JP6915897B2 - Location notification device, information processing device, location notification method and program - Google Patents

Description

The present invention relates to a position notification device, an information processing device, a position notification method and a program.

Information processing devices are required to reduce costs and increase density. It is common to use a speaker as a means for notifying the position of the information processing device. It is often unnecessary to mount a speaker in a server device, and if a speaker is mounted only to notify the position of the server device, parts and volume will be allocated, which is a factor that hinders cost reduction and high density. It becomes.

Patent Document 1 discloses a method of outputting sounds having different frequencies by changing the rotation speed of a fan. Patent Document 2 describes an approach notification device for a vehicle that notifies pedestrians of the approach of a vehicle by controlling the operation of a fan installed in the front portion of the vehicle to generate a modulation operation sound different from the steady operation sound. Is disclosed.

International Publication No. 2017/086353 Japanese Unexamined Patent Publication No. 2012-020708

There is a demand for a position notification method that can be applied to an information processing device that does not have a speaker. However, if the fan speed is arbitrarily changed only for position notification in the information processing device, the information processing device operates. And the devices inside the housing of the information processing device may be adversely affected.

Therefore, an object of the present invention is to provide a position notification device, an information processing device, a position notification method, and a program that solve the above-mentioned problems.

According to one aspect of the present invention, the position notification device has an acquisition means for acquiring position notification start instruction information, a fan rotation speed control means for controlling the fan rotation speed, and an operation mode setting for setting an operation mode of the processor. When the rotation speed of the fan is a predetermined maximum rotation speed when the acquisition means acquires the position notification start instruction information, the operation mode setting means saves more power than the present processor. The fan rotation speed control means is set to operate in the operation mode, and the fan rotation speed control means lowers the rotation speed of the fan in response to a decrease in temperature in the device including the processor due to the change in the operation mode. When the rotation speed of the fan drops to a predetermined first rotation speed, the rotation speed of the fan is repeatedly changed within the range of the first rotation speed and the maximum rotation speed.

Further, according to another aspect of the present invention, the information processing device includes a processor, a fan, a management device, and an OS, and the management device serves as an acquisition means for acquiring position notification start instruction information. The OS includes an operation mode setting means for instructing a change of the operation mode of the processor, and an operation mode setting means for setting the operation mode of the processor. When the rotation speed of the fan when the acquisition means acquires the position notification start instruction information is a predetermined maximum rotation speed, the operation mode instruction means sets a power-saving operation mode to the processor. The operation mode setting means sets a power-saving operation mode for the processor, and the fan rotation speed control means responds to a decrease in temperature in a device including the processor due to a change in the operation mode. Then, when the rotation speed of the fan is reduced and the rotation speed of the fan is reduced to a predetermined first rotation speed, the rotation speed of the fan is repeatedly changed within the range of the first rotation speed and the maximum rotation speed.

Further, according to another aspect of the present invention, the information processing apparatus includes a processor, a fan, an OS, and management software that operates on the OS, and the management software is located on the processor. A step of acquiring notification start instruction information, a step of determining whether the rotation speed of the fan when the position notification start instruction information is acquired is a predetermined maximum rotation speed, and a step of determining whether the rotation speed of the fan is the maximum rotation speed. In this case, a step of setting a power-saving operation mode for the processor, a step of lowering the rotation speed of the fan in response to a decrease in temperature in the apparatus including the processor due to the change of the operation mode, and the above-mentioned When the rotation speed of the fan drops to a predetermined first rotation speed, the step of repeatedly changing the rotation speed of the fan within the range of the first rotation speed and the maximum rotation speed is executed .

Further, according to another aspect of the present invention, the position notification method is a position notification method executed by the position notification device, and the step of acquiring the position notification start instruction information and the position notification start instruction information are provided. A step of determining whether or not the rotation speed of the fan at the time of acquisition is a predetermined maximum rotation speed, a step of setting a power-saving operation mode in the processor when the rotation speed of the fan is the maximum rotation speed, and the above-mentioned The step of lowering the rotation speed of the fan according to the decrease in the temperature in the device including the processor due to the change of the operation mode, and when the rotation speed of the fan is reduced to a predetermined first rotation speed, the fan It has a step of repeatedly changing the rotation speed within the range of the first rotation speed and the maximum rotation speed.

