JP6409762B2 - Electronic device and memory life warning program - Google Patents

Description

  The present invention relates to an electronic device suitable for managing a nonvolatile memory such as an SSD (Solid State Drive) and a memory life warning program.

  For example, in an image forming apparatus that is an MFP (Multifunction Peripheral) such as a printer, a multi-function printer, or a multifunction peripheral, a large operation is required to realize multi-operation of each job such as copy, print, and FAX (facsimile) and a user box function. A capacity HDD (Hard Disk Drive) is mounted. In addition, in such an image forming apparatus, it is possible to mount a nonvolatile memory such as an SSD using a NAND flash memory (registered trademark) which is quickly accessed for reading and writing data. Furthermore, it is possible to mount only a nonvolatile memory such as an SSD without mounting an HDD.

  By the way, SSD has the merit that access related to data read / write is faster than HDD, but has the disadvantage that the write life is short due to the structure of flash memory (registered trademark). For this reason, if the SSD in use reaches the end of its life, the image forming apparatus may not be able to operate normally.

  As a means for solving such a problem, a data storage control device disclosed in Patent Document 1 is known. This data storage control device counts the number of data writes to the first nonvolatile memory with a small number of guaranteed rewrites in units of partitions, and the number of writes to the partition of the first nonvolatile memory to which data is to be written exceeds a specific number. And a control unit that stores data to be written in the second nonvolatile memory having a large number of guaranteed rewrites.

JP 2011-044207 A

  In the data storage control device described in Patent Document 1 described above, data to be written to the first nonvolatile memory is stored in the second nonvolatile memory before reaching the guaranteed number of rewrites of the first nonvolatile memory. Can be secured.

  By the way, in this data storage control device, although there is no specific description, it is possible to display a warning prompting replacement of the first nonvolatile memory when the number of times of writing to the partition of the first nonvolatile memory exceeds a specific number. I think. That is, it is considered that a warning can be displayed before the first nonvolatile memory reaches the end of its life.

  However, if the amount of data written to the first non-volatile memory varies depending on the configuration of the system device to be used, the function to be used, etc., there is a possibility that a warning cannot be displayed at an appropriate timing.

  In this case, considering the variation in the amount of data written to the first non-volatile memory depending on the configuration of the system device to be used and the function to be used, the remaining TBW (guaranteed write capacity) of the first non-volatile memory in advance. It is considered that a warning can be displayed at an appropriate timing by setting a threshold value for determining the write capacity.

  However, use use cases (use frequency, use period, use data, etc.) are different for each user. For this reason, if a threshold value for determining the remaining write capacity of the TBW (guaranteed write capacity) of the first nonvolatile memory set in advance is used, there is a problem that a warning cannot be displayed at an appropriate timing.

  The present invention has been made in view of such a situation, and an object thereof is to provide an electronic device and a memory life warning program that can solve the above-described problems.

The electronic device of the present invention controls a panel section for displaying information, a first memory, and writing of data to the first memory, and further includes statistical information on other devices classified by model or model. To the first memory in a first period before the amount of data written to the first memory reaches the guaranteed write capacity, obtained and calculated from the data write amount information of the statistical information on the other device side A system control unit for obtaining a warning display threshold based on the amount of data written, and the system control unit is configured to display the warning when the remaining write capacity of the guaranteed write capacity reaches the warning display threshold. A warning for prompting replacement of the first memory is displayed.
In addition, the system control unit may multiply the first period obtained by multiplying the total data write amount per second period defined for the first memory by the first period. Based on the data write amount written to the first memory, the warning display threshold is obtained, and then calculated from the data write amount information of the statistical information on the other device side classified for each model or model. The warning display threshold value is corrected based on a data writing amount.
The first memory includes a partition, and the system control unit obtains the sum of the data write amount per second period defined for the partition and the first period. The warning display threshold value is obtained based on the amount of data written to the first memory during the first period, and data writing to the partition is controlled.
A second memory, wherein the first memory includes a system partition and a first function partition; the second memory is larger in capacity than the first memory; Each of the first function partitions has a second function partition in which data to be written is written, and the system control unit writes the data write amount per second period defined for the system partition The warning display threshold is obtained based on the amount of data written to the first memory in the first period obtained by multiplying the total of the first period and the first period, and the system partition and the first partition It is characterized by controlling data writing to each function partition No. 2.
The electronic device of the present invention controls the panel section for displaying information, the first memory, and the writing of data to the first memory, and further acquires statistical information on the other device side classified for each installation location. In the first period before the amount of data written to the first memory reaches the guaranteed write capacity, calculated from the data write amount information of the statistical information on the other device side, the data is written to the first memory. A system control unit for determining a warning display threshold based on the amount of data written, and when the remaining write capacity of the guaranteed write capacity reaches the warning display threshold, the system control unit A warning prompting replacement of the first memory is displayed, and the total amount of data written per second period defined for the first memory and the first The warning display threshold value is obtained based on the amount of data written to the first memory in the first period, obtained by multiplying the period, and then classified according to the model or model. The warning display threshold is corrected based on the data write amount calculated from the data write amount information of the statistical information on the device side, and the statistical information on the other device side classified for each installation location is further corrected . When the data write amount information cannot be acquired, when the remaining write capacity of the guaranteed write capacity reaches the warning display threshold before correction, a warning for prompting replacement of the first memory is displayed on the panel unit. It is characterized by.
In addition, the system control unit corrects the warning display threshold when the electronic apparatus is initially activated.
Further, the system control unit sets the warning display threshold based on a ratio of the data write amount written to the first memory in the first period or a ratio of the data write amount information of the statistical information to the guaranteed write capacity. It is characterized by seeking.
The memory life warning program of the present invention includes a step of acquiring data write amount information of statistical information on the other device side classified for each model or model, and data to the first memory calculated from the data write amount information. Obtaining a warning display threshold based on the amount of data written to the memory in a first period before the write amount reaches the guaranteed write capacity; and controlling writing of data to the first memory; When the remaining write capacity of the guaranteed write capacity reaches the warning threshold, the step of displaying the alert to the panel the exchange of the first memory, that is executed by the computer that controls the electronic apparatus Features.
In the electronic device and memory life warning program of the present invention, the system control unit acquires statistical information on the other device side classified for each model or model, and calculates the data to the first memory calculated from the data write amount information. The warning display threshold value can be obtained based on the amount of data written to the first memory in the first period before the amount of writing reaches the guaranteed writing capacity. In addition, when the remaining write capacity of the guaranteed write capacity reaches the warning display threshold, the system control unit can display a warning for prompting replacement of the first memory on the panel unit.
As a result, even if the use use cases (use frequency, use period, use data, etc.) differ for each user, the warning display threshold is based on the data write amount information of the statistical information of other devices classified by model or model. Can be corrected, and a warning prompting the replacement of the first memory can be displayed on the panel unit based on the corrected warning display threshold.

