary site is completed, an end response is sent to the host, and data copy to the disk array device at the secondary site is performed asynchronously.

  FIG. 1 is a block diagram showing the configuration of the disk array device according to the first embodiment of the present invention. In the figure, disk array devices 11 and 21 for performing remote data copying are arranged at remote locations of a primary site 1 and a secondary site 2 and are connected to hosts 12 and 22, respectively. The disk array devices 11 and 21 are connected to each other via a communication line, and remote data copying between the disk arrays is performed without going through the hosts 12 and 22.

  The disk array device 11 includes a cache 111, an I / O processing unit 112, a transfer unit 113, a response time measuring unit 114, a multiplicity determining unit 115, a control memory 116, and a logical disk 117. The I / O processing unit 112 processes a write command from the host 12, writes update data in the cache 111, and returns a response to the host 12 before copying to the secondary site 2.

  The transfer unit 113 detects update data that has not yet been copied in the background, and transfers the copy request to the secondary site 2 in a multiplexed manner up to the copy transfer multiplicity (asynchronous copy). The response time measuring means 114 is used when the disk array device 11 at the primary site 1 and the disk array device 21 at the secondary site 2 are connected for the first time or when the line to be connected is changed (the carrier or remote device). Change), the dummy copy request is transferred to the secondary site 2, the copy completion response time at this time is measured, and the measured copy completion response time is stored in the control memory 116.

  The multiplicity determining means 115 reads the copy completion response time in the control memory 116, calculates and sets the copy transfer multiplicity suitable for the copy completion response time. The control memory 116 stores the copy completion response time. The logical disk 117 is a disk that is accessed from the host 12, and has a combination of a plurality of physical disks to provide redundancy.

  The disk array device 21 includes a receiving unit 211, a copy unit 212, a status notification unit 213, a cache 214, and a logical disk 215. The receiving unit 211 receives copy data transmitted from the primary site 1. The copy unit 212 copies the received copy data to the cache 214. When the copying by the copying unit 212 is completed, the status notification unit 213 notifies the primary site 1 of the completion of copying. The logical disk 215 is a copy of the logical disk 117 at the primary site 1.

Next, the operation of the first embodiment will be described.
FIG. 2 is a flowchart for explaining copy transfer multiplicity determination processing in the disk array device 11 according to the first embodiment. In the disk array device 11, it is determined whether or not the carrier / remote device has been changed (step S101). Then, when the disk array device 11 of the primary site 1 and the disk array device 21 of the secondary site 2 are connected for the first time or when the line to be connected is changed, the response time measuring means 114 makes a dummy copy request. Is transmitted to the secondary site 2, and the copy completion response time is measured and stored in the control memory 116 (step S102). Subsequently, the multiplicity determining unit 115 refers to the copy completion response time in the control memory 116 and calculates and sets a copy transfer multiplicity suitable for the copy completion response time (step S103).

Next, an example of a calculation formula for calculating the copy transfer multiplicity will be described.
Here, in addition to the multiplicity required for line delay, a state where there is an extra copy waiting is set as the optimum copy transfer multiplicity.

Copy transfer multiplicity = line delay / copy processing time + 1
Copy completion response time includes copy processing time in addition to line delay.
Copy transfer multiplicity = (Copy completion response time-Copy processing time) / Copy processing time + 1
And therefore
Copy transfer multiplicity = Copy completion response time ÷ Copy processing time.

Since the copy processing time is proportional to the copy size, the formula for calculating the copy transfer multiplicity is
Copy transfer multiplicity = copy completion response time / (Tc × copy size)
It becomes. Tc is a copy processing time per unit copy length.

  Next, FIG. 3 is a flowchart for explaining a write process in the disk array device 11 according to the first embodiment. The I / O processing unit 112 of the primary site 1 receives the write command from the host 12 (step S201), writes the update data to the cache 111 (step S202), and when the writing is completed, copies to the secondary site 2 A response is returned to the host 12 before performing (step S203).

  Next, FIG. 4 is a flowchart for explaining copy request transfer start processing in the disk array device 11 according to the first embodiment. The transfer means 113 of the disk array device 11 searches the update data of the cache 112 in the background for data that has not been copied to the secondary site (hereinafter referred to as uncopied data), and whether there is uncopied data. It is determined whether there is no uncopied data (step S301), and the process returns to step S301. On the other hand, if there is uncopied data, it is determined whether or not the copy transfer multiplicity during transfer is maximum (MAX) (step S302), and if the copy transfer multiplicity is maximum (MAX). Return to step S301. On the other hand, if there is uncopied data and the copy transfer multiplicity is not the maximum (MAX), the copy request transfer processing is activated in a multiplexed manner up to the copy transfer multiplicity (step S303).

