JP2007279951A - Computer device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a computer device capable of automatically correcting memory setting errors or the like inside the device and preventing troubles due to their accumulation. <P>SOLUTION: In the computer device provided with a CPU 1, a device management memory area 2-1 and a user open memory area 2-2 or the device loaded with a computer, a time radio wave reception means 4, a timer means and a memory area initialization means are provided, and a device management memory area initialization means is driven on the basis of acquired initialization time information. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a computer apparatus, and more particularly to a computer apparatus that includes time information acquisition means such as a radio timepiece, and that performs device initialization processing based on accurate time information and frequency information.

  The configuration of the computer device basically includes a central processing unit (hereinafter referred to as CPU), various storage devices (hereinafter referred to as memory), and programs and data stored in these memories. It is widely used not only for general-purpose computers such as computers) but also for home appliances such as copy apparatuses, FAX apparatuses, and digital cameras, and mobile phones, and provides various functions. Various types of memory have been used.

  On the other hand, whether a computer device is large-scale complicated or has a simple configuration, the concept of the processing procedure and method is the same. Generally, initialization of a storage device, initialization of a device, The device is to be monitored. Further, regarding the power supply, there can be various usage forms such as a power supply that is always used in a power-on state, or a power supply that is turned on when used and shuts off when the use is completed. In addition, for devices with a backup power supply when the main power is turned off, a series of processes such as saving data and storing various computer settings in memory so that it can be restored to the previous state when the power is turned on again After ending the process, many are equipped with a suspend (resume) function to turn off the power. As a power saving function, a function to cut off the power supply to the display, hard disk, and peripheral devices is often added when the battery is not used for a certain period of time or when the battery capacity is reduced. After performing a series of necessary processes such as storage, when the power is turned off and the power is turned on again from the suspended state, a process for quickly returning to the state before the suspension is performed (this process may be called resume).

An initialization process for a computer device or a computer-mounted device is disclosed in Patent Document 1, for example. This Patent Document 1 relates to an initialization apparatus for electrical and electronic equipment having a suspend (resume) function, and was performed in a factory stored in a volatile memory inside the computer apparatus when the computer apparatus was shipped from the factory. A means for efficiently initializing processing, operation state data, control microcomputer internal registers, counter data, and the like is disclosed.
JP-A-2005-92674

  However, in the conventional computer apparatus, sufficient management was possible while the capacity of the storage device was small, but now the capacity of the storage device has been dramatically increased, and sufficient management is not possible. . For example, as memory devices, there are many devices having different management methods and processing procedures such as EEPROM, FLASHROM, various RAMs, and such a trend is expected to increase further in the future.

  FIG. 4 is a flowchart showing an example of initialization processing when a conventional computer apparatus is powered on. As is well known, when the computer is turned on, each device memory is initialized. In this example, as shown in FIG. 5A, the storage device is first initialized (S41), then the device is initialized (S42), and then the change of the device is monitored (S43). Since the description of this processing flow is for the purpose of explaining device initialization processing, device monitoring is omitted. In the storage device initialization process S41, the storage device area managed by the apparatus is initialized with preset default values (S41-1) as shown in FIG. The released storage area is initialized with a required default value (S41-2). Similarly, in the initialization of the device device, the device device managed by the device is initialized with a preset default value (S42-1), and then the device device opened to the user is set to a required default value. (S42-2).

The memory area (device management memory area) managed by the device is a memory region that cannot be changed by the user, such as a state number value, a protocol data value, and device-specific object data that the device has in the reserved area of the device. . Further, in the user open memory area, when the computer-mounted device is a mobile phone device, for example, data such as a phone book, LCD display message, beep sound ON / OFF setting, mail reception data, image data, ringtone, etc. A program or the like for executing the set function is stored. The user open memory area can be freely modified by the user, but the apparatus management memory area cannot be managed at all when the apparatus is in the hands of the user.
On the other hand, if you continue to use the device, you may not notice it, but there are many problems such as memory setting errors inside the device, and if you continue to use it for a long time, these problems will accumulate and suddenly stop working one day It is known.