Further, according to another aspect of the present invention, the program has a step of acquiring the position notification start instruction information to the computer, and the rotation speed of the fan when the position notification start instruction information is acquired is the predetermined maximum rotation speed. In a device including the processor, a step of determining whether or not the number is high, a step of setting a power-saving operation mode in the processor when the rotation speed of the fan is the maximum rotation speed, and a step of changing the operation mode. The step of lowering the rotation speed of the fan according to the decrease in temperature, and when the rotation speed of the fan is reduced to a predetermined first rotation speed, the rotation speed of the fan is changed to the first rotation speed and the maximum rotation speed. The steps to be changed repeatedly within the range of are executed.

According to the present invention, the position can be notified by changing the rotation speed of the fan.

It is the schematic of the information processing system which concerns on 1st Embodiment of this invention. It is a functional block diagram of the main part of the information processing apparatus which concerns on 1st Embodiment of this invention. It is a flowchart which shows an example of the fan control which concerns on 1st Embodiment of this invention. It is a figure which shows an example of the table used for the fan control which concerns on 1st Embodiment of this invention. It is a flowchart which shows an example of the position notification control which concerns on 1st Embodiment of this invention. It is a flowchart which shows an example of the power saving mode control which concerns on 1st Embodiment of this invention. It is a functional block diagram of the main part of the information processing apparatus which concerns on 2nd Embodiment of this invention. It is the schematic of the information processing system which concerns on 3rd Embodiment of this invention. It is a figure which shows the minimum structure of the position notification apparatus which concerns on each embodiment of this invention.

Hereinafter, a method of notifying the position according to the embodiment of the present invention will be described with reference to the drawings.
<First Embodiment>
(Configuration and function)
FIG. 1 is a schematic view of an information processing system according to the first embodiment of the present invention.
FIG. 2 is a functional block diagram of a main part of the information processing apparatus according to the first embodiment of the present invention.
As shown in FIG. 1, the information processing system 1 includes an information terminal 107 and an information processing device 108. The information terminal 107 and the information processing device 108 are each composed of a computer. The information terminal 107 and the information processing device 108 are communicably connected by wire or wireless communication.

The information terminal 107 is a device for instructing the information processing device 108 to notify the position of the information processing device 108. The information terminal 107 is, for example, a mobile terminal such as a smartphone. As shown in FIG. 2, the information terminal 107 has a position notification instruction transmitting unit 207. The position notification instruction transmission unit 207 transmits the position notification start instruction information or the position notification end instruction information to the information processing device 108 (BMC101).

The information processing device 108 includes a BMC (Base Management Controller) 101, a fan 102, a CPU (Central Processing Unit) 103, and a temperature sensor 106.

The BMC 101 is a management device composed of an LSI (Large Scale Integrated circuit) in which firmware for managing the information processing device 108 is stored. As shown in FIG. 2, the BMC 101 includes a power saving mode setting unit 201, a fan rotation speed control unit 202, and a position notification instruction receiving unit 203.

The power saving mode setting unit 201 instructs the BIOS 104 to set and cancel the power saving mode.

The fan rotation speed control unit 202 controls the rotation speed of the fan 102. The fan rotation speed control unit 202 performs different control between the normal time and the position notification control time.
In a normal state, the fan rotation speed control unit 202 acquires the temperature measured by the temperature sensor 106, and determines the rotation speed of the fan 102 based on the temperature. The fan rotation speed control unit 202 operates the fan 102 at a determined rotation speed and controls the inside of the housing to an appropriate temperature. Further, the fan rotation speed control unit 202 stores the fan rotation speed determined last time. Then, when the rotation speed changes from the rotation speed determined last time, the stored rotation speed of the fan 102 is updated.
At the time of position notification control, the fan rotation speed control unit 202 controls to change the rotation speed of the fan 102 within the range of the maximum rotation speed from the current rotation speed of the fan 102 (hereinafter, referred to as the current rotation speed). conduct. Specifically, the fan rotation speed control unit 202 raises the rotation speed of the fan 102 from the current rotation speed to the maximum rotation speed in a short time, and then increases the rotation speed of the fan 102 from the maximum rotation speed to the current state in a short time. The control of reducing the rotation speed of the fan 102 to the rotation speed is repeatedly performed. The rotation speed of the fan 102 is not stored during the position notification control. That is, the fan rotation speed control unit 202 stores the rotation speed immediately before executing the position notification control.