  FIG. 5 is a flowchart for explaining copy request transfer processing in the disk array device 11 according to the first embodiment. In the disk array device 11, in the copy request transfer process, it is first determined whether or not there is uncopied data (step S401), and if there is no uncopied data, the process ends. On the other hand, if there is uncopied data, it is determined whether or not the copy transfer multiplicity during transfer is maximum (MAX) (step S402), and if the copy transfer multiplicity is maximum (MAX). Then, the process ends.

  On the other hand, if there is uncopied data and the copy transfer multiplicity is not the maximum (MAX), a copy request is transferred to the secondary site 2 (step S403), and a copy completion notice is received from the secondary site 2 (step S404). ). When the copy request transfer process ends, the next copy request transfer process is started until there is no uncopied data or the copy transfer multiplicity reaches the maximum (MAX) (step S405). As a result, the copy request transfer process is always started during the transfer.

  Next, FIG. 6 is a flowchart for explaining copy processing in the disk array device 21 according to the first embodiment. In the secondary site 2, the receiving unit 211 receives the non-copied data transferred from the transfer unit 113 of the primary site 1 (step S501). The copy unit 212 copies the received uncopied data to the cache (step S502). Next, the status notification unit 213 transmits a copy completion notification to the primary site 1 when copying is completed. (Step S503)

  According to the first embodiment described above, the expected copy performance of the apparatus can be exhibited regardless of the line delay. More specifically, when the line delay is small, the copy transfer multiplicity is reduced, and when the line delay is large, the copy transfer multiplicity is increased. Both performance degradation due to processing interruption can be prevented.

  Here, FIGS. 7A and 7B are conceptual diagrams showing a comparison based on the magnitude of the copy transfer multiplicity when the line delay is small. FIG. 7A shows a case where the copy transfer multiplicity is low, and FIG. 7B shows a case where the copy transfer multiplicity is high. In the first embodiment, when the line delay is small, the copy transfer multiplicity is reduced. Therefore, as shown in FIG. 7A, compared with the case where the copy transfer multiplicity shown in FIG. Because there are few tasks during copying at the secondary site, the copying process is performed smoothly.

  FIGS. 8A and 8B are conceptual diagrams showing a comparison based on the magnitude of the copy transfer multiplicity when the line delay is large. FIG. 8A shows a case where the copy transfer multiplicity is low, and FIG. 8B shows a case where the copy transfer multiplicity is high. In the first embodiment, when the line delay is large, the copy transfer multiplicity is increased, so that the copy processing at the secondary site is interrupted as in the case where the copy transfer multiplicity is small as shown in FIG. In addition, as shown in FIG. 8B, the copy processing of the secondary site is not interrupted. On the other hand, as in the prior art, a method with a constant copy transfer multiplicity cannot cope with both.

B. Second Embodiment Next, a second embodiment of the present invention will be described.
Since the configuration of the disk array device is the same as that of the first embodiment described above, description thereof is omitted. In the second embodiment, in the disk array device 11, the operations of the response time measuring unit 114 and the multiplicity determining unit 115 are different. The response time measuring means 114 transmits a dummy copy request to the secondary site 2 at regular time intervals, measures the copy completion response time, and stores it in the control memory 115. The multiplicity determining means 115 reads the copy completion response time from the control memory 115, calculates the copy transfer multiplicity suitable for the copy completion response time, and dynamically sets it.

  That is, in the first embodiment described above, when the disk array device 11 at the primary site 1 and the disk array device 21 at the secondary site 2 are connected for the first time and when the connection line is changed, the copy transfer The severity is calculated and set. On the other hand, in the second embodiment, a dummy copy request is transmitted to the secondary site 2 at regular intervals, and each time the copy completion response time is measured, and a copy transfer rate suitable for the copy completion response time is measured. Calculate and set the severity.