  Therefore, when the power of the computer device is continuously turned on continuously, the initialization process at the time of turning off and turning on the power is not executed, and there is a high possibility that the control device suddenly becomes in an uncontrollable state due to accumulation of memory setting errors or the like. Even if the initialization process is performed when the power is turned off and then turned on again, if the memory capacity increases as described above, the initialization process is performed only for the user-released memory area with priority given to prompt shutdown and startup. Since the device management memory area may not be initialized, the possibility of a sudden uncontrollable state due to accumulation of memory setting errors or the like is increased in that case as well. Or, in the suspend process, the same problem occurs when only the necessary minimum data is saved and initialization that requires time is not performed, or even if initialization is performed, it remains in the user-released memory area. Is more likely to do.

  The present invention has been made for the purpose of solving such problems of the conventional computer apparatus, and by adding a processing function for periodically initializing the required storage device of the computer apparatus, An object of the present invention is to provide a computer device and a computer-mounted device that can correct a memory setting error and the like and prevent problems caused by accumulation of the errors.

  In the present invention, in order to achieve the above object, in the computer device according to claim 1, in a computer device including at least a CPU, a device management memory region, and a user-released memory region, or a device equipped with the computer. A time information acquisition means for acquiring time information, a timer means for detecting a preset initialization time based on the time information obtained by the time information acquisition means, and at least the device management memory area is preset Device management memory area initialization means for setting the default value, and initialization drive means for driving the device management memory area initialization means based on the initialization time information obtained from the timer means. Features.

  The computer apparatus according to claim 2, wherein the time signal receiving means for receiving time information radio waves in a computer apparatus having at least a CPU, a device management memory area, and a user open memory area or a device equipped with the computer. Timer means for detecting a preset initialization time based on time information obtained by the time radio wave receiving means, and a device management memory area initial setting at least the device management memory area to a preset default value And an initialization drive means for driving the device management memory area initialization means based on the initialization time information acquired from the timer means.

  According to a third aspect of the present invention, in the computer device according to the first or second aspect, the initialization driving means further determines whether or not the computer apparatus is idling at the initialization time; Means for driving the device management memory area initialization means when it is determined in this determination that the device is idling.

  According to a fourth aspect of the present invention, in the computer device according to any one of the first to third aspects, the time information acquisition unit or the time radio wave reception unit further includes a reference from the acquired or received time information. Means for detecting at least one of frequency information, time information, and calendar information; and the device management memory area initialization means is further configured to manage the device based on at least one of reference frequency information, time information, and calendar information. A means for correcting an error in data including time information in the memory area or the user-released memory area is provided.

  Since the present invention is configured as described above, in the computer apparatus according to claim 1 or 2, the computer apparatus or computer including at least a CPU, an apparatus management memory area, and a user open memory area is provided. In the mounted device, time information acquisition means or time radio wave reception means for acquiring time information, timer means for detecting that it is a preset initialization time based on the time time information, and at least the device management memory area Is provided with device management memory area initialization means for setting the initial value to a preset default value, and initialization drive means for driving the device management memory area initialization means based on initialization time information acquired from the timer means. By acquiring time information, extremely accurate time information and frequency information, and calendar information such as date and time are obtained. It becomes possible to automatically initialize the required portion of the at least device management memory region based on the information. Therefore, even in a device that is always turned on, it is possible to correct a memory setting error by periodically initializing the device management memory area, and to prevent troubles caused by accumulation of these errors. Even if the power is frequently shut down and initialization is performed each time, if there is a part that is not subjected to initialization processing at that time, if this part is initialized by the present invention, the present The invention is useful and provides similar effects.

  According to a third aspect of the present invention, in the computer apparatus according to the first or second aspect, the initialization driving means further comprises means for determining whether or not the computer apparatus is idling at the initialization time. Since it is configured to drive the device management memory area initialization means when it is determined that the device is idling, it is possible to eliminate the inconvenience of initializing the device during startup. The present invention is particularly useful in computer-mounted devices such as various server systems that are always used after being turned on.