  According to the electronic device and memory life warning program of the present invention, the first warning is displayed on the panel unit based on the warning display threshold value corrected based on the data writing amount information of the statistical information on the other device side classified for each model or model. Since the warning prompting the replacement of the memory can be displayed, the timing of displaying the warning prompting the replacement of the first memory can be optimized.

FIG. 6 is a diagram for explaining an embodiment when an electronic apparatus of the present invention is applied to an MFP. FIG. 2A is a diagram for explaining the configuration of the SSD partition, and FIG. 2B is a diagram for explaining the configuration of the HDD partition. FIG. FIG. 3A illustrates an example of the definition of each partition of the SSD in FIG. 1. FIG. 3A illustrates a case where only the SSD is mounted on the MFP, and FIG. It is a figure explaining the case where it is added by the option. FIG. 4A illustrates a warning display threshold obtained based on a basic design estimate in the SSD TBW (guaranteed write capacity) of FIG. 1, and FIG. 4A illustrates a warning display threshold when the SSD capacity is 8 GB. FIG. 4B is a diagram for explaining the warning display threshold when the SSD capacity is 32 GB. It is a figure explaining an example of the definition of each partition in case the SSD of FIG. 1 has a secure function. FIG. 2 is a diagram for explaining a shift in warning display timing due to different use use cases (use frequency, use period, use data, etc.) for each user in FIG. 1. 3 is a flowchart for explaining a warning display method for prompting replacement of the SSD in FIG. 1.

  Hereinafter, an electronic device according to an embodiment of the present invention will be described with reference to FIGS. An example of the electronic device in the following description is an MFP (Multifunction Peripheral) which is a composite peripheral device equipped with a print function, a copy function, a FAX function, a data transmission / reception function via a network, and the like. And

  First, as illustrated in FIG. 1, the MFP 100 includes a scanner unit 101, a printer unit 102, a FAX unit 103, an I / F (interface) 104, a USB memory 105, a panel unit 106, an HDD 107, an SSD 108, and a control unit 110. Yes. In the present embodiment, the case where the SSD 108 which is a nonvolatile memory is installed as a standard will be described. The HDD 107 is an option, and is installed as necessary. Further, the USB memory 105 that is a non-volatile memory is connected to the MFP 100 as necessary. Reference numeral 200 denotes a management server that manages a plurality of MFPs 100 via a network.

  The scanner unit 101 is a device that converts an image of a document read by an image sensor (not shown) into digital image data and inputs the digital image data to the control unit 110. The printer unit 102 is a device that prints an image on paper based on print data output from the control unit 110. The FAX unit 103 is a device that transmits data output from the control unit 110 to a facsimile as a counterpart through a telephone line, and receives data from the counterpart facsimile and inputs the data into the control unit 110.

  The I / F 104 is a device such as a network interface card that handles communication with other user terminals, content servers, web servers, etc. via a network such as an in-house LAN (Local Area Network) or the Internet. The USB memory 105 is a device that stores print data, setting change data, and the like. By attaching the USB memory 105 to a specific connection part of the MFP 100, the USB memory control unit 118 described later reads print data, setting change data, and the like.

