JP2005056321A - Data processing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data processing system where the starting modes of a plurality of processors operating by programs can be controlled by simple operation. <P>SOLUTION: The processing system has first to n-th incorporated processors 11 to 1n operating by the prescribed programs, and has a plurality of starting modes including a maintenance mode and an ordinary mode. The first processor 11 is started by a mode according to the state of a starting mode setting switch 21, and the second and n-th processors 12 and 1n are started with by a mode according to data of starting mode setting registers 22 and 2n. The first processor 11 writes data according to the state of the starting mode setting switch 21 in the starting mode setting registers 22 and 2n through a control bus 30 when starting. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a data processing system having a plurality of processing devices operated by a program.

  A device installed outdoors, such as a mobile radio small base station, is composed of various electronic devices housed in a waterproof case. An electronic device housed in a housing includes a processing device including a processor that operates according to a predetermined program, and a plurality of processing devices including such a processor are often stored.

  Such a processor with a built-in processor is activated in a maintenance mode different from that during normal operation when performing program upgrade, debugging, file update, device maintenance, or the like. There are known methods for setting the activation mode by setting the SW arranged in the I / O area of the processing apparatus, and a method for providing a predetermined wait period for the activation time and performing a predetermined key input during the wait period. .

  However, it is generally not easy to start the processing devices built in a plurality of processors simultaneously in the maintenance mode, and it is particularly difficult to start a plurality of processing devices housed in a single casing. That is, it is often difficult to provide the SWs arranged in the I / O area of the processing device in the casing as many as the number of processing devices in consideration of the size of the casing, the installation environment, and the like. It is also difficult to connect to and operate at the same time considering the number of maintenance personnel.

  Note that there is a system described in Patent Document 1 as a system for setting the activation mode using another processing apparatus.

Japanese Patent Laid-Open No. 11-219288

    An object of the present invention is to provide a data processing apparatus capable of controlling the activation modes of a plurality of processing apparatuses that are operated by a program with a simple operation.

  The data processing system of the present invention is a data processing system having a plurality of processing devices that operate according to a program, and a startup mode setting switch that sets a startup mode of a first processing device included in the plurality of processing devices, Each of the first processing devices includes a plurality of activation mode designation registers that are connected to other processing devices other than the first processing device and that can be written with data by the first processing device. Data corresponding to the state of the start mode setting switch is written to the plurality of start mode designation registers at the start, and the other processing devices start according to the data of the start mode setting register at the start Is.

  According to the present invention, activation modes of a plurality of processing devices can be controlled with a simple operation. The settable start mode includes a maintenance mode. Since the start can be easily performed in the maintenance mode, program version upgrade, debug, file update, apparatus maintenance, and the like can be easily performed.

  The data processing system of the present invention further includes a control bus connected to the plurality of processing devices and the activation mode designation register, and the first processing device designates the plurality of activation modes via the control bus. Data is written to the register. According to the present invention, data can be written to a plurality of activation mode designation registers by the first processing device with a simple configuration. The data to be written to the activation mode designation register only identifies the activation mode, and a small amount of data is sufficient. Therefore, a low-speed bus is sufficient for the control bus.

  The data processing system of the present invention further includes a single casing that houses the plurality of processing apparatuses, and the activation mode setting switch is installed so as to be operable from the outside of the casing. According to the present invention, since only a small number of setting switches are operated, waterproofing can be easily applied to the housing by using a waterproof switch or installing a small window that has been waterproofed.

  The data processing system of the present invention further includes a plurality of operation terminal connection interfaces connected to each of the plurality of processing devices, and the operation terminal connection interface is arranged to be connectable to the operation terminal from the outside of the casing. It is what is done. According to the present invention, it is possible to perform various operations including maintenance operations such as program upgrade and maintenance by connecting an operation terminal to a necessary processing device when necessary. In addition, by using a waterproof connector or arranging a connection interface in a small window that has been waterproofed, maintenance operations can be easily performed even when housed in a waterproofed casing.

  In the data processing system of the present invention, the activation mode switch includes a switch arranged in an external I / O area of the first processing device. In the data processing system of the present invention, the activation mode setting register may be a register arranged in an external I / O area of the other processing device. According to the present invention, the startup mode setting function of a conventional processing apparatus can be used as it is.

