JP6142578B2 - Start-up waiting time shortening apparatus and method, server, and computer program - Google Patents

Description

  The present invention relates to a technology for shortening an activation waiting time of an electronic device using an information processing apparatus (computer).

  In general, a large computer (information processing apparatus) such as a server requires more initialization processing for starting than a personal computer or the like, so the time from when the power is turned on until the server completes starting. There is a problem that becomes longer. Various techniques for reducing the server startup time are known for such problems.

  Patent Document 1 predicts the timing (time) of an activation instruction based on a record of activation timing (power-on time) in an electronic device, and performs activation processing before the predicted timing. A method for performing at least a portion is disclosed. The electronic device described in Patent Document 1 may be operated next by using a plurality of newest activation times among past activation times recorded when activated in accordance with the activation instruction of the user. It is possible to calculate a certain timing. The electronic device starts at least a part of the startup process at a time (starting preparation time) that is earlier than the predicted timing by the time required for startup preparation, after the startup instruction from the user. The processing time to be performed is shortened.

  Further, Patent Document 2 predicts the next time when the user gives an instruction to start based on the history of the time when the recording / playback apparatus starts the transition to the normal start state according to the user's instruction. A method is disclosed in which a time slightly before the set time is set as the preparation start time. Also in the method described in Patent Document 2, the user can actually start normally by executing at least a part of the preparation for making the recording / playback apparatus available before the predicted time. The time required for the remaining start-up preparations after instructing the transition to the state (that is, start-up) is shortened. Also in this method, a history (a history of normal activation time) in which all times when an instruction to perform normal activation is received from the user is used for prediction of the next activation time.

  In addition, as a technology related to shortening the startup time, Patent Document 3 discloses that in an information processing apparatus, when a plurality of applications are started by a startup program that is started when power is turned on, log data at the time of application startup is recorded. A method of changing to an activation method corresponding to the configuration of an application using the analyzed result is disclosed. In the method described in Patent Document 3, the application startup order and device initialization order are determined based on information such as dependency relationships between applications obtained from log data and the device usage start order by applications. By changing, the information processing apparatus can be activated at high speed. That is, this method can prevent the activation time of the information processing apparatus from becoming unnecessarily slow due to an inappropriate activation method or activation sequence.

  Patent Document 4 discloses a method for optimizing the data save / restore time in the hibernation function when a non-volatile memory device (hard disk or the like) with poor read / write performance is mounted. Here, the hibernation function is a function that shortens the startup time by saving the data in the main memory to the nonvolatile memory device before turning off the power of the information processing device and writing back to the main memory at the time of restart. is there. In the method described in Patent Document 4, the information processing apparatus measures the performance of the nonvolatile memory device, and predicts the recovery time due to hibernation using the nonvolatile memory device based on the measured performance of the nonvolatile memory device. To do. Then, the information processing apparatus determines whether to perform activation by hibernation at the next power-on based on the return time. As a result, when the information processing apparatus implements the hibernation function using the nonvolatile memory device, since the reading speed of the nonvolatile memory device is slow, the startup time at power-on is higher than the normal startup time (not using the hibernation function). On the other hand, the problem of becoming longer can be prevented.

Re-specialized WO2004092934 JP 2009-266347 A JP 2011-039745 A JP 2009-146061 A

  However, in server operation, unexpected shutdown (power off, power OFF) during operation, restart for recovery when the server hangs, restart for applying security patches, etc. Often, a reboot occurs as an operation during server operation. In other words, in the operation of the server, in addition to starting up to use the device at the start of normal work, the server may be restarted during use (during operation) of the device.

  Therefore, in the technique disclosed in Patent Document 1, since the start preparation time is calculated based on the past start time record including the restart in operation as described above, the user intends There is a problem that it may prepare for starting at a time when it is not.

  Also in the technique disclosed in Patent Document 2, since the restart during operation as described above is included in the normal start time history and the next start time is predicted, the time is not intended by the user. There is a problem that there is a possibility of preparing to start.

  One object of the present invention is not the restart that occurs during the operation of the server as described above, but the time for the user to wait for the server to start when the user instructs to start using the server. The object is to provide an apparatus for shortening the activation waiting time that realizes shortening.

  In order to achieve the above object, an activation waiting time shortening apparatus according to the present invention comprises the following configuration.

That is, the activation waiting time shortening device according to the present invention obtains a part of the activation time information according to the activation setting information from the history information including a plurality of activation time information indicating the times when the activation instruction was previously given to the electronic device. An activation time prediction means for predicting a time at which the activation instruction is likely to occur based on the remaining activation time information excluded;
A power-on instruction means for instructing a power supply unit of its own device to start power supply to the activation processing means for performing activation processing on the electronic device a predetermined time before the time predicted by the activation time prediction means;
An activation instruction monitoring unit that detects that a new activation instruction has been performed and notifies the activation processing unit;
After power supply is started by the power supply unit, at least a part of the startup process is executed, the power supply is maintained, the standby state is entered, and the remaining startup processes are executed in response to the notification by the startup instruction monitoring unit The activation processing means is provided.