  According to a fourth aspect of the present invention, in the computer device according to any one of the first to third aspects, the time acquisition unit or the time radio wave reception unit further includes reference frequency information, time information, and calendar information from the received time information. Means for detecting at least one, and the device management memory area initialization means is further configured to store the device management memory area or the user-released memory area based on at least one of the reference frequency information, time information, and calendar information. Since it has means to correct errors in data including time information, it can correct errors in various stored data or correct the clock frequency control means of the device itself based on extremely accurate time information and frequency information. It becomes available, and is extremely effective in maintaining and managing the treatment accuracy of computer devices and devices on which they are mounted.

Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the technical terms, components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are not intended to limit the scope of the present invention only to specific examples unless otherwise specified. Only.
FIG. 1 is a schematic block diagram showing the configuration of an embodiment of a computer apparatus according to the present invention. The computer apparatus shown in this example includes a CPU (Central Processing Unit) 1, a storage device / memory 2, an apparatus device / memory 3, a time radio wave receiving unit (time radio wave receiving means) 4, and each unit. A bus line 5 to be connected, a power supply unit 6 for supplying power to each part, and a power switch 7 inserted between the power supply part 6 and a required part of each part are provided. Further, the storage device memory 2 includes a device management area (device management memory area) 2-1 and a user release area (user release memory area) 2-2, and the device device memory 3 includes A device management area (device management memory area) 3-1 and a user release area (user release memory area) 3-2 are provided. The time radio wave receiver 4 includes an antenna 4-1 in which a required number of conductors are wound around a ferrite core, a receiver 4-2 for receiving time radio waves, and a time signal processing micro processor 4-3. It is.

  As described below, among the constituent elements described in the claims, the timer means, the device management memory area initialization means, and the initialization drive means are the CPU 1, the storage device memory 2, and the device device memory. 3 is realized by the processing program stored in FIG. In addition, a wireless system will be described exclusively as time information acquisition means. However, the present invention is not limited to the wireless system, and can be similarly implemented even when the time information is acquired by a wired system.

  As the time information radio wave, in this example, a case where a standard radio wave managed and operated by the Japan Standard Time Group, National Institute of Information and Communications Technology is used. This standard radio wave is generated from two locations, Fukushima (40 kHz) and Saga (60 kHz), based on the signal of a cesium atomic clock that is said to have an error of 1 second in hundreds of thousands of years. . In recent years, watches that receive these radio waves and display accurate time are widely used as “radio clocks”, and many watches are commercially available as watches, wall clocks, or table clocks. This standard radio wave is also used in various electric products such as a timer means for program reservation of a television or a video device, for example, and is integrated into an IC including a microprocessor and peripheral circuits that can function as a time radio wave receiving means Since a circuit and an antenna can be obtained relatively inexpensively, they can be used in the present invention, and the current consumption is extremely small. Therefore, the circuit and the antenna may be always supplied regardless of whether the power switch 7 in FIG. 1 is on or off. A dedicated battery may be prepared.

  In addition, the standard radio wave described above has a scheduled reception function for setting the time of a clock, and a correction signal is periodically transmitted. When using a radio clock receiver, the scheduled reception that receives radio waves and corrects the watch's second hand and calendar information to an accurate value is set at night when there are few other noise components and radio conditions are good. There are several times and set times. For example, there are various things, such as what happens every day at 2 am and 4 am, what happens every day at 2 am, 3 am and 4 am, and what happens on odd days and even days. Therefore, this function can be used as described below.

  FIG. 2 is a flowchart showing an example of control of the computer apparatus having the configuration shown in FIG. In the processing shown in this example, when the power switch 7 attached to the power supply device 6 is operated and the power is turned on, first, the storage device is set to a preset default value (initial value) (S1), and then The device device is set to an initial value (S2). In both processes, as in the example shown in FIGS. 4A, 4B, and 4C, each process includes a process for setting the area managed by the apparatus and the user open area to default values. include.

