JP2021157490A - Information processing apparatus and communication system - Google Patents

Abstract

To provide an information processing apparatus which allows a user of an information processing apparatus (client device) to easily and accurately perform maintenance on the information processing apparatus (client device), and a communication system.SOLUTION: An industrial computer 30 includes a CPU 31, a main memory 32 storing data to be used by the CPU 31, and a BIOS memory 33 storing BIOS 38. A LAN port 35 is provided for allowing the CPU 31 to connect to or communicate with an external device through an interface function provided by the BIOS 38. The LAN port 35 allows an external server computer 20 to connect to or communicate with the CPU 31. The CPU 31 calls a primary program held in the server computer 20 to the main memory 32 via the LAN port 35 for execution when the BIOS 38 is started.SELECTED DRAWING: Figure 2

Description

The present invention relates to an information processing device including a CPU, a main storage device, and a basic memory for storing a BIOS. The present invention also relates to a communication system in which a server device and a client device communicate with each other via a network.

In an information processing device such as an industrial computer, the state of the information processing device itself may be diagnosed by executing a self-diagnosis program. Further, for a program such as a BIOS stored in a non-volatile memory such as a flash ROM or an OS stored in a hard disk or the like, the program itself is updated in order to modify the program or add a function. In some cases (see, for example, Patent Document 1).

The information processing apparatus is maintained in a normal state by periodically updating the BIOS and OS as described above. In addition, it is confirmed by executing the self-diagnosis program whether the information processing apparatus is maintained in a normal state. In particular, in a communication system in which communication is performed via a network, the OS may be updated via the network. For example, the OS maker may store the OS update execution program in a server device (storage device) arranged on the network. In such a case, the information processing device on the user side downloads the OS update execution program from the server device via the network as a client device, and the OS update execution program is executed to update the OS. ..

Japanese Patent Application Laid-Open No. 11-306007

However, it is a very time-consuming task to perform maintenance work on information processing devices such as updating programs such as BIOS and OS and self-diagnosis of client devices for many information processing devices. Was there. For example, when the OS update execution program is stored in the server device as described above, in the conventional communication system, the OS is started and a network communication application (for example, a Web browser) running on the OS is used. The work of accessing the server device had to be performed for each information processing device that had to update the OS, which required a huge amount of time.

In addition, updating the BIOS involves work that can only be performed by a maintenance person with specialized knowledge, such as replacing the BIOS memory on the motherboard in terms of hardware, so when performing maintenance on multiple information processing devices. It is necessary for the above-mentioned maintenance person to operate each information processing device individually to perform the work.

Self-diagnosis programs are often provided as programs that run on the OS, and in order to perform self-diagnosis on a large number of information processing devices, the OS is started for each information processing device. It had to be done, and it also required a huge amount of time.

As described above, in the conventional information processing apparatus and communication system, there is a problem that the maintenance of the information processing apparatus (client apparatus) is complicated.

Therefore, an object of the present invention is to provide an information processing device and a communication system in which a user of the information processing device (client device) can easily and accurately maintain the information processing device (client device). do.

The information processing device according to the present invention is an information processing device including a CPU, a main storage device for storing data used by the CPU, and a basic memory for storing BIOS, and is described by an interface function provided by the BIOS. A communication unit that enables the CPU to be connected to or communicated with an external device is provided, and the communication unit can connect or communicate with the CPU a server device that is the external device and holds a primary program. The CPU is characterized in that, when the BIOS is started, the primary program held in the server device is called to the main storage device via the communication unit and executed.

Further, preferably, when the BIOS is started, the CPU calls the BIOS update execution program held in the server device as the primary program from the server device to the main storage device via the communication unit. When the BIOS is executed and it is determined that the BIOS should be updated during the execution of the BIOS update execution program, the BIOS stored in the basic memory may be updated.

Further, preferably, an auxiliary storage device in which the OS is stored is provided, and when the BIOS is started, the CPU uses the OS update execution program held in the server device as the primary program in the communication unit. When it is determined that the OS should be updated during the execution of the OS update execution program by calling and executing the OS from the server device to the main storage device via the above, the OS stored in the auxiliary storage device is updated. You should do it.