In addition, in order to achieve the same object, the activation waiting time shortening method according to the present invention is performed by an information processing device.
Based on the remaining start time information excluding a part of start time information according to the start setting information from history information including a plurality of start time information indicating the time when the start instruction has been given to the electronic device in the past, Predict the time when the start instruction is likely to occur,
Instructing the power supply unit of the information processing apparatus to start power supply to the activation processing means for performing activation processing on the electronic device a predetermined time before the predicted time,
After power supply to the activation processing means is started by the power supply unit, at least a part of the activation processing is performed,
The power supply is maintained to enter a standby state,
Detecting that a new start instruction has been made, notifying the start processing means of the start instruction,
After executing the part of the startup processing, the remaining startup processing is performed in response to the notification of the startup instruction.

  Further, the object is to provide a computer-readable computer program that implements a startup waiting time reduction device having the above-described respective configurations of the present invention and a corresponding method by a computer, and that stores the computer program. This is also achieved by a storage medium.

  The present invention has an effect of reducing the possibility of performing the start preparation process at a time not intended by the user while shortening the start waiting time when the user issues a start instruction to the electronic device.

It is a block diagram which shows the structure of the starting waiting time reduction apparatus which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the structure of the server which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows operation | movement of the learning phase which a starting instruction | indication monitoring part performs in 2nd Embodiment. In 2nd Embodiment, it is a flowchart which shows the operation | movement performed after a starting time estimation part detects that the power supply of the server was turned off in the operation phase. In 2nd Embodiment, it is a flowchart which shows the operation | movement which a power-on instruction | indication part, a starting instruction | indication monitoring part, and a starting process part perform after the action | operation of a preparation start timer in an operation phase. It is a figure which shows an example of the starting time log | history information 6 in the 2nd Embodiment of this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

<First Embodiment>
FIG. 1 is a block diagram showing the configuration of the activation waiting time shortening apparatus according to the first embodiment of the present invention.

  Referring to FIG. 1, the activation waiting time shortening device 1 according to the present embodiment includes an activation time prediction unit 2, a power ON instruction unit 3, an activation instruction monitoring unit 4, a memory 5, and an activation processing unit 8.

  The activation waiting time shortening device 1 may be incorporated in the electronic device ED that is a target for shortening the activation waiting time, or may be externally attached.

  The memory 5 stores activation time history information 6 and activation setting information 7. The memory 5 is realized by, for example, a semiconductor memory device or a disk device.

  The activation time history information 6 is information including a plurality of times (activation time information) when the electronic device ED has been activated in response to an activation instruction from the user in the past.

  The activation setting information 7 is setting information related to an operation of predicting activation time, including information indicating “prior power on time” and information indicating “prediction exclusion condition”. “Pre-power ON time” indicates a time that should be activated in advance in order to start preparation for activation of the electronic device ED. The “prediction exclusion condition” indicates a condition for extracting the activation time information to be excluded from the activation time prediction from the activation time history information 6. In addition to the above, the activation setting information 7 may include information indicating “day of the week designation” indicating a day of the week on which a preparation operation for reducing the activation waiting time is to be performed. It is assumed that the activation setting information 7 is set in advance by the user.

  When the startup time prediction unit 2 detects that the electronic device ED is powered off (shutdown), the startup time prediction unit 2 should not be used for the startup time prediction from the startup time history information 6 according to the “prediction exclusion condition” included in the startup setting information 7. Exclude time information. Then, the activation time predicting unit 2 determines a time (estimated activation time) at which the next activation instruction of the electronic device ED is likely to be generated (the user instructs activation) based on the excluded remaining activation time information. Predict. Then, the activation time predicting unit 2 prepares a preparation start timer of the power ON instruction unit 3 by subtracting the “preliminary power ON time” included in the activation setting information 7 from the predicted activation predicted time (preparation start time). Set to. At this time, when the activation setting information 7 includes setting information such as “specify day of the week”, the activation time prediction unit 2 may determine the preparation start time according to the setting information.

  The power ON instruction unit 3 has a preparation start timer that is a timer function. When the preparation start time set for the preparation start timer comes from the activation time prediction unit 2, the power ON instruction unit 3 supplies power to the activation processing unit 8 with respect to a power supply unit (not shown) included in the own device. Instructs ON (start of power supply). At this time, the power-on instruction unit 3 also instructs power supply to the electronic device ED at least in a range necessary for the activation process performed by the activation processing unit 8.

  The activation instruction monitoring unit 4 monitors activation instructions from the user to the electronic device ED. When the activation instruction is detected, the activation instruction monitoring unit 4 notifies the activation processing unit 8 that the activation instruction has been detected, and registers the current time when the activation time is received in the activation time history information 6. Further, when the activation processing unit 8 is in a standby state where the activation process is interrupted, the activation instruction monitoring unit 4 notifies the activation processing unit 8 of power OFF when there is no activation instruction within a predetermined period. Note that the length of the period of waiting for the activation instruction in the standby state may be specified by the activation setting information 7.