  The panel unit 106 is a device such as a touch panel that performs display for various settings, such as a print function, a copy function, a FAX function, a data transmission / reception function via the Internet, and the MFP 100. Further, the panel unit 106 displays a warning prompting replacement of an SSD 108 described later. The warning prompting the replacement of the SSD 108 will be described in detail later, but when the system control unit 122 described later confirms that the life of the SSD 108 described below is approaching, it controls the panel operation control unit 119 described later, It is displayed on the panel unit 106.

  The HDD 107 serving as the second memory is a storage device that stores application programs for providing various functions of the MFP 100, details of which will be described later. Note that the HDD 107 is optional as described above, and is installed as necessary.

  The SSD 108 serving as the first memory is a storage device that stores application programs and the like for providing various functions of the MFP 100, as will be described in detail later. The SSD 108 has a cell structure (hereinafter referred to as “cell”) that is a minimum unit in which data is written, and a controller that controls writing to the cell. In the present embodiment, as described above, the SSD 108 is standardly installed.

  Control unit 110 is a processor that executes an image forming program, a control program, and the like to control the operation of MFP 100 as a whole. The control unit 110 includes a scanner control unit 111, a printer control unit 112, a FAX (Facsimile) control unit 113, a communication control unit 114, a RAM (Random Access Memory) 115, a ROM (Read-Only Memory) 116, an image processing unit 117, A USB memory control unit 118, a panel operation control unit 119, an HDD control unit 120, an SSD control unit 121, and a system control unit 122 are provided. These are connected to the data bus 123.

  The scanner control unit 111 controls the reading operation of the scanner unit 101. The printer control unit 112 controls the printing operation of the printer unit 102. The FAX control unit 113 controls data transmission / reception operations by the FAX unit 103. The communication control unit 114 controls transmission / reception of data and the like via the network via the I / F 104.

  The RAM 115 is a work memory for executing a program. The RAM 115 also stores print data that has undergone image processing by the image processing unit 117. The ROM 116 stores a control program for checking the operation of each unit. For example, the image processing unit 117 performs image processing (rasterization) on image data read by the scanner unit 101. The USB memory control unit 118 reads and writes data from and to the USB memory 105. Panel operation control unit 119 controls the display operation of panel unit 106. Further, the panel operation control unit 119 receives the start of printing, copying, FAX, data transmission / reception via the Internet, and the like via the panel unit 106.

  The HDD control unit 120 controls reading and writing of data with respect to the HDD 107. The SSD control unit 121 controls reading and writing of data with respect to the SSD 108. The system control unit 122 controls the cooperative operation of each unit. Although details will be described later, the system control unit 122 corrects the warning display threshold based on the design estimate based on the statistical information classified for each model or model from the management server 200, and via the panel operation control unit 119. Then, a warning prompting the replacement of the SSD 108 is displayed on the panel unit 106. Note that the statistical information classified for each model or model may be fetched from the USB memory 105.

  The management server 200 manages a plurality of MFPs 100 connected to the network by classifying them by model or model, and monitors the usage status of each MFP 100. Further, the management server 200 collects data write amount information from each MFP 100 for every predetermined period (for example, one month), and manages statistical information of the data write amount information of each MFP 100 classified for each model or model. . The management server 200 holds a table in which the unique identification information of the MFP 100 is associated with the model or model, and stores a history of data write amount for each partition, which will be described later, of the MFP 100 for each installation location. The model or model can be identified by unique identification information indicating the model or model assigned to each MFP 100.

  Next, the configuration of the SSD 108 and the HDD 107 will be described with reference to FIG. First, FIG. 2A shows the configuration of the SSD 108. The SSD 108 has, for example, a system partition 108A and function partitions 108B.

  The system partition 108A includes partitions A to D. The partition A is for an OS (Operating System) image. Partition B is for the MFP controller control program. The partition C is used for a database such as an address book. The partition D is used for system data.

  Each functional partition 108B, which is the first functional partition, is composed of partitions E to H. The partition E is for image handling used for image handling. The partition F is used for a user box that the user uses as a box function. The partition G is for a FAX box used for the FAX function. The partition H is for user application work used as a work area when installing the user application.

  The partitions A to H are divided into virtual memory areas of the SSD 108, and a specific cell of the SSD 108 does not statically correspond to a specific partition. Actually, the controller of the SSD 108 controls to write data to a cell in which data is not written (that is, a cell not corresponding to data stored in the virtual memory area). At that time, the controller of the SSD 108 may perform control so that the number of times of writing to each cell is averaged (the number of times of writing is not biased between cells).

  FIG. 2B shows the configuration of the HDD 107 when added as an option. The HDD 107 has functional partitions 107B configured by partitions E ′ to H ′. Each function partition 107B is a second function partition and has the same configuration as each function partition 108B described above. That is, the partition E ′ is for image handling used for image handling. The partition F ′ is for a user box that is used as a box function by the user. The partition G 'is for a FAX box used for the FAX function. The partition H ′ is for user application work used as a work area when the user application is installed.