Further, preferably, when the BIOS is started, the CPU calls the self-diagnosis program held in the server device as the primary program from the server device to the main storage device via the communication unit and executes the program. By doing so, the state of the entire information processing unit may be diagnosed.

Further, the information processing device according to the present invention is an information processing device including a CPU, a main storage device for storing data used by the CPU, a basic memory for storing BIOS, and an auxiliary storage device for storing an OS. A communication unit that enables the CPU to be connected to or communicate with an external device by the interface function provided by the BIOS is provided, and the communication unit is a server device that is the external device and holds a primary program. It is possible to connect or communicate with the CPU, and when the BIOS is started, the CPU self-diagnoses the BIOS update execution program, the OS update execution program, and the OS update execution program held in the server device as the primary program. When the programs are called from the server device to the main storage device via the communication unit in a predetermined order and executed, and it is determined that the BIOS should be updated during the execution of the BIOS update execution program, the BIOS should be updated. When the BIOS stored in the basic memory is updated and it is determined that the OS should be updated during the execution of the OS update execution program, the OS stored in the auxiliary storage device is updated and the OS is updated. It is characterized in that the state of the entire information processing unit is diagnosed by executing a self-diagnosis program.

Further, preferably, after executing the primary program, the CPU may transmit the execution result log to the server device via the communication unit.

The communication system according to the present invention is a communication system in which at least one client device can communicate with a server device via a network, wherein the client device includes a CPU, a main storage device that stores data used by the CPU, and a main storage device. It includes a basic memory for storing BIOS and a communication unit for controlling communication with the server device, the server device holds a primary program, and the communication unit of the client device is the communication unit. The client device can communicate with the server device by the interface function provided by the BIOS, and the client device uses the primary program held in the server device at the time of starting the BIOS. It is characterized in that it is called to the main storage device via the above and executed.

Further, preferably, the server device holds a BIOS update execution program for updating the BIOS of the client device as the primary program, and the client device is attached to the server device when the BIOS is started. The held BIOS update execution program is called from the server device to the main storage device via the communication unit and executed, and the BIOS stored in the basic memory is executed during execution of the BIOS update execution program. When it is determined that the BIOS should be updated, the BIOS stored in the basic memory may be updated.

Further, preferably, the client device further includes an auxiliary storage device for storing the OS, and the server device holds an OS update execution program for updating the OS of the client device as the primary program. When the BIOS is started, the client device calls and executes the OS update execution program held in the server device from the server device to the main storage device via the communication unit, and executes the OS. When it is determined that the OS stored in the auxiliary storage device should be updated during the execution of the update execution program, the OS stored in the auxiliary storage device may be updated.

Further, preferably, the server device holds a self-diagnosis program for diagnosing the state of the entire client device as the primary program, and the client device is held in the server device when the BIOS is started. The state of the entire client device may be diagnosed by calling and executing the self-diagnosis program from the server device to the main storage device via the communication unit.

Further, the communication system according to the present invention is a communication system in which at least one client device can communicate with a server device via a network, in which the client device includes a CPU and a main storage device that stores data used by the CPU. , A basic memory for storing the BIOS, an auxiliary storage device for storing the OS, and a communication unit for controlling communication with the server device. The server device is the primary program of the client device. It holds a BIOS update execution program for updating the BIOS, an OS update execution program for updating the OS of the client device, and a self-diagnosis program for diagnosing the state of the entire client device. The communication unit of the client device can communicate the client device with the server device by the interface function provided by the BIOS, and the client device is held by the server device when the BIOS is started. The BIOS update execution program, the OS update execution program, and the self-diagnosis program are called and executed from the server device to the main storage device via the communication unit in a predetermined order, and the BIOS is executed. If it is determined that the BIOS stored in the basic memory should be updated during the execution of the update execution program, the BIOS stored in the basic memory is updated and the OS update execution program is being executed. When it is determined that the OS stored in the auxiliary storage device should be updated, the OS stored in the auxiliary storage device is updated and the self-diagnosis program is executed to execute the self-diagnosis program of the entire client device. It is characterized by diagnosing the condition.