  When the power is supplied, the activation processing unit 8 performs an activation process for activating the electronic device ED. And the starting process part 8 interrupts a starting process at the time of complete | finishing a predetermined process among a series of starting processes, and transfers to a standby state. The processing performed by the activation processing unit 8 until the standby state is set is referred to as “activation preparation processing”. When the activation processing unit 8 receives a notification indicating detection of the activation instruction from the activation instruction monitoring unit 4 in the standby state, the activation processing unit 8 performs the remaining activation processing (resumes the suspended activation processing). When the activation process of the electronic device ED is completed, the activation processing unit 8 passes control to the electronic device ED and ends. That is, the activation processing unit 8 performs at least a part of the activation processing of the electronic device ED in advance before receiving the activation instruction from the user. In addition, when the activation processing unit 8 receives a power-off notification from the activation instruction monitoring unit 4 in the standby state, the activation processing unit 8 performs a termination process of the electronic device ED if necessary and then turns off the power.

  In this way, according to the present embodiment, it is possible to perform the startup preparation process at a time that is not intended by the user while reducing the startup waiting time when the user issues a startup instruction to the electronic device ED. Is reduced. That is, in this embodiment, since the prediction accuracy of the start preparation start time can be improved, it is possible to increase the possibility that a part of the start processing of the electronic device ED has been completed in advance by the time originally desired by the user. . As a result, according to the present embodiment, after the user instructs the electronic device ED to start, it is possible to reduce the time to wait until the electronic device ED can be used.

  The reason is that the activation time prediction unit 2 excludes activation time information that should not be used for prediction from the activation time history information 6 based on the information indicating the prediction exclusion condition, and determines the activation activation time from the remaining activation time information. This is because it predicts. Furthermore, when the preparation start time obtained from the predicted start time has arrived, the activation processing unit 8 performs in advance at least a part of the activation preparation process for the electronic device ED before actually receiving the activation instruction of the user. Because it can.

  In addition, according to the present embodiment, wasteful costs such as power consumption when the user does not instruct the activation of the electronic device ED even though the activation preparation process is performed in the electronic device ED are kept low. Can do.

  The reason is that the activation instruction monitoring unit 4 notifies the activation processing unit 8 in the standby state that the power supply is turned off when there is no activation instruction from the user within a predetermined period of time. This is to turn off the power.

<Second Embodiment>
Next, a second embodiment based on the above-described first embodiment will be described. In the following, the characteristic part according to the second embodiment will be mainly described, and the components of the second embodiment having the same configuration as the first embodiment are attached in the first embodiment. The same reference numerals as those of the reference numerals are attached, and the detailed description of the constituent elements is omitted.

  FIG. 2 is a block diagram showing the configuration of the server according to the second embodiment of the present invention.

  As shown in FIG. 2, the present embodiment is an example in which the activation waiting time shortening apparatus 1 in the first embodiment is applied to a server (information processing apparatus) 100 having a BMC (Baseboard Management Controller) 10. The BMC 10 is a control mechanism that performs control of a power switch of the incorporated server 100 and monitoring of an operation status.

  In the present embodiment, the server 100 corresponds to the electronic device ED in the first embodiment. In the present embodiment, the activation waiting time shortening device 1 is incorporated in the server 100.

  In the present embodiment, the user instructs to start the server 100 by pressing the power switch 11 provided in the server 100. Then, the activation instruction monitoring unit 4 records in the power switch state information 12 instead of notifying the activation processing unit 8 that the activation instruction has been detected. That is, the activation processing unit 8 is different from the above-described first embodiment in that the activation processing unit 8 actively checks the power switch state information 12 to confirm the presence / absence of the activation instruction.

  Here, a general activation process of the server 100 targeted by the present embodiment will be described. In the following text, it will be described how the startup process of the server 100 is performed if this embodiment is not applied.

  First, the user presses the power switch 11 of the server 100. Next, when the BMC 10 detects that the power switch 11 of the server 100 is pressed, the server 100 is turned on. When the power supply is started, the server 100 first executes a firmware called BIOS (Basic Input / Output System) 20 installed in the server 100 to thereby perform POST (Power On Self Test: initialization) of the server 100. Process. The BIOS 20 sequentially initializes each device (not shown) mounted on the server 100 in the POST process. The order of initialization differs depending on the apparatus, but is generally the order of CPU, memory, and PCI (Peripheral Component Interconnect) device. After initialization of the PCI device, the BIOS 20 performs processing in the order of initialization of the graphic card connected to the PCI and screen display. Thereafter, when the POST process is completed, the BIOS 20 can start the operation as the server 100 by passing control to the OS (Operating System).

  The process as described above is the server 100 activation process. In the startup process of the server 100, compared with a personal computer or the like, the time required for the initialization process of the CPU, the memory, and the PCI device is long. Therefore, in the present embodiment, the processing up to the start of execution of the screen display (screen output) processing is performed in advance as the startup preparation processing, so that the server 100 can be used after the user instructs the server 100 to start up. Reduce the waiting time to start up.

  The configuration of the present embodiment will be described below with reference to FIG.

  The server 100 in which the startup waiting time reduction device 1 according to the present embodiment is incorporated includes a startup time prediction unit 2, a power ON instruction unit 3, a startup instruction monitoring unit 4, a BMC memory 14, a power switch 11, an RTC (Real-Time). Clock) 13 and an activation processing unit 8.