  Each functional partition 107B on the HDD 107 side is used when the HDD 107 is added as an option. This is because the storage capacity on the HDD 107 side is larger than the storage capacity on the SSD 108 side. In this case, each functional partition 108B on the SSD 108 side is not used.

  Next, an example of the definition of the data write amount of each partition A to H of the SSD 108 will be described with reference to FIG. Note that the definition described below is based on design estimation and is merely an example. The definition described below is used to obtain a warning display threshold that is a basis for determining an optimal timing for displaying a warning prompting replacement of the SSD 108. Further, the definition of the data write amount of each partition A to H of the SSD 108 is stored in the partition D or the like used for system data and managed by the system control unit 122.

  First, FIG. 3A shows definitions of the write data size a, the write count b, and the data write amount c for each of the partitions A to H. The unit of the write data size a and the data write amount c is MB (megabit). Further, the write count b and the data write amount c are values per day. The data write amount c is calculated by write data size a × write count b. Note that the write count b and the data write amount c may be a specific period other than one day.

  FIG. 3A shows that the write data size a of the partition A and the partition B is defined more than that of the other partitions C to H. As described above, the partition A is for the OS image, the partition B is for the MFP controller control program, and the size of the program installed in the other partitions C to H is the size of the program installed together. This is because it is more than that.

  FIG. 3A shows that the number of writes b of the partition D and the partition E is defined more than the other partitions A to C and F to H. This is because, as described above, the partition D is used for system data, and the partition E is used for image handling, and both of the functions of the MFP 100 are frequently used for writing.

  FIG. 3A shows that the data write amount c of the partition D and the partition E is defined more than the other partitions A to C and F to H. As described above, the partition D is used for system data, and the partition E is used for image handling. Both use the functions of the MFP 100 to write data according to the high frequency of data writing. This is because the amount of is increased.

  Here, a warning display threshold that is obtained based on a basic design estimate for determining an optimum timing for displaying a warning prompting replacement when the life of the SSD 108 is approaching will be described. In the present embodiment, the life of the SSD 108 is defined as that the total amount of data written to the SSD 108 reaches TBW (guaranteed write capacity: tera byte writeten). Further, the following warning display threshold value is obtained by calculation by the system control unit 122. That is, when only the SSD 108 is installed in the MFP 100, all of the partitions A to H shown in FIG. In this case, the total data write amount c per day for all partitions A to H is about 17000 MB. As the total amount of data write c increases, the number of cells in which writing occurs in the SSD 108 and the number of times of writing to the cells increase, so that the life of the SSD 108 is approached.

  In the present embodiment, the optimal timing for displaying a warning prompting the replacement of the SSD 108 will be described as a specific period before the data write amount reaches the guaranteed write capacity, for example, three months. These three months are three months before the life of the SSD 108 is reached. The life of the SSD 108 means that the remaining writable capacity becomes 0 when the total data write amount c reaches TBW. Further, the three months as the optimum timing for displaying a warning prompting the replacement of the SSD 108 may be set in advance or may be set by operating the panel unit 106.

  Here, as shown in FIG. 4A, the TBW when the 8 GB SSD 108 is used is 19 TBW. As shown in FIG. 4B, the TBW when using the 32 GB SSD 108 is 79 TBW. The TBW is, for example, a design value of the SSD 108, and varies depending on the storage capacity, characteristics, and performance of the SSD 108.

Therefore, for example, when an 8 GB SSD 108 is used, for example, when a warning is to be displayed three months before the life of the SSD 108, the total data write amount c in three months may be obtained. In this case, if the total data write amount c per day is about 17000 MB, and the number of working days in one month is 20 days, the total data write amount c in three months is
17000 (MB) x 3 (months) x 20 (days: working days) = 1020000 (MB)
It becomes. That is, the time when the remaining data write capacity (that is, the amount of data that can be written) of the TBW reaches 1020000 MB (about 1 TB) is three months before the life of the SSD 108.
From the above, assuming that the total data write amount c in three months is A (TB) and TBW which is the guaranteed write capacity of the SSD 108 is B (TB),
A (TB) ÷ B (TB) (Formula 1)
Thus, the warning display threshold value can be obtained.
Therefore, as described above, the warning display threshold when the total data write amount c in 3 months is 1 (TB) and the guaranteed write capacity of the SSD 108 is 19 (TB) is
1 (TB) ÷ 19 (TB) ≒ 0.05
It becomes.

That is, as shown in FIG. 4A, the time when the amount of data that can be written to the SSD 108 reaches 5% of TBW may be set as the optimum timing for displaying a warning prompting the replacement of the SSD 108. .
Here, the optimal timing is set to 3 months before the life of the SSD 108, but it may be a period shorter than 3 months or a period longer than 3 months ago. In this case, a timing for displaying a warning prompting replacement of the SSD 108 by operating the panel unit 106 is set. For example, when the optimal timing is set as two months ago, the system control unit 122 calculates the total amount of data writing c for two months, and further substitutes it into the above (Equation 1).
(Total amount of data written c in two months) ÷ 19 (TB)
The warning display threshold value can be obtained by the above calculation.