Further, preferably, after executing the primary program, the client device may transmit the execution result log to the server device via the communication unit.

Further, it is preferable that the server device can start the client device via the network.

According to the information processing device and the communication system according to the present invention, when the BIOS is started in the information processing device (client device), the BIOS update, the OS update, which should be executed in the information processing device (client device), The primary program that performs maintenance work such as self-diagnosis is automatically called from the server device by the BIOS and executed. As a result, the maintenance work of the information processing device (client device) can be performed simply by turning on the power of the information processing device and starting up the BIOS without waiting for the OS to start. In addition, since the maintenance work of the information processing device (client device) can be performed simply by starting up the BIOS stored in the basic memory, which is not easily affected by a failure such as an accidental power failure, the effect on a failure such as an accidental power failure. Can be suppressed. Further, since the primary program is called from the server device to the main storage device of the information processing device (client device) and executed, even if the primary program is updated, each of the information processing devices (client device) 1 There is no need to update the primary program for each, just store the new primary program in the server device. Therefore, even when maintenance work is performed on a large number of information processing devices (client devices), the work time and labor can be greatly reduced. Further, since the maintenance work is automatically performed, the user himself / herself can execute the maintenance work by the primary program even if there is no maintenance person having specialized knowledge. Therefore, the user of each information processing device (client device) can easily maintain the information processing device (client device) such as updating the program and self-diagnosis of the information processing device (client device) via the primary program. It can be done accurately and accurately.

The block diagram which shows the structure of the communication system which concerns on embodiment of this invention. The flowchart which shows the procedure of the update of BIOS and OS performed in the industrial computer of the same embodiment, and the self-diagnosis of the whole industrial computer.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 1, in the communication system 10 according to the embodiment of the present invention, the server computer 20 (an example of "external device" and "server device") and the industrial computer 30 ("information processing device" and "client device"). (One example) is connected via LAN50. The LAN 50 may be wired or wireless. Each of the plurality of industrial computers 30 can communicate with the server computer 20.

The industrial computer 30 includes a CPU 31, a main memory 32 (an example of a "main storage device"), a BIOS memory 33 (an example of a "basic memory"), a storage device 34 (an example of an "auxiliary storage device"), and the like. It mainly includes a LAN port 35 (an example of a "communication unit"). The CPU 31, main memory 32, BIOS memory 33, storage device 34, and LAN port 35 are provided on the CPU board 36 and are connected via buses 37 such as SPI and SATA.

The CPU 31 executes various arithmetic processes according to a given program and controls the entire industrial computer 30.

The main memory 32 is a storage element used by the CPU 31 as a main read / write destination of data. In the present embodiment, in particular, the main memory 32 is used as a reading source area for reading various primary programs (BIOS update execution program 22, OS update execution program 24, self-diagnosis program 25) described later by the CPU 31. NS. Alternatively, the main memory 32 is also used as a work area for writing to the CPU 31 for writing processing data of various programs including the primary programs (BIOS update execution program 22, OS update execution program 24, self-diagnosis program 25). Will be done. As described above, the main memory 32 is a readable / writable memory, and is composed of, for example, a plurality of DRAM chips.

The BIOS memory 33 is a non-volatile semiconductor memory (storage device) that can hold programs and data even when the power is turned off (for example, a flash ROM). The BIOS memory 33 stores a basic program such as the BIOS 38 that is executed when the industrial computer 30 is started, and data used by the basic program.

The storage device 34 is a storage device that can hold programs and data even when the power is turned off (for example, a hard disk: HDD or a solid state drive: SSD). The storage device 34 stores system data such as a program such as OS 39 for managing the industrial computer 30, user data created by the user, and the like.

The LAN port 35 is for connecting or communicating the CPU 31 with an external device such as an external server computer 20 or a plurality of industrial computers 30 via the LAN 50 by the interface function provided by the BIOS 38 or the OS 39.

In the industrial computer 30, the BIOS 38 may be updated in order to modify the BIOS 38, add a function to the BIOS 38, or the like. To update the BIOS 38, the CPU 31 of the industrial computer 30 transfers the BIOS update data 21 stored in the server computer 20 and the BIOS update execution program 22 which is the primary program from the server computer 20 to the main memory via the BIOS 38. This is done by calling to 32.