  The server 100 may be configured by a general computer (information processing apparatus) that operates by program control, or may be configured by dedicated hardware.

  The start time predicting unit 2, the power ON instruction unit 3, the start instruction monitoring unit 4, the BMC memory 14, the power switch 11, the power switch state information 12, and the RTC 13 (that is, other than the start processing unit 8) are configured in the BMC 10. Is done. The activation processing unit 8 is configured in the BIOS 20.

  In the present embodiment, the activation time prediction unit 2 performs processing only when there is a predetermined number of activation time information in the activation time history information 6 (operation phase). In the operation phase, the processing performed by the activation time prediction unit 2 is the same as that in the first embodiment if the electronic device ED is read as the server 100, and thus detailed description thereof is omitted.

  In addition to the preparation start timer, the power ON instruction unit 3 also turns on the power to the start processing unit 8 and parts necessary for the start processing of the server 100 when receiving a start instruction notification from the start instruction monitoring unit 4. Give instructions. Since other operations and configurations are the same as those in the first embodiment when the electronic device ED is replaced with the server 100, detailed description thereof is omitted.

  In this embodiment, the activation instruction monitoring unit 4 monitors an activation instruction from the user to the server 100 by monitoring the power switch 11. That is, when the activation instruction monitoring unit 4 detects that the power switch 11 is pressed, the activation instruction monitoring unit 4 writes that the activation instruction is detected in the power switch state information 12 instead of notifying the activation processing unit 8. The activation processing unit 8 knows that the activation instruction has been actively detected by a method such as periodically referring to the power switch state information 12. In the present embodiment, when there is no predetermined number of activation time information in the activation time history information 6 (learning phase), the activation instruction monitoring unit 4 notifies the power-on instruction unit 3 of the activation instruction. Since the processing contents of the activation instruction monitoring unit 4 other than those described above are the same as those in the first embodiment when the electronic device ED is read as the server 100, detailed description thereof is omitted.

  The power switch 11 is a component operated (pressed) by the user in order to instruct the server 100 to turn on (start up) the power.

  An RTC (Real-Time Clock) 13 counts the current time of the server 100. In the present embodiment, each component included in the server 100 acquires the current time (including date) from the RTC 13.

  The in-BMC memory 14 stores start time history information 6, start setting information 7, and power switch state information 12. The BMC memory 14 is realized by, for example, a semiconductor memory device or a disk device. The BMC memory 14 corresponds to the memory 5 in the first embodiment.

  The structure and content of the activation time history information 6 and the activation setting information 7 are the same as those in the first embodiment when the electronic device ED is replaced with the server 100, and thus detailed description thereof is omitted.

  The power switch state information 12 is a storage area that holds a state in which the power switch 11 has been pressed (a start instruction has been detected). The power switch state information 12 can be read / written (referenced and written) from within the BMC 10 and the BIOS 20.

  In the present embodiment, as described above, the activation processing unit 8 enters a standby state when it is performed before the screen display in the activation processing of the server 100. In other words, in the present embodiment, the “startup preparation process” in the first embodiment refers to the period from the beginning of the start process to before the screen display. Note that the above is one specific example, and up to which process is the start preparation process is not limited to the above.

  Next, the operation of the present embodiment having the above-described configuration will be described in detail.

  Hereinafter, the operation of the present embodiment will be described by dividing it into two operation phases of “learning phase” and “operation phase”. The “learning phase” refers to an operation when there is no predetermined number of activation time information in the activation time history information 6. The “operation phase” refers to an operation when there is a predetermined number or more of activation time information in the activation time history information 6.

  First, the operation in the learning phase will be described with reference to FIG. FIG. 3 is a flowchart illustrating the learning phase operation performed by the activation instruction monitoring unit in the second embodiment.

  As a premise, it is assumed that the activation time history information 6 has no activation time information of a predetermined number (for example, “3”) or more. In this case, nothing is set in the preparation start timer of the power-on instruction unit 3.

  First, when the user presses the power switch 11, the activation instruction monitoring unit 4 detects that the power switch 11 has been pressed (step A100). Then, the activation instruction monitoring unit 4 sets a state that the power switch 11 is pressed in the power switch state information 12.

  Next, the activation instruction monitoring unit 4 acquires the current time from the RTC 13 and records the acquired current time in the activation time history information 6 (step A101).

  Next, the activation instruction monitoring unit 4 determines that it is currently in the “learning phase” because the number of activation time information included in the activation time history information 6 is less than a predetermined number. Then, the activation instruction monitoring unit 4 notifies the power ON instruction unit 3 that the activation instruction has been detected. Receiving the notification, the power-on instruction unit 3 instructs the power supply unit (not shown) to turn on the power to the activation processing unit 8 and parts necessary for the activation process of the server 100 (step A102). Thereafter, the activation processing unit 8 performs activation processing and completes activation of the server 100. Details of the activation processing of the activation processing unit 8 will be described later in the description of the operation phase.

  The operation in the learning phase as described above is repeated until a predetermined number of activation time information is registered in the activation time history information 6.

  Next, the operation of the “operation phase” will be described with reference to FIGS.