  ADVANTAGE OF THE INVENTION According to this invention, the data processing apparatus which can control the starting mode of the several processing apparatus operate | moved by a program by simple operation can be provided.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram showing a schematic configuration of a data processing system according to an embodiment of the present invention. 1 includes a first processing device 11, a second processing device 12, an nth processing device 1n, a start mode setting switch 21, a start mode designation register 22, 2n, a control bus 30, terminal interfaces 41, 42, 4n and housed in the housing 100. The operation terminal 50 is connected as necessary.

  The first to n-th processing devices 11 to 1n are processing devices having a processor (not shown) that operates according to a predetermined program, and have a plurality of activation modes including a maintenance mode and a normal mode. The first processing device 11 is activated in a mode corresponding to the state of the activation mode setting switch 21, and the second and nth processing devices 12, 1n are activated in a mode corresponding to the data in the activation mode setting registers 22, 2n. . In addition, the first processing device 11 writes data corresponding to the state of the activation mode setting switch 21 to the activation mode designation registers 22 and 2n via the control bus 30 at the time of activation. Although two processing devices, the second processing device 12 and the nth processing device 1n, are illustrated in FIG. 1 as processing devices that start in a mode according to the data of the start mode setting registers 22, 2n, The above may be sufficient, and only the 2nd processing apparatus 12 may be sufficient.

  The start mode setting switch 21 sets the start mode of the first processing apparatus 11 and is a switch that is installed so as to be operable from the outside of the casing 100, and is arranged in the external I / O area of the first processing apparatus 11. Is done. The activation mode setting switch 21 can be set in a plurality of states, and the activation mode of the first processing device 11 is determined according to the states. The activation mode determination switch 21 is generally composed of a plurality of switches, but may be formed as a dedicated switch or may be used as a switch having other functions. In the case of sharing, the activation mode is set by a code represented by a plurality of switch states.

  The start mode designation registers 22 and 2n are registers that are arranged in the external I / O areas of the second processing device 12 and the nth processing device 1n, respectively. It is to set. The start mode designation registers 22 and 2n are reset when the second processing device 12 and the nth processing device 1n are initialized, and the first processing device 11 can write predetermined data for specifying the start mode. . After initialization, the second processing device 12 and the nth processing device 1n periodically read the data of the activation mode designation registers 22 and 2n and are not in a reset state, that is, when some data is written by the first processing device. , Start in the mode according to the data.

  The control bus 30 transmits and receives various data between the first processing device 11, the second processing device 12, and the nth processing device 1n, and is used for writing the activation mode designation registers 22 and 2n by the first processing device 11. The Since the data to be written in the start mode designation registers 22 and 2n only identifies the start mode and a small amount of data is sufficient, the data between the first processing device 11, the second processing device 12, and the nth processing device 1n is sufficient. If the frequency of transmission / reception of various data is not high, a low transfer rate of the control bus 30 is sufficient.

  The operation terminal connection interfaces 41 to 4n are connected to the first processing device 11, the second processing device 12, and the nth processing device 1n, respectively, and are arranged so that the operation terminal 50 can be connected from the outside of the housing 100. .

  The operation terminal 50 is connected to the necessary processing devices 11 to 1n via the operation terminal connection interfaces 41 to 4n when necessary, and performs various operations including maintenance operations such as version upgrades and maintenance of the processing devices 11 to 1n. Is what you do.

  The data processing system of FIG. 1 is used for a mobile radio small base station, for example. In that case, for example, the first processing device 11 performs management of the base station such as monitoring, and the second processing device 12 to the n-th processing device 1n perform communication processing. When the data processing system is installed outdoors, such as when used in a small base station, the casing 100 is waterproofed.

  Next, the starting operation of the data processing system of FIG. 1 will be described.

  FIG. 2 is a diagram showing a schematic operation flow of the first processing apparatus. When the power is turned on or reset in the data processing system of FIG. 1 (the power switch and the reset switch are not shown), the first processing device 11 is initialized (step S201). In step S202, data of the activation mode setting switch 21 is read. Now, the start mode setting switch 21 can set 8-bit data, and data from (01) h to (04) h can be used for setting the start mode. (01) h is assigned to the normal mode, (02) h is assigned to the maintenance mode, and (03) h and (04) h are unused. Note that (01) h and the like represent the 16-bit notation of the 8-bit value set in the switch 21.

  In step S203, it is determined whether the data of the activation mode setting switch 21 read in step S202 is maintenance mode data, that is, (02) h. If it is maintenance mode data, maintenance mode data (02) h is written in the activation mode designation registers 22 and 2n (step S204), and activation processing in the maintenance mode is performed (step S205).