The BIOS update data 21 is update data for updating the BIOS 38. That is, the BIOS update data 21 is data written in the BIOS memory 33 as the updated BIOS 38. The BIOS update data 21 includes identification information of the updated BIOS 38, identification information of the industrial computer 30 in which the updated BIOS 38 will be stored, and the like. Here, the updated BIOS 38 identification information includes the updated BIOS 38 type, version, and program data (binary) for realizing the function as the BIOS 38. Further, the identification information of the industrial computer 30 is identification information for identifying the type of computer such as the model and manufacturer name of the industrial computer 30. The BIOS update data 21 is stored in the server computer 20 when the BIOS 38 needs to be updated in each of the industrial computers 30. Therefore, the update of the BIOS 38 in the present embodiment is performed only when the BIOS update data 21 to be written to the BIOS memory 33 is stored in the server computer 20.

The BIOS update execution program 22 is an execution program for executing the update of the BIOS 38 based on the BIOS update data 21. That is, the BIOS update execution program 22 is a program for writing the BIOS update data 21 to the BIOS memory 33 as the updated BIOS 38. The BIOS update execution program 22 is called and executed by the CPU 31 from the server computer 20 to the main memory 32 of the industrial computer 30 when the BIOS 38 of the industrial computer 30 is started. The BIOS update execution program 22 writes the BIOS update data 21 to be updated to the BIOS memory 33 by being executed by the CPU 31.

Further, in the industrial computer 30, the OS 39 may be updated in order to modify the OS 39, add a function to the OS 39, or the like. In the update of the OS 39 in the present embodiment, the CPU 31 of the industrial computer 30 uses the OS update data 23 stored in the server computer 20 and the OS update execution program 24, which is a primary program, in the main memory via the BIOS 38. This is done by calling to 32.

The OS update data 23 is update data for updating the OS 39. That is, the OS update data 23 is data written to the storage device 34 as the updated OS 39. The OS update data 23 includes the identification information of the updated OS 39 and the like. Here, the updated OS39 identification information includes the updated OS39 type, version, and program data (binary) for realizing the function as OS39. The OS update data 23 is stored in the server computer 20 when each of the industrial computers 30 needs to update the OS 39, such as when a new version of the OS 39 is developed. Therefore, the update of the OS 39 in the present embodiment is performed only when the OS update data 23 to be written to the storage device 34 is stored in the server computer 20.

The OS update execution program 24 is an execution program for executing the update of the OS 39 based on the OS update data 23. That is, the OS update execution program 24 is an execution program for writing the OS update data 23 to the storage device 34 as the updated OS 39. The OS update execution program 24 is called from the server computer 20 to the main memory 32 of the industrial computer 30 by the CPU 31 and executed when the BIOS 38 of the industrial computer 30 is started. The OS update execution program 24 writes the OS update data 23 to the storage device 34 by being executed by the CPU 31.

Further, the industrial computer 30 may self-diagnose the state of the entire industrial computer 30. Here, the state of the entire industrial computer 30 includes the state of the expansion device connected to the bus 37 (for example, the survival status of the PCI device, the survival status of the LPC device, the resource consistency of the LPC device, etc.) and the storage. The state of the device 34 (for example, SSD life, etc.), the state of communication functions and external connection terminals (for example, LAN ROM integrity, GPIO status, etc.), the physical state of the machine (for example, temperature, voltage, etc.), GPIO. It refers to various information such as status that can be used as a material for determining whether or not the industrial computer 30 can operate normally. In the self-diagnosis of the entire industrial computer 30 in the present embodiment, the CPU 31 of the industrial computer 30 calls the self-diagnosis program 25, which is a primary program stored in the server computer 20, to the main memory 32 via the BIOS 38. It is done by.

The self-diagnosis program 25 is an execution program for diagnosing the state of the entire industrial computer 30. The self-diagnosis program 25 is called and executed from the server computer 20 to the main memory 32 of the industrial computer 30 by the BIOS 38 when the BIOS 38 of the industrial computer 30 is started. The self-diagnosis program 25 is executed by the CPU 31 to diagnose the state of the entire industrial computer 30 and transmits the result of the self-diagnosis to the server computer 20.