  When the initialization of the storage device and the initialization of the device device is completed, the normal operation is started, the signal of the above-mentioned radio clock is received (S3), the received time information is monitored, and the preset time is reached. (S3). Alternatively, it is possible to determine the initialization time by receiving and detecting the scheduled reception data transmitted by being included in the standard radio wave. The time set in advance may be set to a time adapted to each system when using the scheduled reception function using the standard radio wave as described above, but is not limited to the example using the scheduled reception function. For example, it can be set at a time when the use of a computer in the early morning is relatively low. At this time, when the calendar information transmitted at the time of reception is not available, the data at the time of reception is stored, and the time information is corrected and used by the built-in clock generation means or the timer means as necessary. You can also When the target device is a mail server or the like, it is preferable to set according to the situation in which the device is used, such as a time zone in which mail transmission / reception is relatively small. When the timer reaches a preset time in this state, it is determined whether or not the device to be controlled is idling at that time (S4). The term “idling” as used herein refers to a state in which the device is not used. If the initialization process is performed when the device is in use (S4 N), the initialization process is hindered. Instead, the change of the device / device is monitored, a process corresponding to the change is performed (S5), and the signal of the radio clock is received again to wait for the above-mentioned timer time.

  When the computer apparatus is idling in the process S4 (S4 Y), the process proceeds to the process S1 to execute initialization of the storage device (S1) and initialization of the apparatus device (S2). In addition, since scheduled reception using standard radio waves is set multiple times within a day, it is sufficient to determine that the device is idling at the time of any one of the scheduled receptions. If successful, it may be set so that initialization processing is not performed during subsequent scheduled reception.

  If the initialization of the storage device or the device device of the computer device or the device equipped with the computer device is executed periodically in this way, even if the device is always turned on, the memory setting in the device is periodically performed. Since errors and the like can be corrected, it is possible to prevent troubles caused by the accumulation of such errors.

FIG. 3 is a flowchart showing an example of a modified embodiment of the present invention. In this example, the correspondence when the computer apparatus is not in an idling state at a preset initialization time is modified, and the processing procedure is expressed slightly differently. It is.
That is, when the process starts, the time radio wave is received by the receiver 4-2 of the time radio wave receiver 4 (S10), and the time information is acquired by the microprocessor 4-3 (S11). The time information includes, for example, hour, minute, day of the year, year (last two digits), and day of the week as the time code, and the frequency of the received radio signal can also be used as accurate frequency information. is there. When obtaining this information and setting the initialization time independently, it is determined by the timer means that it is the time (S12), and when it is not the scheduled time (S13 N), the scheduled time is reached. Wait for. If it is determined that the scheduled time is reached in this determination process (S13 Y), it is determined whether or not the computer device is idling. If not (S14 N), the computer device waits for idling. (S14 Y), storage device initialization processing (S15) and apparatus device initialization processing (S16) are performed. Since these initialization processes are the same as those in the example shown in FIG. In this way, if the control target device is in use and is not suitable for initialization at the scheduled initialization time, the initialization process is executed after waiting for the idling state, so there is a relatively high chance of becoming the idling state. Even with a small number of devices, it is possible to execute initialization reliably.

  The present invention need not be limited to the embodiments described above, and various modifications are possible. For example, as described above, the standard radio wave for a radio timepiece contains accurate frequency information and calendar information such as date, hour, minute, etc., so it is saved when the computer device is initialized or at an arbitrary time. It is also possible to detect the time information in the various data, compare these with the calendar information, and correct if there is an error. For example, the accuracy of the storage time is effective in preventing malfunctions in subsequent processing, and keeping the clock frequency of the computer device accurate is useful in keeping the accuracy of the operation.

  In addition, although a mobile phone is equipped with a computer device, it is expected that in the future, the processing speed will increase further, the memory capacity will increase, and complicated programs will be installed. On the other hand, time information is transmitted via the base station, or time information that is actually transmitted is used, or a similar standard radio wave reception function is added to periodically initialize the device and storage device. By doing so, it is possible to maintain the functions of a large number of portable terminals.