  As a premise, it is assumed that the activation time history information 6 is in a state illustrated in FIG. FIG. 6 is a diagram showing an example of the activation time history information 6 in the second embodiment of the present invention. The item number column in FIG. 6 is a number given for explanation, and is not necessary information in the actual start time history information 6. Also, 2012/02/11 is Monday. FIG. 6 is an example, and the number of activation time information held in the activation time history information 6, the format of the time information, and the like are not limited thereto. For example, the activation time information may be in the format of only the time without date.

  Further, it is assumed that information indicating “prediction exclusion condition”, information indicating “prior power ON time”, and information indicating “day of week designation” are set in the activation setting information 7. Here, it is assumed that the “prediction exclusion condition” is “9:30 am to 8:30 am”. The “pre-power ON time” is assumed to be “30 minutes”. The “day designation information” is “Monday to Friday”. That is, the user intends to start the server 100 in order to start work between 8:30 am and 9:30 am. Then, the user expects (intentions) the server 100 not to perform the start preparation operation by treating the start instruction in other time zones as a restart in operation. The various setting information included in the startup setting information 7 is, for example, from a BIOS setup menu displayed by the BIOS 20 or a setting menu displayed by an OS (Operating System (not shown)) that operates after the server 100 is started. It is assumed that the user sets in advance. Various setting information included in the activation setting information 7 may be set by an external device, or the server 100 itself may acquire it from the outside.

  Based on such preconditions, this is the case when the user executes the shutdown slightly after the last start time information (2012/02/15 16:00, Friday) to end the use of the server 100. The operation of the embodiment will be described with reference to FIG. FIG. 4 is a flowchart illustrating an operation performed after the activation time prediction unit detects that the server is turned off during the operation phase in the second embodiment.

  First, the activation time prediction unit 2 detects that the server 100 has been shut down (step B200).

  Next, in accordance with the “prediction exclusion condition” included in the activation setting information 7, the activation time prediction unit 2 excludes activation time information that should not be used for the estimation of the activation time from the activation time history information 6, thereby predicting. The startup time information to be used is extracted (step B201). Since the “prediction exclusion condition” is “9:30 am to 8:30 am”, the activation time prediction unit 2 excludes activation time information that is after 9:30 am and before 8:30 am To do. As a result of the exclusion, the activation time prediction unit 2 extracts five items Nos. 1, 4, 6, 8, and 9 from the activation time history information 6 (FIG. 6) as activation time information used for the activation time prediction. To do.

  Note that the information indicating the “prediction exclusion condition” may be specified by combining a plurality of conditions. The information indicating the “prediction exclusion condition” may be specified by changing the expression as information indicating the “prediction target condition” that specifies the activation time information to be used for the activation time prediction. For example, in this embodiment, instead of the “prediction exclusion condition”, the “prediction target condition” may be “8:31 am to 9:29 am”. In this case, the activation time prediction unit 2 extracts activation time information from 8:31 am to 9:29 am in the activation time history information 6 as information used for prediction.

  Next, the activation time prediction unit 2 predicts an activation activation time that is a time when the user is most likely to instruct activation of the server 100 from the extracted activation time information (step B202). In the present embodiment, the activation time prediction unit 2 calculates the estimated activation time by taking the average of the times (excluding the date part) in the extracted activation time information. That is, the predicted activation time is “9:02 am” that is the average of the time portions of the five activation time information items Nos. 1, 4, 6, 8, and 9 in FIG. In the present embodiment, when calculating the predicted activation time, the activation time predicting unit 2 rounds down “seconds”. As described above, the activation time prediction unit 2 may use the image after appropriately processing the activation time information.

  Next, the start-up time prediction unit 2 has a time (preparation start time) obtained by subtracting the “preliminary power-on time” specified in the start-up setting information 7 from the predicted start-up prediction time. Set to the preparation start timer. At this time, when the activation setting information 7 includes setting information such as “day of the week”, the activation time predicting unit 2 determines the preparation start time according to the setting information. Specifically, since the “advanced power on time” is “30 minutes”, the mobile time prediction unit 2 subtracts “30 minutes” from the predicted activation time “9:02 am”, “8:32 am Let “minute” be the time portion of the preparation start time. Then, the activation time prediction unit 2 determines the date part of the preparation start time from the current time (date and time) and the activation setting information 7. Specifically, the activation time predicting unit 2 is “Monday” which is after the current date and time (2012/02/15 16:00:00) acquired from the RTC 13 and is “day designation” included in the activation setting information 7. “2012/02/18” (Monday) that meets the conditions of “-Friday” is set as the date portion of the preparation start time. As a result, the activation time prediction unit 2 sets the preparation start time to “2012/02/18 8:32 am”. Then, this preparation start time is set in a preparation start timer of the power ON instruction unit 3.

  The above is the operation to be executed after the startup time prediction unit detects that the server is turned off during the operation phase.

  Next, with reference to FIG. 5, the operation after the preparation start timer of the power-on instruction unit 3 is activated will be described. FIG. 5 is a flowchart showing operations performed by the power-on instruction unit, the activation instruction monitoring unit, and the activation processing unit after the operation of the preparation start timer in the operation phase in the second embodiment.