As described above, the maintenance of the industrial computer 30 such as the update of the BIOS 38 and the OS 39 and the self-diagnosis of the entire industrial computer 30 is performed by the CPU 31 of the industrial computer 30 with various update data stored in the server computer 20. , Various primary programs are called from the server computer 20 to the main memory 32 in a predetermined order via the LAN port 35 controlled by the interface function provided by the BIOS 38.

As shown in FIG. 1, the BIOS update data 21 and the OS update data 23 are stored in advance in the server computer 20 (storage device) as needed. Various primary programs (BIOS update execution program 22, OS update execution program 24, self-diagnosis program 25) that are called when the BIOS 38 is started are also stored in advance in the server computer 20 as needed. Further, in the server computer 20, various primary programs (BIOS update execution program 22, OS update execution program 24, self-diagnosis program 25) are executed in the industrial computer 30, and the log 26 (“execution result”). An example of "log") is stored.

Next, the procedure for updating the BIOS 38 and OS 39 performed in the industrial computer 30 and the self-diagnosis of the entire industrial computer 30 will be described below.

As shown in FIG. 2, the industrial computer 30 is started by the user turning on the power of the industrial computer 30 or by turning on the power of the industrial computer 30 over the network by the magic packet of the LAN 50. (S1). After the industrial computer 30 is started, the BIOS 38 is started by jumping to the address of the BIOS execution code in the BIOS memory 33 by the jump instruction stored in the address indicated by the reset program counter (S2). In the present embodiment, after the BIOS 38 is started, a resource on the network is specified as the next data read source, and the network boot via the LAN port 35 (here, the PXE boot) is performed by the interface function provided by the BIOS 38. Is executed (S3). By executing the PXE boot, the CPU 31 communicates with the server computer 20 via the LAN port 35 and the LAN 50 (S4). Then, the CPU 31 calls the BIOS update execution program 22 in the server computer 20 from the server computer 20 to the main memory 32 via the LAN port 35 controlled by the interface function provided by the BIOS 38, and calls the BIOS update execution program 22. Is executed from the main memory 32 (S5). Here, in the BIOS update execution program 22, new BIOS update data 21 to be updated by replacing the BIOS data stored in the BIOS memory 33 is stored in the server computer 20 before the actual BIOS update process. It includes a process to determine if it is. That is, the CPU 31 determines whether or not the BIOS 38 needs to be updated during the execution of the BIOS update execution program 22 (S6). This determination can be realized, for example, by comparing the identification information of the BIOS 38 between the BIOS 38 stored in the BIOS memory 33 and the BIOS update data 21.

When the new BIOS update data 21 to be updated is stored in the server computer 20 (S6-Yes), the CPU 31 needs the BIOS update data 21 in the server computer 20 by executing the BIOS update execution program 22. The server computer 20 calls the BIOS memory 32 according to the above, writes the called BIOS update data 21 to the BIOS memory 33, and overwrites the BIOS 38 stored in the BIOS memory 33 (S7). That is, the BIOS 38 is updated based on the new BIOS update data 21. When the update of the BIOS 38 is completed, a reboot is performed (S8), and the updated BIOS 38 is started (S2).

When the new BIOS update data 21 to be updated is not stored in the server computer 20 (S6-No), the CPU 31 terminates the BIOS update execution program 22 (S9). Here, the case where the new BIOS update data 21 to be updated is not stored in the server computer 20 is not only the case where the BIOS update data 21 itself is not stored in the server computer 20, but also in the server computer 20. Even if the BIOS update data 21 is stored, it is inappropriate for the industrial computer 30 to be updated, such as when the stored version of the BIOS update data 21 is older than the BIOS 38 already stored in the BIOS memory 33. The case where the BIOS update data 21 is stored is also included.

After the BIOS update execution program 22 ends, the CPU 31 calls the OS update execution program 24 in the server computer 20 from the server computer 20 to the main memory 32 via the LAN port 35 controlled by the interface function provided by the BIOS 38. The called OS update execution program 24 is executed from the main memory 32 (S10).