  FIG. 9 is a flowchart for explaining the operation of the transfer multiplicity determination processing according to the second embodiment. The response time measuring unit 114 transmits a dummy copy request to the secondary site at regular intervals, measures the copy completion response time each time, and stores it in the control memory 115 (step S601). The multiplicity determining means 115 reads the copy completion response time measured and stored at regular intervals from the control memory 115, calculates the copy transfer multiplicity suitable for the copy completion response time (step S602), and calculates the calculated copy The transfer multiplicity is set each time (step S603). Thereafter, the sleep state is set for a predetermined time (step S604). The method for calculating the copy transfer multiplicity is the same as that in the first embodiment described above.

  According to the second embodiment described above, the copy transfer multiplicity is dynamically set even when a line delay occurs temporarily in the case of a poor quality line. Performance degradation can be prevented.

1 is a block diagram showing a configuration of a disk array device according to a first embodiment of the present invention. 6 is a flowchart for explaining copy transfer multiplicity determination processing in the disk array device 11 according to the first embodiment. 4 is a flowchart for explaining a write process in the disk array device 11 according to the first embodiment. 4 is a flowchart for explaining copy request transfer start processing in the disk array device 11 according to the first embodiment; 4 is a flowchart for explaining copy request transfer processing in the disk array device 11 according to the first embodiment; 4 is a flowchart for explaining copy processing in the disk array device 21 according to the first embodiment. It is a conceptual diagram which shows the comparison by the magnitude of the copy transfer multiplicity when a line | wire delay is small. It is a conceptual diagram which shows the comparison by the magnitude of copy transfer multiplicity when a line | wire delay is large. It is a flowchart for demonstrating operation | movement of the transfer multiplicity determination process by this 2nd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Primary site 2 Secondary site 11 Disk array apparatus 111 Cache 112 I / O processing part 113 Transfer means 114 Response time measurement means 115 Multiplicity determination means 116 Control memory 117 Logical disk 12 Host 21 Disk array apparatus 211 Reception means 212 Copy means 213 Status notification means 214 Cache 215 Logical disk 22 Host

Claims (11)