  First, when the preparation start time set in the preparation start timer arrives, the power ON instruction unit 3 instructs the activation processing unit 8 to turn on the power (start feeding) (step C300). At this time, the power ON instruction unit 3 also instructs power supply to the server 100 in a range necessary for at least the startup processing performed by the startup processing unit 8. In the present embodiment, when the power ON instruction unit 3 instructs the server 100 to turn on the power, the power supply unit (not shown) starts supplying power to the entire server 100 including the activation processing unit 8. To do.

  Thereafter, in the BMC 10, the activation instruction monitoring unit 4 determines that it is currently in the “operation phase” because there is a predetermined number of activation time information included in the activation time history information 6. (Step C301).

  On the other hand, in the BIOS 20, after power supply is started, the activation processing unit 8 performs activation processing (POST processing) (step D401). When the predetermined processing (start preparation processing) is completed, the start processing unit 8 interrupts the start processing and shifts to a standby state (step D402). As described above, in this embodiment, the activation processing unit 8 interrupts the processing at the stage before screen display after the initialization of the CPU, the memory, and the PCI device having a particularly long processing time, and waits. Transition to the state. In the standby state, the activation processing unit 8 waits for a notification from the activation instruction monitoring unit 4 indicating detection of the activation instruction. As described above, in the present embodiment, the activation processing unit 8 actively confirms whether or not the activation instruction has been detected by periodically referring to the power switch state information 12. The activation processing unit 8 refers to the power switch state information 12 before entering the standby state, so that if the activation instruction is given before entering the standby state or the learning phase is entered, the activation processing unit 8 The process may proceed to step D403 and subsequent steps without entering the state.

If the server 100 can be in a power saving state that reduces power consumption of a CPU, a device, or the like, the activation processing unit 8 may shift the server to the power saving state in the standby state. In the standby state, the activation processing unit 8 may perform display such as turning on an LED provided in the server 100 in order to inform the user that the activation time is ready.

  Here, the description returns to the operation (step C301) of the activation instruction monitoring unit 4 waiting for the activation instruction from the user in the BMC 10.

  When the activation instruction monitoring unit 4 detects an activation instruction for the server 100 within a predetermined period, the activation instruction monitoring unit 4 notifies the activation processing unit 8 (step C302). Specifically, in this embodiment, when the user presses the power switch 11 within a predetermined period, the activation instruction monitoring unit 4 detects that the power switch 11 has been pressed. Then, instead of notifying the activation processing unit 8, the activation instruction monitoring unit 4 sets a state that the power switch 11 is pressed in the power switch state information 12.

  Next, the activation instruction monitoring unit 4 acquires the current time from the RTC 13 and records the acquired current time in the activation time history information 6 (step C303). At this time, when the number of activation time information included in the activation time history information 6 exceeds a predetermined number, the current time may be overwritten on the oldest activation time information.

  On the other hand, in the BIOS 20, the activation processing unit 8 in the standby state knows that the activation instruction has been detected after step C302 by periodically referring to the power switch state information 12 (step D403).

  Next, the activation processing unit 8 clears the state where the power switch 11 recorded in the power switch state information 12 is pressed (step D404).

  Next, the activation processing unit 8 cancels the standby state (step D405). When the server 100 has been shifted to the power saving state, the activation processing unit 8 cancels the power saving state here.

  Next, the activation processing unit 8 resumes the interrupted activation process (step D406). And the starting process part 8 completes starting of the server 100 by finishing the remaining starting processes (step D407).

  As described above, according to the present embodiment, the start waiting time when the user issues a start instruction to the electronic device ED is shortened, and the time that the user does not intend (after 9:30 am, and , Until 8:30 am) the possibility of performing startup preparation processing is reduced.

  The reason for this is that, in the present embodiment, based on the information indicating the prediction exclusion condition, the activation time information “after 9:30 am and until 8:30 am” that should not be used for the prediction from the activation time history information 6 This is because the estimated startup time can be predicted from the remaining startup time information. This is because it is possible to increase the possibility that a part of the startup process of the server 100 has been finished in advance by the time originally desired by the user. As a result, it is possible to reduce the time that the user waits until the server 100 can be used after instructing the server 100 to start up.

  On the other hand, in the technique disclosed in Patent Document 1, when there is the activation time history information 6 as shown in FIG. 6, there is a problem that the activation preparation is performed around 15:05 which is the latest history. The technique disclosed in Patent Document 2 also has a problem that the start preparation process is performed around 15:10 in addition to around 9 o'clock. The reason is considered that a part of the start time information cannot be excluded from the start prediction because the operation form in which the user starts other than the purpose of starting to use the server 100 is not considered.

  In the present embodiment, in step C310, when there is no activation instruction for the server 100 within a predetermined period (for example, “1 hour”), the activation instruction monitoring unit 4 notifies the activation processing unit 8 of power OFF. (Step C310). The start processing unit 8 notified of the power OFF turns off the server 100 (shuts down) after performing termination processing of the server 100 if necessary. After that, when the activation time prediction unit 2 detects that the server 100 is shut down (step B200), the operation illustrated in FIG. 4 is performed again.