Here, in the OS update execution program 24, new OS update data 23 to be updated by replacing the OS data stored in the storage device 34 is stored in the server computer 20 before the actual OS 39 update process. It includes a process to determine if it is. That is, the CPU 31 determines whether or not the OS 39 needs to be updated during the execution of the OS update execution program 24 (S11). This determination can be realized, for example, by comparing the identification information of the OS between the OS 39 stored in the storage device 34 and the OS update data 23.

When the new OS update data 23 to be updated is stored in the server computer 20 (S11-Yes), the CPU 31 needs the OS update data 23 in the server computer 20 by executing the OS update execution program 24. The server computer 20 calls the main memory 32 in response to the above, writes the called OS update data 23 to the storage device 34, and overwrites the OS 39 stored in the storage device 34 (S12). That is, the OS 39 is updated based on the new OS update data 23. When the update of OS39 is completed, a reboot is performed (S8) and BIOS38 is started (S2).

When the new OS update data 23 to be updated is not stored in the server computer 20 (S11-No), the CPU 31 terminates the OS update execution program 24 (S13). Here, the case where the new OS update data 23 to be updated is not stored in the server computer 20 is not only the case where the OS update data 23 itself is not stored in the server computer 20, but also in the server computer 20. Even if the OS update data 23 is stored, it is inappropriate for the industrial computer 30 to be updated, such as when the stored OS update data 23 version is older than the OS 39 already stored in the storage device 34. The case where the OS update data 23 is stored is also included.

After the OS update execution program 24 ends, the CPU 31 calls the self-diagnosis program 25 in the server computer 20 from the server computer 20 to the main memory 32 via the LAN port 35 controlled by the interface function provided by the BIOS 38, and calls the self-diagnosis program 25. The self-diagnosis program 25 is executed from the main memory 32 (S14).

By executing the self-diagnosis program 25, the CPU 31 determines whether or not the state of the industrial computer 30 is normal (S15). That is, the industrial computer 30 is self-diagnosed.

When it is determined that the state of the industrial computer 30 is not normal (S15-No), the CPU 31 transmits the result of the self-diagnosis to the server computer 20 (S16), terminates the self-diagnosis program 25, and starts the OS 39. Is tried (S17). When it is determined that the state of the industrial computer 30 is normal (S15-Yes), the CPU 31 ends the self-diagnosis program 25 (S18) and starts the OS 39 (S17). Here, as a result of the self-diagnosis of the industrial computer 30, when it is clearly determined that the state of the industrial computer 30 cannot start the OS 39 (for example, the power supply voltage and the CPU temperature exceed the operation allowable range). If the storage device 34 that stores the OS 39 is damaged), the operation of the industrial computer 30 may be terminated (power is turned off) without trying to start the OS 39. Further, even when it is determined that the state of the industrial computer 30 is normal, the result of the self-diagnosis that "the state was normal" and the data of each diagnosis item may be transmitted to the server computer 20.

According to the industrial computer 30 and the communication system 10 described above, when the BIOS 38 is started by the industrial computer 30, the BIOS update, OS update, self-diagnosis, etc. that should be executed by the industrial computer 30 are performed. The primary program (BIOS update execution program 22, OS update execution program 24, self-diagnosis program 25) that performs maintenance work is automatically called from the server computer 20 by the BIOS 38 and executed. As a result, the maintenance work of the industrial computer 30 can be performed simply by turning on the power of the industrial computer 30 and starting up the BIOS 38 without waiting for the startup of the OS 39. Further, since the maintenance work of the industrial computer 30 can be performed only by starting up the BIOS 38 stored in the BIOS memory 33, which is unlikely to be damaged due to an accidental power failure or an unknown bug, the accidental power failure, etc. The influence on the failure (particularly, the data corruption in the storage device 34) can be suppressed. Therefore, when the storage device 34 or the like is damaged due to an accidental power failure or the like, the recovery time can be shortened (particularly, it is preferable for the industrial computer 30 provided in a remote place).