  In the present invention, other time information can be used in addition to time information acquisition using a standard radio wave. As the time information, for example, accurate time information can be obtained by receiving a time signal of NHK (Japan Broadcasting Corporation) educational broadcast, and the time signal notification tone signal at that time can also be used as accurate frequency information. . Also, radio waves from GPS (Global Position System) satellites can be used because they include accurate time information. Furthermore, the radio wave transmitted from the CDMA mobile phone base station can be used in the same manner because it transmits the accurate time information obtained from the GPS radio wave in order to detect the exact position of the terminal. . Therefore, the present invention can be realized in the same manner as in the above-described example by appropriately acquiring these time information. In addition, the cycle for performing the initialization does not need to be in units of one day, and can be set as appropriate, such as weekly units, monthly units, or several months units.

  Furthermore, in the above-described embodiment, the case where the power supply of the computer apparatus is continuously turned on has been shown. However, the present invention is not limited to this example, and the effect can be considered in various cases. In other words, even when the initialization process is performed when the power is turned off / on again, if the memory capacity increases as described above, the initialization process only for the user-released memory area is performed with priority given to prompt shutdown and startup. However, it is also possible not to initialize the device management memory area, but in that case as well, the possibility of a sudden uncontrollable state due to accumulation of memory setting errors etc. is increased, or it is necessary for suspend processing The same problem may occur when only the minimum data is stored and initialization that requires time is not performed, or even if initialization is performed, the memory remains in the user-released memory area. Therefore, it is useful to periodically perform the above-described required device initialization process, which is the object of the present invention, to eliminate such a problem.

  Furthermore, if the processes described above are grasped as procedures and programs are created so as to realize them, the present invention can be implemented simply by installing these programs and necessary data in the computer device to be controlled. In addition, when the time information is supplied from another device or the like, it is not necessary to newly add a wireless receiving means by using it. The present invention is not limited to the computer device itself, but can be widely applied to devices equipped with a computer. If the device includes time information acquisition means, the information can be diverted, or When the device itself needs time information, the time acquisition means added in the present invention can be used. Still further, the invention described in Patent Document 1 described above can be used together, or matters not detailed in the present invention can be supplemented with reference to the same Patent Document.

It is a block diagram which shows the structure of the computer apparatus concerning this invention. It is a flowchart which shows the example of control of the computer apparatus concerning this invention. It is a flowchart which shows the other example of control of the computer apparatus concerning this invention. It is a flowchart which shows the example of control of the conventional computer apparatus.

Explanation of symbols

  1 CPU, 2 storage device / memory, 3 device device / memory, 4 time radio wave receiving unit (time radio wave receiving means), 5 bus line, 6 power supply unit, 7 power switch, 2-1 device management area (device management memory area) 2-2 User release area (user release memory area), 3-1 Device management area (device management memory area), 2-2 User release area (user release memory area).

Claims (4)

  In a computer device having at least a CPU, a device management memory area, and a user-released memory area, time information acquisition means for acquiring time information, and preset based on the time information obtained by the time information acquisition means On the basis of timer means for detecting that it is an initialization time, apparatus management memory area initialization means for setting at least the apparatus management memory area to a preset default value, and initialization time information obtained from the timer means And an initialization drive means for driving the device management memory area initialization means.   In a computer device having at least a CPU, a device management memory area, and a user-released memory area, preset based on time radio wave receiving means for receiving time information radio waves, and time information obtained by the time radio wave receiving means Based on the initialization time information obtained from the timer means for detecting the initialization time, the device management memory area initialization means for setting at least the device management memory area to a preset default value, and the timer means And an initialization drive means for driving the device management memory area initialization means.   The initialization drive means further includes means for determining whether or not the computer apparatus is idling at the initialization time, and the apparatus management memory area initial value when it is determined in this determination that the apparatus is idling. The computer apparatus according to claim 1, further comprising: means for driving the converting means.   The time information acquisition means or the time radio wave reception means further comprises means for detecting at least one of reference frequency information, time information, and calendar information from the acquired or received time information, and the device management memory area initialization The means further includes time information of the device management memory area or user open memory area based on at least one of the reference frequency information, time information, and calendar information obtained by the time information acquisition means or the time radio wave reception means. 4. The computer apparatus according to claim 1, further comprising means for correcting a data error.

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