  Thus, according to the present embodiment, wasteful costs such as power consumption when the user does not give an instruction to start the server 100 despite the start preparation processing being performed in the server 100 are kept low. be able to.

  The reason is that when the activation instruction monitoring unit 4 does not receive an activation instruction from the user within a predetermined period, the activation instruction monitoring unit 4 notifies the activation processing unit 8 in the standby state of the power supply OFF, thereby This is to turn off the power.

  In the present embodiment, a method of instructing activation by pressing the power switch 11 is adopted. However, the method of activation instruction is not limited to this. For example, a method of instructing activation by communication through another device or a method of reservation activation using a timer may be used.

  The startup time prediction unit 2 excludes startup time information that should not be used for the startup time prediction from the startup time history information 6 according to the “prediction exclusion condition” (step B201). Is not limited to this. For example, when the activation instruction monitoring unit 4 registers the activation time information in the activation time history information 6 (Step A101 and Step C303), the activation time information to be excluded is not registered according to the “prediction exclusion condition”. Good.

  In the present embodiment, the startup processing performed by the startup processing unit 8 is determined according to the processing order of a normal server to which the startup waiting time reduction device 1 is not applied, but is not limited thereto. That is, the startup process performed by the startup processing unit 8 may be different from the normal server processing order.

  In each of the above-described embodiments and modifications thereof (hereinafter also simply referred to as “each embodiment, etc.”), each unit illustrated in FIGS. 1 and 2 includes hardware such as the memory 5 and the BMC memory 14. The hardware resources can be omitted, and can be regarded as a function (processing) unit (software module) of the software program. However, the division of each part shown in these drawings is a configuration for convenience of explanation, and various configurations can be assumed for mounting. The present invention described with reference to the above-described embodiments and the like is a computer that can realize the functions of the block configuration diagrams (FIGS. 1 and 2) or the flowcharts (FIGS. 3 to 5) referred to in the description of the embodiments and the like. After the program is supplied, the computer program can be read and executed by a CPU (processor).

  In addition, although a part or all of the embodiment described above can be described as the following supplementary notes, the present invention is not limited to the following supplementary notes.

(Appendix 1)
Based on the remaining start time information excluding a part of start time information according to the start setting information from history information including a plurality of start time information indicating the time when the start instruction has been given to the electronic device in the past, An activation time prediction means for predicting a time at which an activation instruction is likely to occur;
A power-on instruction means for instructing a power supply unit of its own device to start power supply to the activation processing means for performing activation processing on the electronic device a predetermined time before the time predicted by the activation time prediction means;
An activation instruction monitoring unit that detects that a new activation instruction has been performed and notifies the activation processing unit;
The power supply unit including at least one part of the start-up process after the power supply is started, and executing the remaining start-up process in response to the notification by the start-up instruction monitoring unit. A start-up waiting time reduction device as a feature.

(Appendix 2)
The activation instruction monitoring means includes
When the activation processing unit executes at least a part of the activation process, and the new activation instruction is not performed within a predetermined period, the activation processing unit is instructed to turn off the power. The start waiting time shortening device according to appendix 1.

(Appendix 3)
The activation processing means includes
The start-up waiting time shortening device according to claim 1 or 2, wherein after executing at least a part of the start-up process, the electronic device is instructed to shift to a power saving state.

(Appendix 4)
The electronic device includes a power switch,
The start-up waiting time shortening processing apparatus according to any one of appendices 1 to 3, wherein the start-up instruction monitoring unit receives the past and new start-up instructions when the power switch is pressed.

(Appendix 5)
Including the activation waiting time shortening device according to any one of appendices 1 to 4,
The server according to claim 1, wherein the activation processing means implements an activation process up to the start of execution of the screen output process as at least a part of the activation process.

(Appendix 6)
Depending on the information processing device,
Based on the remaining start time information excluding a part of start time information according to the start setting information from history information including a plurality of start time information indicating the time when the start instruction has been given to the electronic device in the past, Predict the time when the start instruction is likely to occur,
Instructing the power supply unit of the information processing apparatus to start power supply to the activation processing means for performing activation processing on the electronic device a predetermined time before the predicted time,
After power supply to the activation processing means is started by the power supply unit, at least a part of the activation processing is performed,
Detecting that a new start instruction has been made, notifying the start processing means of the start instruction,
After executing the part of the startup processing, the remaining startup processing is performed in response to the notification of the startup instruction.

(Appendix 7)
The supplementary note 6 is characterized by instructing the activation processing means to turn off the power when the new activation instruction is not performed within a predetermined period after executing at least a part of the activation process. Start-up waiting time reduction method.

(Appendix 8)
8. The startup waiting time shortening method according to appendix 6 or 7, wherein the information processing apparatus instructs to shift the electronic device to a power saving state after executing at least a part of the startup process.