Also, for example, the warning display threshold when using a 32 GB SSD 108 is based on the same concept as above.
1 (TB) ÷ 79 (TB) ≒ 0.01
It becomes.
That is, as shown in FIG. 4B, the time when the amount of data that can be written to the SSD 108 becomes 1% of TBW may be set as the optimum timing for displaying a warning prompting the replacement of the SSD 108. . Also in this case, as described above, the optimum timing may be set to a period shorter than three months before the life of the SSD 108 or a period longer than three months.

  When the HDD 107 is added as an option, the partitions E to H surrounded by the dotted line of the SSD 108 are not used as shown in FIG. That is, as described above, since the storage capacity on the HDD 107 side is larger than the storage capacity on the SSD 108 side, the portion corresponding to the partitions E to H is used in the partitions E ′ to H ′ of the HDD 107 as shown in FIG. Is done.

In this case, the total data write amount c per day for the partitions A to D of the SSD 108 is about 5000 MB. If the number of working days in one month is 20 days, the total amount of data written c in three months is
5000 (MB) x 3 (month) x 20 (day: working days) = 300000 (MB)
It becomes. That is, the time when the remaining data write capacity of the TBW reaches 300000 (about 0.3 TB) is three months before the life of the SSD 108.
From the above, the warning display threshold when the TBW when using the 8 GB SSD 108 is 19 TBW is
0.3 (TB) ÷ 19 (TB) ≒ 0.016
It becomes. That is, when the HDD 107 is added as an option, the optimal timing for displaying a warning prompting the replacement of the 8 GB SSD 108 when the amount of data that can be written to the SSD 108 reaches 1.6% of the TBW. And it is sufficient.

Similarly, the warning display threshold when the TBW when using the 32 GB SSD 108 is 79 TBW is:
0.3 (TB) ÷ 79 (TB) ≒ 0.003
It becomes. In other words, when the HDD 107 is added as an option, the optimum time for displaying a warning prompting the replacement of the 32 GB SSD 108 when the remaining data can be written to the SSD 108 becomes 0.3% of the TBW. The timing should be right.
Also in this case, as described above, the optimum timing may be set to a period shorter than three months before the life of the SSD 108 or a period longer than three months.

  In the case where only the SSD 108 is installed and there is a secure function, as shown in FIG. 5, the number of times data is written in the partitions C to H related to user data is tripled as is well known.

In this case, the total data write amount c per day for the partitions A to D of the SSD 108 is about 51200 MB. If the number of working days in one month is 20 days, the total amount of data written c in three months is
51200 (MB) x 3 (month) x 20 (day: number of working days) = 3072000 (MB)
It becomes. That is, the time when the amount of remaining data written in the TBW reaches 3072000 (about 3 TB) is three months before the life of the SSD 108.
From the above, the warning display threshold when the TBW when using the 8 GB SSD 108 is 19 TBW is
3 (TB) ÷ 19 (TB) ≒ 0.16
It becomes. In other words, the time when the amount of data that can be written to the SSD 108 reaches 16% of the TBW may be set as an optimal timing for displaying a warning prompting the replacement of the 8 GB SSD 108 with the secure function.

Similarly, the warning display threshold when the TBW when using the 32 GB SSD 108 with the secure function is 79 TBW is as follows:
3 (TB) ÷ 79 (TB) ≒ 0.04
It becomes. That is, the time when the amount of data that can be written to the SSD 108 reaches 4% of the TBW may be set as the optimal timing for displaying a warning prompting the replacement of the 32 GB SSD 108 with the secure function.
Also in this case, as described above, the optimum timing may be set to a period shorter than three months before the life of the SSD 108 or a period longer than three months.

  The above is an explanation of the warning display threshold required based on the basic design estimate, which determines the optimum timing for displaying a warning prompting replacement when the SSD 108 is near the end of its life.

  Next, with reference to FIG. 6, a shift in the display timing of the warning due to different use use cases (usage frequency, use period, use data, etc.) for each user will be described. In the following description, an 8 GB SSD 108 having a TBW of 19 TBW will be described. The design value described below is a value indicating an increase in the total data write amount c obtained based on the design estimate.

  That is, as shown in FIG. 6, it is assumed that the design value based on the initial design estimation increases as indicated by the solid line d. When a warning prompting replacement is displayed three months before the life of the SSD 108, the warning display threshold obtained based on the design estimate is set to 5% as described above. Further, when the usage amount of the MFP 100 is large, it is assumed to increase as indicated by a solid line e. Further, when the usage amount of the MFP 100 is small, it is assumed to increase as indicated by a solid line f. The usage amount is a usage record of the data writing amount c.

  Whether the amount of use is large or small is compared with the total amount of data written c per day based on the design estimation described in FIGS. 3A, 3B and 5 and the actual usage per day. Can be judged.