Further, since the primary program is called from the server computer 20 to the main memory 32 of the industrial computer 30 and executed, even if the primary program is updated, the primary program is applied to each of the industrial computers 30. There is no need to update, just store the new primary program in the server computer 20. Therefore, even when maintenance work is performed on a large number of industrial computers 30, the work time and labor can be greatly reduced. Further, since the maintenance work of the industrial computer 30 is automatically performed, the user himself / herself can execute the maintenance work of the industrial computer 30 by the primary program even if there is no maintenance person having specialized knowledge. Therefore, the user of each industrial computer 30 can easily and accurately maintain the industrial computer 30 such as updating the BIOS 38 and OS 39 and self-diagnosis of the industrial computer 30 via the primary program. can.

In this specification, the instructions stored in the BIOS memory 33 (basic memory) that is first read after the CPU 31 of the industrial computer 30 is reset, and the basic hardware control that is subsequently executed. The software group responsible for this is called BIOS38. Therefore, the BIOS 38 in the present specification refers not only to the so-called legacy system BIOS, but also to a general group of software executed at the initial stage of startup of the industrial computer 30, such as software for an interface conforming to the UEFI specifications.

Further, in the above embodiment, the BIOS update execution program 22 and the OS update execution program 24, and the BIOS update data 21 and the OS update data 23 are individually called from the server computer 20, but the present invention is limited to this. Instead, the BIOS update execution program 22 and the BIOS update data 21 may be called from the server computer 20 at the same time, or the OS update execution program 24 and the OS update data 23 may be called from the server computer 20 at the same time.

In the above embodiment, the CPU 31 calls the execution file into the main memory 32 in the order of the BIOS update execution program 22, the OS update execution program 24, and the self-diagnosis program 25 via the BIOS 38, and executes the execution. The order of calling to the memory 32 is not limited to this, and the BIOS update execution program 22, the OS update execution program 24, and the self-diagnosis program 25 may be called to the main memory 32 in a predetermined order and executed. No. Further, only one of the BIOS update execution program 22, the OS update execution program 24, and the self-diagnosis program 25 may be independently called and executed. That is, the update of the BIOS 38, the update of the OS 39, and the self-diagnosis of the entire industrial computer 30 may be performed independently.

In the above embodiment, the BIOS 38 is updated by writing the BIOS update data 21 to the BIOS memory 33 and overwriting the BIOS 38, but the process of updating the BIOS 38 is not limited to this, and the difference is It may be modified. Similarly, the OS 39 is updated by writing the OS update data 23 to the storage device 34 and overwriting the OS 39, but the OS 39 update process is not limited to this, and the difference is corrected. It doesn't matter.

10 Communication system 20 Server computer (server device)
30 Industrial computers (information processing equipment, client equipment)
31 CPU
32 Main memory (main storage device)
33 BIOS memory (basic memory)
35 LAN port (communication unit)
38 BIOS

Claims (13)