(Appendix 9)
A computer program for controlling the operation of a computer that operates as a start-up waiting time reduction device, the computer program
Based on the remaining start time information excluding a part of start time information according to the start setting information from history information including a plurality of start time information indicating the time when the start instruction has been given to the electronic device in the past, A start time prediction function for predicting a time at which a start instruction is likely to occur;
Power ON instruction function for instructing the power supply unit of the activation waiting time reduction apparatus to start power supply to the activation processing function for performing activation processing on the electronic device a predetermined time before the time predicted by the activation time prediction function When,
A start instruction monitoring function for detecting a new start instruction and notifying the start processing function;
After the power supply is started by the power supply unit, execute at least a part of the activation process, and execute the remaining activation process in response to the notification by the activation instruction monitoring function,
A computer program to be realized by the computer.

(Appendix 10)
The activation instruction monitoring function is
When the activation processing function executes at least a part of the activation processing, if no new activation instruction is given within a predetermined period, the activation processing function is instructed to turn off the power. The computer program according to appendix 9.

(Appendix 11)
The activation processing function is
The computer program according to appendix 9 or 10, wherein after executing at least a part of the startup process, the electronic device is instructed to shift to a power saving state.

(Appendix 12)
The electronic device includes a power switch,
The computer program according to any one of appendices 9 to 11, wherein the activation instruction monitoring function receives the activation instruction when the power switch is pressed.

DESCRIPTION OF SYMBOLS 1 Startup waiting time shortening device 2 Startup time prediction part 3 Power supply ON instruction part 4 Startup instruction monitoring part 5 Memory 6 Startup time history information 7 Startup setting information 8 Startup processing part 10 BMC (base board management controller)
11 Power Switch 12 Power Switch Status Information 13 RTC (Real Time Clock)
14 Memory in BMC 20 BIOS
100 server (information processing device)

Claims (10)

Based on the remaining start time information excluding a part of start time information according to the start setting information from history information including a plurality of start time information indicating the time when the start instruction has been given to the electronic device in the past, An activation time prediction means for predicting a time at which an activation instruction is likely to occur;
A power-on instruction means for instructing a power supply unit of its own device to start power supply to the activation processing means for performing activation processing on the electronic device a predetermined time before the time predicted by the activation time prediction means;
An activation instruction monitoring unit that detects that a new activation instruction has been performed and notifies the activation processing unit;
After power supply is started by the power supply unit, at least a part of the startup process is executed, the power supply is maintained, the standby state is entered, and the remaining startup processes are executed in response to the notification by the startup instruction monitoring unit The start-up waiting time shortening device comprising the start-up processing means. The activation instruction monitoring means includes
When the activation processing unit executes at least a part of the activation process, and the new activation instruction is not performed within a predetermined period, the activation processing unit is instructed to turn off the power. The activation waiting time shortening device according to claim 1. The electronic device includes a power switch,
The activation instruction monitoring means starts waiting shortening device according to claim 1 or 2, wherein the receiving the past and a new start instruction by being pressed the power switch. A start waiting time reduction device according to any one of claims 1 to 3 ,
The server according to claim 1, wherein the activation processing means implements an activation process up to the start of execution of the screen output process as at least a part of the activation process. Depending on the information processing device,
Based on the remaining start time information excluding a part of start time information according to the start setting information from history information including a plurality of start time information indicating the time when the start instruction has been given to the electronic device in the past, Predict the time when the start instruction is likely to occur,
Instructing the power supply unit of the information processing apparatus to start power supply to the activation processing means for performing activation processing on the electronic device a predetermined time before the predicted time,
After power supply to the activation processing means is started by the power supply unit, at least a part of the activation processing is performed,
The power supply is maintained to enter a standby state,
Detecting that a new start instruction has been made, notifying the start processing means of the start instruction,
After executing the part of the startup processing, the remaining startup processing is performed in response to the notification of the startup instruction. After performing at least part of the activation process, if the new activation instruction within a predetermined period of time is not carried out, according to claim 5, wherein the instructing the power OFF to the activation processing means To shorten the startup waiting time. By detecting that the power switch provided in the electronic device is pressed, the activation instruction is detected.
  The start waiting time shortening method according to claim 5 or 6. A computer program for controlling the operation of a computer that operates as a start-up waiting time reduction device, the computer program
Based on the remaining start time information excluding a part of start time information according to the start setting information from history information including a plurality of start time information indicating the time when the start instruction has been given to the electronic device in the past, A start time prediction function for predicting a time at which a start instruction is likely to occur;
Power ON instruction function for instructing the power supply unit of the activation waiting time reduction apparatus to start power supply to the activation processing function for performing activation processing on the electronic device a predetermined time before the time predicted by the activation time prediction function When,
A start instruction monitoring function for detecting a new start instruction and notifying the start processing function;
After power supply is started by the power supply unit, at least a part of the startup process is executed, the power supply is maintained, the standby state is entered, and the remaining startup processes are executed in response to the notification by the startup instruction monitoring function The activation processing function to
A computer program to be realized by the computer. The activation instruction monitoring function is
When the activation processing function executes at least a part of the activation processing, if no new activation instruction is given within a predetermined period, the activation processing function is instructed to turn off the power. The computer program according to claim 8 . The electronic device includes a power switch,
  The activation instruction monitoring function receives the activation instruction when the power switch is pressed.
  10. The computer program according to claim 8 or 9, wherein

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