A data replication system that replicates data in a primary disk array device to a secondary disk array device,
The primary side disk array device is:
Response time measuring means for measuring a copy completion response time including a line delay between the disk array devices at regular intervals;
Multiplicity determining means for determining copy transfer multiplicity in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means;
Transfer means for transferring data to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determination means,
The response time measuring means includes
The time from when a dummy copy request is transmitted to the secondary-side disk array device at a predetermined timing until reception of a copy completion notification for the dummy copy request from the secondary-side disk array device is indicated as a copy completion response. Measured as time ,
The multiplicity determining means divides a copy completion response time by a product of a copy processing time per unit copy length and a copy size to obtain the copy transfer multiplicity . A data replication system that replicates data in a primary disk array device to a secondary disk array device,
The primary side disk array device is:
First storage means for storing data;
A response time measuring means for measuring a copy completion response time including a line delay between the disk array devices at regular intervals;
Multiplicity determining means for determining copy transfer multiplicity in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means;
Transfer means for transferring data stored in the first storage means to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determination means,
The secondary disk array device is:
Receiving means for receiving data transferred from the transferring means;
Second storage means for storing data received by the receiving means,
The response time measuring means includes
The time from when a dummy copy request is transmitted to the secondary-side disk array device at a predetermined timing until reception of a copy completion notification for the dummy copy request from the secondary-side disk array device is indicated as a copy completion response. Measured as time ,
The multiplicity determining means divides a copy completion response time by a product of a copy processing time per unit copy length and a copy size to obtain the copy transfer multiplicity . A data replication system that replicates data in a primary disk array device to a secondary disk array device,
The primary side disk array device is:
Response time measuring means for measuring a copy completion response time including a line delay between the disk array devices;
Multiplicity determining means for determining copy transfer multiplicity in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means;
Transfer means for transferring data to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determination means;
With
The response time measuring means includes
The primary-side disk array device and the secondary-side disk array device are
The dummy copy request is transmitted from the secondary disk array device after the dummy copy request is transmitted to the secondary disk array device when it is first connected or when the connection line is changed. Measure the time to receive the copy completion notification for the copy completion response time,
The multiplicity determining means divides a copy completion response time by a product of a copy processing time per unit copy length and a copy size to obtain the copy transfer multiplicity. A data replication system that replicates data in a primary disk array device to a secondary disk array device,
The primary side disk array device is:
First storage means for storing data;
A response time measuring means for measuring a copy completion response time including a line delay between the disk array devices;
Multiplicity determining means for determining copy transfer multiplicity in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means;
Transfer means for transferring data stored in the first storage means to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determination means,
The secondary disk array device is:
Receiving means for receiving data transferred from the transferring means;
Second storage means for storing data received by the receiving means,
The response time measuring means includes
Sends a dummy copy request to the secondary disk array device when the primary disk array device is connected to the secondary disk array device for the first time or when the connection line is changed. Then, the time until receiving a copy completion notification for the dummy copy request from the secondary disk array device is measured as a copy completion response time,
The multiplicity determining means divides a copy completion response time by a product of a copy processing time per unit copy length and a copy size to obtain the copy transfer multiplicity. The multiplicity determining means includes
5. The copy transfer multiplicity is set large when the copy completion response time is long, and the copy transfer multiplicity is set small when the copy completion response time is short. The data replication system according to one item. A data duplication method for duplicating data in a primary disk array device to a secondary disk array device,
By the disk array device on the primary side,
Measuring a copy completion response time including a line delay between the disk array devices at regular intervals;
Determining a copy transfer multiplicity in asynchronous copy between the disk array devices based on the measured copy completion response time;
Transferring data to the secondary disk array device according to the determined copy transfer multiplicity,
The copy completion response time is determined when the primary disk array device transmits a dummy copy request to the secondary disk array device at a predetermined timing and then the dummy copy from the secondary disk array device. Ri time der until receiving a copy completion notice to the request,
The copy duplication multiplicity is obtained by dividing the copy completion response time by the product of the copy processing time per unit copy length and the copy size . A data duplication method for duplicating data in a primary disk array device to a secondary disk array device,
By the disk array device on the primary side,
Measuring a copy completion response time including a line delay between the disk array devices;
Determining a copy transfer multiplicity in asynchronous copy between the disk array devices based on the measured copy completion response time;
Transferring data to the secondary disk array device according to the determined copy transfer multiplicity;
Including
The copy completion response time is determined when the primary disk array device transmits a dummy copy request to the secondary disk array device at a predetermined timing and then the dummy copy from the secondary disk array device. This is the time to receive a copy completion notification for the request.
The copy transfer multiplicity is obtained by dividing the copy completion response time by the product of the copy processing time per unit copy length and the copy size,
The dummy copy request is issued when the primary-side disk array device and the secondary-side disk array device are first connected, or when the connected line is changed, the secondary-side disk array A data duplication method characterized by being transmitted to a device. The copy transfer multiplicity is
The copy completion response time is set larger when long data replication method according to any one of claims 6-7, characterized in that it is set small when the copy completion response time is short. A disk array device on the primary side that transfers and replicates data to the disk array device on the secondary side,
First storage means for storing data;
A response time measuring means for measuring a copy completion response time including a line delay between the disk array devices at regular intervals;
Multiplicity determining means for determining copy transfer multiplicity in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means;
Transfer means for transferring the data stored in the first storage means to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determination means,
The response time measuring means includes
The time from when a dummy copy request is transmitted to the secondary-side disk array device at a predetermined timing until reception of a copy completion notification for the dummy copy request from the secondary-side disk array device is indicated as a copy completion response. Measured as time ,
The disk array apparatus according to claim 1, wherein the multiplicity determining means determines the copy transfer multiplicity by dividing a copy completion response time by a product of a copy processing time per unit copy length and a copy size . A disk array device on the primary side that transfers and replicates data to the disk array device on the secondary side,
First storage means for storing data;
A response time measuring means for measuring a copy completion response time including a line delay between the disk array devices;
Multiplicity determining means for determining copy transfer multiplicity in asynchronous copy between the disk array devices based on the copy completion response time measured by the response time measuring means;
Transfer means for transferring the data stored in the first storage means to the secondary disk array device according to the copy transfer multiplicity determined by the multiplicity determination means;
With
The response time measuring means includes
Sends a dummy copy request to the secondary disk array device when the primary disk array device is connected to the secondary disk array device for the first time or when the connection line is changed. Then, the time until receiving a copy completion notification for the dummy copy request from the secondary disk array device is measured as a copy completion response time,
The disk array apparatus according to claim 1, wherein the multiplicity determining means determines the copy transfer multiplicity by dividing a copy completion response time by a product of a copy processing time per unit copy length and a copy size. The multiplicity determining means includes
Wherein when the copy completion response time is long, the copy transfer set large multiplicity, the when the copy completion response time is short, any one of claims 9 to 10 and sets small the copy transfer multiplicity The disk array device according to one item.

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