  If it is determined in step S203 that the data of the start mode setting switch 21 is not maintenance mode data, it is determined that the start in the normal mode is set, and the normal mode data ( 01) h is written (step S206), and the activation process in the normal mode is performed (step S207).

  When the power-on or reset instruction is given, it is assumed that (01) h or (02) h is set in the activation mode setting switch 21. If the result of step S203 is No, the activation in the normal mode is performed. However, the process of step S206 may be performed after determining whether (01) h is set. In that case, an error is output except for (01) h.

  In addition, the data set in the start mode designation registers 22 and 2n in steps S204 and S206 has been described assuming that (01) h is the normal mode and (02) h is the maintenance mode, similarly to the data of the start mode setting switch 21. However, the activation mode designation registers 22 and 2n are not limited to 8-bit data, and data other than (01) and (02) h may be used as activation mode setting data.

  Furthermore, you may have starting modes other than normal mode and maintenance mode. For example, a mode may be provided in which the activation mode setting registers 22 and 2n are separately activated for the maintenance mode and the normal mode.

  FIG. 3 is a diagram showing a schematic operation flow of the second processing apparatus 12 to the n-th processing apparatus 1n. When the power is turned on or reset in the data processing system of FIG. 1, the second processing device 12 to the n-th processing device 1n are initialized (step S301). At this time, the start mode designation registers 22 and 2n are also reset and set to (00) h. As with the data of the start mode setting switch 21, it is assumed that (01) h is a normal mode and (02) h is a maintenance mode.

  Next, in step S302, data in the activation mode designation register is read. Then, it is determined whether or not the read data is normal mode data (01) h (step S303), and if it is not normal mode data, it is determined whether or not it is maintenance mode data (02) h (step S304). Immediately after the initialization is completed, data is not written from the first processing device 11 and remains (00) h, so the process returns to step S302 and is repeated until data is written.

  If the data written from the first processing device 11 is (02) h, it is determined in step S304 that it is maintenance mode data, and maintenance mode activation processing is performed in step S306. If the data written from the first processing device 11 is (01) h, it is determined in step S303 that the data is normal mode data, and normal mode activation processing is performed in step S305.

  As described above, when the activation mode designation switch 21 is set to the maintenance mode activation, not only the first processing device 11 but also the second processing device 12 to the nth processing device 1n can be activated in the maintenance mode. The operation terminals 50 can be individually connected via the terminal interfaces 41 to 4n to perform maintenance operations such as program upgrades and maintenance.

  The data processing system of the present invention is useful as a data processing system having a plurality of processing devices that operate according to a program.

The figure which shows schematic structure of the data processing system of embodiment of this invention. The figure which shows schematic operation | movement flow of the 1st processing apparatus of embodiment of this invention. The figure which shows schematic operation | movement flow of the 2nd processing apparatus-nth processing apparatus of embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 ... 1st processing apparatus 12 ... 2nd processing apparatus 1n ... n-th processing apparatus 21 ... Startup mode setting switch 22, 2n ... Startup mode designation register 30 ... Control bus 41, 42, 4n ... terminal interface 50 ... operation terminal 100 ... casing

Claims (6)

A data processing system having a plurality of processing devices operated by a program,
A startup mode setting switch for setting a startup mode of a first processing device included in the plurality of processing devices;
A plurality of activation mode designation registers connected to other processing devices other than the first processing device and capable of writing data by the first processing device;
The first processing device writes data corresponding to a state of the start mode setting switch to the plurality of start mode designation registers at the time of start,
The data processing system, wherein the other processing device performs activation according to data in the activation mode setting register at the time of activation. A data processing system according to claim 1, wherein
A control bus connected to the plurality of processing devices and the activation mode designation register;
The data processing system, wherein the first processing device writes data to the plurality of activation mode designation registers via the control bus. The data processing system according to claim 1 or 2,
A single housing for housing the plurality of processing devices;
The start mode setting switch is a data processing system installed so as to be operable from the outside of the casing. A data processing system according to claim 3, wherein
A plurality of operation terminal connection interfaces connected to each of the plurality of processing devices;
The operation terminal connection interface is a data processing system arranged to be connectable to an operation terminal from the outside of the casing. A data processing system according to any one of claims 1 to 4,
The data processing system, wherein the activation mode switch is a switch arranged in an external I / O area of the first processing device. A data processing system according to any one of claims 1 to 5,
The start mode setting register is a register arranged in an external I / O area of the other processing device.

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