The position notification instruction receiving unit 203 receives the position notification start instruction information and the position notification end instruction information from the information terminal 107.

The fan 102 is a fan that cools the temperature inside the housing of the information processing apparatus 108, which rises due to the heat generated by the operation of the CPU 103 and the like.

The CPU 103 is a processor included in the information processing device 108. The BIOS (Basic Input / Output System) 104 and the OS (Operating System) 105 run on the CPU 103.

The BIOS 104 has a function of linking the BMC 101 and the OS 105. As shown in FIG. 2, the BIOS 104 has a P-state reading unit 204 and a P-state notification unit 205.
The P-state reading unit 204 reads the settable P-state value and the currently set P-state value. P-state is one of the power saving functions defined in the ACPI (Advanced Configuration and Power Interface) standard. The value of P-state that can be set varies depending on the CPU mounted on the information processing apparatus 108. Further, the value of P-state is stored in _PPC (_PPC object defined by APCI).
The P-state notification unit 205 sets the value of the P-state to _PPC. Then, the P-state notification unit 205 notifies the OS 105 of the _PPC setting change event by using the Notify command (ASL Operator) defined by ACPI.

The OS 105 has a function of controlling the operating frequency of the CPU 103. As shown in FIG. 2, the OS 105 has a P-state setting unit 206.
The P-state setting unit 206 sets the P-state set in _PPC in the BIOS 104 in the CPU 103. As a result, the operating frequency of the CPU 103 is changed.

The temperature sensor 106 measures the temperature inside the housing of the information processing device 108. The temperature sensor 106 outputs the measured temperature to the BMC 101.

When the information processing device 108 receives the position notification request from the information terminal 107, the information processing device 108 outputs a modulated sound by changing the rotation speed of the fan 102 within a short time to notify the position of the information processing device 108. First, the rotation speed control of the fan 102 in the normal state (state in which the position notification instruction information is not received) will be described.

(Normal fan speed control)
FIG. 3 is a flowchart showing an example of fan control according to the first embodiment of the present invention.
FIG. 4 is a diagram showing an example of a table used for fan control according to the first embodiment of the present invention.
The BMC 101 uses the fan rotation speed control unit 202 to repeatedly execute the following processes in a predetermined control cycle while the information processing device 108 is operating.
First, the fan rotation speed control unit 202 acquires the temperature measured by the temperature sensor 106 from the temperature sensor 106 (step S1).
Next, the fan rotation speed control unit 202 determines the rotation speed of the fan 102 according to the acquired temperature (step S2). Here, reference is made to FIG. The fan rotation speed control unit 202 has a fan operation table illustrated in FIG. The table of FIG. 4 stipulates that, for example, when the temperature is T1 (° C.) or higher and lower than T2 (° C.), the fan 102 is rotated at X1 (rpm). The fan rotation speed control unit 202 reads out the rotation speed corresponding to the temperature measured by the temperature sensor 106 with reference to the table of FIG. For example, if the temperature acquired from the temperature sensor 106 is between T2 and T3, the fan rotation speed control unit 202 reads the rotation speed X2 (rpm) from the table of FIG.
Next, the fan rotation speed control unit 202 instructs the fan 102 to rotate (step S3). In the above example, the fan rotation speed control unit 202 instructs the fan 102 to rotate at the rotation speed X2 (rpm). Further, the fan rotation speed control unit 202 stores the instructed rotation speed (step S4). As described above, in the normal control, the temperature inside the housing is constantly monitored, and the rotation speed of the fan 102 is controlled based on the fan operation table. As a result, the temperature inside the information processing apparatus 108 is maintained at a normal temperature.

(Fan rotation speed control during position notification control)
Next, control of the fan 102 when performing position notification will be described.
FIG. 5 is a flowchart showing an example of position notification control according to the first embodiment of the present invention.
The BMC 101 uses the fan rotation speed control unit 202 to control the fan rotation speed during normal operation (FIG. 3) while the information processing apparatus 108 is operating. On the other hand, the BMC 101 and the BIOS 104 execute the following processes while the information processing device 108 is operating.