  Here, as can be seen from FIG. 6, the slope between the case where the usage amount of the MFP 100 is large as shown by the solid line e and the case where the usage amount of the MFP 100 is small as shown by the solid line f with respect to the design value based on the initial design estimation. Is different. This indicates that since the use use cases (usage frequency, use period, use data, etc.) of the MFP 100 are different, the design value deviates as the use period becomes longer. For this reason, if the warning display threshold value is uniquely 5% based on the design value based on the first design estimate, the intersection point g is three months for displaying the warning at the design value.

  On the other hand, when the usage amount of the MFP 100 indicated by the solid line e is large, the intersection h corresponds to three months when a warning is displayed at the design value. Further, when the usage amount of the MFP 100 indicated by the solid line f is small, the intersection point i corresponds to three months for displaying a warning at the design value. When the write capacity of the remaining data in the TBW is about 1 TB, when the usage amount indicated by the solid line e is large, the life of the SSD 108 is reached in a period shorter than 3 months after the warning is displayed. On the other hand, when the usage amount indicated by the solid line f is small, the life of the SSD 108 is reached in a period longer than three months after the warning is displayed. As described above, if the warning display threshold is uniquely set to 5% based on the design value based on the initial design estimation, the warning display timing may be shifted due to different use use cases of the MFP 100.

  Therefore, it is necessary to correct the warning display threshold obtained based on the design estimate. In this case, when the MFP 100 is newly introduced or when the SSD 108 is replaced, the warning display threshold value based on the design estimate is corrected based on the statistical information classified for each model or model from the management server 200. The warning can be displayed at the timing.

  That is, the system control unit 122 obtains the warning display threshold again based on the statistical information classified for each model or model from the management server 200, and sets the warning display threshold based on the design estimate for each model or model. The warning display threshold value is matched to the usage record on the MFP 100 side. As a result, the warning display threshold value based on the design estimate can be corrected to a warning display threshold value commensurate with the actual usage on the other MFP 100 side, and at the timing (three months) when displaying a warning prompting the replacement of the SSD 108, Can be adjusted accurately.

  Next, a warning display method for prompting replacement of the SSD 108 will be described with reference to FIG. In the following, for convenience of explanation, the MFP 100 will be described as a case where only the SSD 108 that is a nonvolatile memory is installed. The SSD 108 has a capacity of 8 GB (19 TBW). The write data size a, the write count b, and the data write amount c of each partition A to H of the SSD 108 are defined in advance as shown in FIG.

  Further, the case where the warning display threshold value based on the design estimate of the SSD 108 is set to 5% (three months) will be described. Further, the statistical information classified for each model or model from the management server 200 is transmitted when there is a request from the system control unit 122 of the MFP 100. Further, it is assumed that system controller 122 of MFP 100 issues a request to management server 200 when MFP 100 is newly installed.

(Step S101)
When MFP 100 is newly installed and activated, system control unit 122 first obtains the total data write amount c per day. In this case, as described in FIG. 3A, the total data write amount c per day for the partitions A to H of the SSD 108 is about 17000 MB.

(Step S102)
Subsequently, the system control unit 122 obtains the total data write amount c of the partitions A to H of the SSD 108 in three months. In this case, as described above, the system control unit 122 first determines the total number of data write amounts c in three months, assuming that the number of working days in one month is 20 days.
That is, the total amount of data written c in three months is
17000 (MB) x 3 (month) x 20 (day: number of working days) = 1020000 (MB)
It becomes.

(Step S103)
The system control unit 122 obtains a warning display threshold value based on design estimation. In this case, the system control unit 122 determines the time when the write capacity of the remaining data out of the TBW of the SSD 108 reaches 1020000 MB (about 1 TB) from the total of the data write amount c in the above three months. Judged 3 months ago. Then, the system control unit 122 performs the calculation of (Equation 1) described above,
1 (TB) ÷ 19 (TB) ≒ 0.05
Is obtained. That is, the system control unit 122 sets 5% of TBW as a warning display threshold. The warning display threshold obtained in step S103 is a factory default value of the MFP 100.

(Step S104)
The system control unit 122 determines whether it is an initial activation. In this case, the system control unit 122 can determine whether or not the system is initially activated based on whether initial settings such as a print function, a copy function, a FAX function, and a data transmission / reception function via a network are performed for the first time. In other words, it can be determined whether the MFP 100 is newly introduced. Further, system control unit 122 may determine that the first activation of MFP 100 is the initial activation after the replacement of the latest SSD 108. If the system control unit 122 determines that it is initial startup (step S104: Yes), the system control unit 122 proceeds to step S105.
On the other hand, when the system control unit 122 determines that it is not the initial activation (step S104: No), the system control unit 122 proceeds to step S108.