In an information processing device including a CPU, a main storage device for storing data used by the CPU, and a basic memory for storing a BIOS.
A communication unit is provided that enables the CPU to be connected or communicated with an external device by the interface function provided by the BIOS.
The communication unit can connect or communicate with the CPU of the server device which is the external device and holds the primary program.
The CPU is an information processing device that calls and executes the primary program held in the server device to the main storage device via the communication unit when the BIOS is started. At the time of starting the BIOS, the CPU calls and executes the BIOS update execution program held in the server device as the primary program from the server device to the main storage device via the communication unit, and executes the BIOS update execution program. The information processing apparatus according to claim 1, wherein when it is determined that the BIOS should be updated during execution of the BIOS update execution program, the BIOS stored in the basic memory is updated. An auxiliary storage device in which the OS is stored is provided, and
At the time of starting the BIOS, the CPU calls and executes the OS update execution program held in the server device as the primary program from the server device to the main storage device via the communication unit, and executes the OS update execution program. The information processing according to claim 1 or 2, wherein when it is determined that the OS should be updated during the execution of the OS update execution program, the OS stored in the auxiliary storage device is updated. Device. When the BIOS is started, the CPU calls and executes a self-diagnosis program held in the server device as the primary program from the server device to the main memory device via the communication unit. The information processing device according to any one of claims 1 to 3, wherein the state of the entire information processing device is diagnosed. In an information processing device including a CPU, a main storage device for storing data used by the CPU, a basic memory for storing BIOS, and an auxiliary storage device for storing an OS.
A communication unit is provided that enables the CPU to be connected or communicated with an external device by the interface function provided by the BIOS.
The communication unit can connect or communicate with the CPU of the server device which is the external device and holds the primary program.
At the time of starting the BIOS, the CPU transmits the BIOS update execution program, the OS update execution program, and the self-diagnosis program held in the server device as the primary program in a predetermined order via the communication unit. To call and execute from the server device to the main storage device,
If it is determined that the BIOS should be updated during the execution of the BIOS update execution program, the BIOS stored in the basic memory is updated.
If it is determined that the OS should be updated during the execution of the OS update execution program, the OS stored in the auxiliary storage device is updated.
An information processing device characterized in that the state of the entire information processing device is diagnosed by executing the self-diagnosis program. The method according to any one of claims 1 to 5, wherein the CPU executes the primary program and then transmits the execution result log to the server device via the communication unit. Information processing device. In a communication system in which at least one client device can communicate with a server device via a network.
The client device includes a CPU, a main storage device that stores data used by the CPU, a basic memory that stores a BIOS, and a communication unit that controls communication with the server device.
The server device holds a primary program and
The communication unit of the client device can communicate the client device with the server device by the interface function provided by the BIOS.
A communication system characterized in that the client device calls and executes the primary program held in the server device to the main storage device via the communication unit when the BIOS is started. The server device holds a BIOS update execution program for updating the BIOS of the client device as the primary program.
When the BIOS is started, the client device calls and executes the BIOS update execution program held in the server device from the server device to the main storage device via the communication unit, and executes the BIOS update execution program. The communication system according to claim 7, wherein the BIOS stored in the basic memory is updated when it is determined that the BIOS stored in the basic memory should be updated during the execution of the above. The client device further includes an auxiliary storage device for storing the OS.
The server device holds an OS update execution program for updating the OS of the client device as the primary program.
When the BIOS is started, the client device calls and executes the OS update execution program held in the server device from the server device to the main storage device via the communication unit, and executes the OS update execution program. 7 or 8 is characterized in that the OS stored in the auxiliary storage device is updated when it is determined that the OS stored in the auxiliary storage device should be updated during the execution of. The communication system described in. The server device holds a self-diagnosis program for diagnosing the state of the entire client device as the primary program.
When the BIOS is started, the client device calls the self-diagnosis program held in the server device from the server device to the main memory device via the communication unit and executes the entire client device. The communication system according to any one of claims 7 to 9, wherein the state of the above is diagnosed. In a communication system in which at least one client device can communicate with a server device via a network.
The client device is a communication unit that controls communication between a CPU, a main storage device that stores data used by the CPU, a basic memory that stores a BIOS, an auxiliary storage device that stores an OS, and a server device. And, equipped with
As a primary program, the server device displays a BIOS update execution program for updating the BIOS of the client device, an OS update execution program for updating the OS of the client device, and the state of the entire client device. It has a self-diagnosis program for diagnosing and
The communication unit of the client device can communicate the client device with the server device by the interface function provided by the BIOS.
When the BIOS is started, the client device connects the BIOS update execution program, the OS update execution program, and the self-diagnosis program held in the server device in a predetermined order via the communication unit. Call from the server device to the main storage device, execute it, and execute it.
When it is determined that the BIOS stored in the basic memory should be updated during the execution of the BIOS update execution program, the BIOS stored in the basic memory is updated.
When it is determined that the OS stored in the auxiliary storage device should be updated during the execution of the OS update execution program, the OS stored in the auxiliary storage device is updated.
A communication system characterized in that the state of the entire client device is diagnosed by executing the self-diagnosis program. The method according to any one of claims 7 to 11, wherein the client device executes the primary program and then transmits the execution result log to the server device via the communication unit. Communication system. The communication system according to any one of claims 7 to 12, wherein the server device can start the client device via the network.

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