(Step S105)
The system control unit 122 requests the management server 200 to transmit statistical information classified for each model or model. In this case, the system control unit 122 transmits unique identification information to the management server 200.
Here, on the management server 200 side, based on the unique identification information from the system control unit 122, statistical information on the other MFP 100 side classified for each model or model is transmitted. The statistical information transmitted by the management server 200 is history information of the data write amount of another MFP 100 in the classification model or model to which the MFP 100 that requested the transmission of statistical information belongs. The history information may be a history of the data write amount for each partition of the other MFP 100, a history of the total data write amount of the other MFP 100, the number of other MFPs 100, and the number of all other MFPs 100. The total information of the data write amount may be used.
Note that at the time of initial activation after the replacement of the SSD 108, history information of the data write amount before the SSD 108 replacement of the MFP 100 that requested the transmission of the statistical information may be added to the statistical information.

(Step S106)
The system control unit 122 determines whether or not statistical information classified for each model or model is received from the management server 200. The system control unit 122 waits until the statistical information from the management server 200 is received (step S106: No). When the system control unit 122 determines that the statistical information from the management server 200 has been received (step S106: Yes), the system control unit 122 proceeds to step S107.

(Step S107)
The system control unit 122 corrects the warning display threshold based on the design estimate, and proceeds to step S108. That is, the system control unit 122 obtains the warning display threshold again based on the data write amount information of the statistical information from the management server 200. In this case, based on the data write amount information of the statistical information, the system control unit 122 first sets the data write amount c in the usage record for the same three months as the timing for displaying the warning prompting the replacement of the SSD 108. Find the total. The total data write amount c obtained here is a usage record per unit on the other MFP 100 side classified for each model or model.
Others classified by model or model according to the above (Equation 1) when the total data write amount c in three months is A (TB) and the guaranteed write capacity of the SSD 108 is B (TB). A warning display threshold value that matches the usage record on the MFP 100 side is obtained.
Then, by replacing the warning display threshold value based on the design estimate with a warning display threshold value that matches the actual usage on the other MFP 100 classified for each model or model, the timing (3 months) for displaying a warning prompting the replacement of the SSD 108 ).

(Step S108)
The system control unit 122 determines whether the amount of data that can be written to the SSD 108 has reached the corrected warning display threshold. If the amount of data that can be written to the SSD 108 has not reached the corrected warning display threshold (No in step S108), the system control unit 122 determines whether the corrected warning display threshold has been reached.
In contrast, when the system control unit 122 determines that the amount of data that can be written to the SSD 108 has reached the corrected warning display threshold (step S108: Yes), the system control unit 122 proceeds to step S109.

(Step S109)
The system control unit 122 displays a warning prompting the replacement of the SSD 108 on the panel unit 106 via the panel operation control unit 119.

  The above procedure is a case where the warning display threshold value based on the design estimate is corrected when the MFP 100 is newly introduced, but the warning display threshold value based on the design estimate is similarly corrected when the SSD 108 is replaced. Can do.

  In step S105, if the statistical information cannot be acquired due to a network failure or the like, the system control unit 122 determines whether the amount of data that can be written to the SSD 108 has reached the warning display threshold based on the design estimate. May be. In this case, if the amount of data that can be written to the SSD 108 has not reached the warning display threshold value based on the design estimate, the system control unit 122 determines whether the warning display threshold value based on the design estimate has been reached. In contrast, if the system control unit 122 determines that the amount of data that can be written to the SSD 108 has reached the warning display threshold value based on the design estimate, the system control unit 122 proceeds to step S109. Further, at the next activation of MFP 100, the process may be performed from step S105 as an initial activation.

  In this case, the system control unit 122 confirms that the SSD 108 has been replaced, and requests the management server 200 to transmit statistical information classified by model or model in step S105. In this case, system control unit 122 also transmits unique identification information of MFP 100 to management server 200. Thereafter, the process proceeds according to the procedure of steps S106 to S109.

  In addition, the management server 200 may automatically transmit statistical information classified by model or model every predetermined period (for example, one month) to the MFP 100 that is already in use. In this case, when the system control unit 122 receives the statistical information classified for each model or model from the management server 200, the system control unit 122 obtains the warning display threshold again, and classifies the warning display threshold based on the design estimate for each model or model. It is possible to replace the warning display threshold value that matches the actual usage record on the other MFP 100 side.

  Note that the determination of whether or not the initial activation is in step S104 is not limited to the subsequent stage of step S103, but may be performed in the previous stage of step S101.

  As described above, in the present embodiment, the system controller 122 defines the daily partition defined for the system partition 108A and each function partition 108B (first function partition) of the SSD 108 (first memory). TBW (guaranteed write), which is a value obtained by multiplying the total data write amount and the specific period (for example, 3 months) before the total data write amount c to the SSD 108 reaches TBW (guaranteed write capacity). The warning display threshold can be obtained from the ratio to the capacity. Further, the system control unit 122 controls the writing of data to the system partition 108A and each function partition 108B (first function partition), and further statistical information on the other MFP 100 classified by model or model. The warning display threshold is corrected based on the data write amount information of the data, and when the remaining write capacity of the TBW (guaranteed write capacity) reaches the corrected warning display threshold, a warning for prompting the replacement of the SSD 108 is displayed on the panel unit 106. be able to.

  As a result, even if the use use cases (use frequency, use period, use data, etc.) differ for each user, the warning is corrected based on the data write amount information in the statistical information on the other MFP 100 classified by model or model. Based on the display threshold value, a warning prompting the replacement of the SSD 108 can be displayed on the panel unit 106, so that the timing of displaying a warning prompting the replacement of the SSD 108 can be optimized.

  Since the warning display threshold can be corrected when statistical information on the other MFP 100 classified for each model or model is received, when the MFP 100 is newly introduced or the existing SSD 108 is replaced. It can be executed when. In addition, when statistical information on the other MFP 100 classified for each model or model is received every certain period (for example, one month), the warning display threshold can be corrected every certain period (for example, one month). Further, when the statistical information from the USB memory 105 is captured, the warning display threshold can be corrected at the time when the statistical information is captured.

  In the present embodiment, the electronic apparatus of the present invention has been described as the MFP 100. However, the present invention may be applied to other electronic apparatuses such as a PC and a portable terminal that can use the SSD 108 which is a nonvolatile memory. is there.

100 MFP
101 Scanner unit 102 Printer unit 103 FAX unit 104 I / F
105 USB memory 106 Panel 107 HDD
107B Partition 108 SSD for each function
108A System partition 108B Function partition 110 Control unit 111 Scanner control unit 112 Printer control unit 113 FAX control unit 114 Communication control unit 115 RAM
116 ROM
117 Image processing unit 118 USB memory control unit 119 Panel operation control unit 120 HDD control unit 121 SSD control unit 122 System control unit 123 Data bus 200 Management servers A to H, E ′ to H ′ partitions

Claims (8)

A panel for displaying information,
A first memory;
Controlling the writing of data to the first memory, further obtaining statistical information on the other device side classified for each model or model, calculated from the data writing amount information of the statistical information on the other device side , A system control unit for determining a warning display threshold based on the amount of data written to the first memory in a first period before the amount of data written to the first memory reaches the guaranteed write capacity;
The electronic control device, wherein when the remaining write capacity of the guaranteed write capacity reaches the warning display threshold, the system control unit displays a warning for prompting replacement of the first memory on the panel unit. The system controller is
Writing to the first memory in the first period obtained by multiplying the first period by the total amount of data written per second period defined for the first memory Based on the amount of data written, obtain the warning display threshold,
The warning display threshold value is then corrected based on the data write amount calculated from the data write amount information of the statistical information on the other device side classified for each model or model. The electronic device described. The first memory has a partition;
The system controller is
Amount of data written to the first memory during the first period, obtained by multiplying the first period by the total amount of data written per second period defined for the partition Obtaining the warning display threshold based on
The electronic apparatus according to claim 2, wherein writing of data to the partition is controlled. With a second memory,
The first memory includes a system partition and first function partitions.
The second memory has a larger capacity than the first memory, and has second function partitions to which data to be written to the first function partitions is written.
The system controller is
Data written to the first memory in the first period, obtained by multiplying the total amount of data written per second period defined for the system partition by the first period Obtain the warning display threshold based on the amount of writing,
The electronic apparatus according to claim 2, wherein writing of data to the system partition and the second function partitions is controlled. A panel for displaying information,
A first memory;
Controlling the writing of data to the first memory, further obtaining statistical information on the other device side classified for each installation location, and calculating from the data writing amount information of the statistical information on the other device side, A system control unit for determining a warning display threshold based on the amount of data written to the first memory in a first period before the amount of data written to one memory reaches the guaranteed write capacity;
With
The system controller is
When the remaining write capacity of the guaranteed write capacity reaches the warning display threshold, a warning for prompting replacement of the first memory is displayed on the panel unit,
Furthermore, the first memory is obtained during the first period obtained by multiplying the first period by the total amount of data written per second period defined for the first memory. Based on the amount of data to be written, the warning display threshold is determined,
Thereafter, the warning display threshold is corrected based on the data write amount calculated from the data write amount information of the statistical information on the other device side classified for each model or model,
Furthermore, when the data write amount information of the statistical information on the other device side classified for each installation location cannot be acquired, the remaining write capacity of the guaranteed write capacity reaches the warning display threshold before correction. Then, a warning for urging the replacement of the first memory is displayed on the panel unit. The electronic device according to claim 1, wherein the system control unit corrects the warning display threshold when the electronic device is initially activated.   The system control unit obtains the warning display threshold based on a ratio of the data write amount written to the first memory in the first period or a ratio of the data write amount information of the statistical information to the guaranteed write capacity. The electronic device according to claim 1, wherein: A process of acquiring data writing amount information of statistical information of other devices classified by model or model;
Obtaining a warning display threshold based on the amount of data written to the memory in a first period before the amount of data written to the first memory reaches the guaranteed write capacity, calculated from the data write amount information; ,
Controlling the writing of data to the first memory;
When the remaining write capacity of the guaranteed write capacity reaches the warning threshold, the step of displaying the alert to the panel the exchange of the first memory, that is executed by the computer that controls the electronic apparatus Feature memory life warning program.

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