Further, the user performs an operation of requesting the information processing apparatus 108 to notify the position of the information terminal 107 at a certain timing. When the user performs this operation, the position notification instruction transmission unit 207 of the information terminal 107 transmits the position notification start instruction information to the BMC 101.

First, the position notification instruction receiving unit 203 determines whether or not the position notification start instruction information has been received (step S11). When the position notification start instruction information is not received (step S11; No), the BMC 101 waits while repeating the determination in step S11. When the position notification instruction receiving unit 203 receives the position notification start instruction information (step S11; Yes), the BMC 101 starts the position notification control. First, the BMC 101 uses the fan rotation speed control unit 202 to determine whether or not the current rotation speed of the fan 102 is the maximum rotation speed (step S12). Specifically, since the fan rotation speed control unit 202 stores the rotation speed instructed to the fan 102 last time, the stored rotation speed and the predetermined maximum rotation speed (for example, X5 (rpm) in FIG. 4). ) And compare. If the rotation speed of the fan 102 is not the maximum rotation speed (step S12; No), the process proceeds to step S15, which will be described later.

When the rotation speed of the fan 102 is the maximum rotation speed (step S12; Yes), the BMC 101 uses the power saving mode setting unit 201 to instruct the BIOS 104 to set the power saving mode (step S13). The power saving mode is set because the rotation speed of the fan 102 cannot be reduced to a rotation speed lower than the maximum rotation speed as long as the CPU 103 operates at the current operating frequency, and the rotation speed of the fan 102 is changed. This is because it is not possible to output the modulated sound.

Here, the operation of the BIOS 104 will be described with reference to the flowchart of FIG.
FIG. 6 is a flowchart showing an example of power saving mode control according to the first embodiment of the present invention.
Upon receiving the power saving mode setting instruction, the BIOS 104 determines whether or not the power saving mode setting instruction has been received (step S21). In the case of this example, since the power saving mode setting instruction is received, this determination is Yes. When receiving the power saving mode instruction (step S21; Yes), the BIOS 104 uses the P-state reading unit 204 to acquire the current P-state setting value. The BIOS 104 stores the acquired value (step S22). Next, the BIOS 104 uses the P-state notification unit 205 to notify the OS 105 of, for example, the most power-saving P-state that can be set. Specifically, the P-state notification unit 205 sets the most power-saving P-state to _PPC (step S23), and notifies the change of the P-state value by Notify the set P-state value. Notify the OS 105 (step S24).

When the OS 105 receives the notification of the change of the P-state value, the OS 105 uses the P-state setting unit 206 to set the P-state. As a result, the operating frequency of the CPU 103 is lowered. When the operating frequency of the CPU 103 decreases, the amount of heat generated by the CPU 103 decreases, and the temperature inside the housing decreases. As described with reference to FIG. 3, the fan rotation speed control unit 202 has a rotation speed according to the temperature inside the housing based on the temperature measured by the temperature sensor 106 and the fan operation table illustrated in FIG. Since the fan 102 is operated, the rotation speed of the fan 102 gradually decreases from the maximum rotation speed. When the rotation speed of the fan 102 decreases, there is room for changing the rotation speed of the fan 102 between the rotation speed after the decrease and the maximum rotation speed. The BMC 101 waits until the rotation speed of the fan 102 drops by at least one step. The BMC 101 determines whether or not the rotation speed of the fan 102 has decreased to a predetermined rotation speed (step S14). During this time, the fan rotation speed control unit 202 executes the normal fan rotation speed control. For example, assuming that the maximum rotation speed is X5 (rpm) in FIG. 4, the BMC 101 waits until the rotation speed of the fan 102 drops to X4 (rpm) under the control of the fan rotation speed control unit 202.

When the rotation speed of the fan 102 drops to a predetermined rotation speed (step S14; Yes), the BMC 101 instructs the fan rotation speed control unit 202 to start the position notification control. The fan rotation speed control unit 202 repeatedly changes the rotation speed of the fan 102 in the range from the current rotation speed (last specified rotation speed, for example, X4 (rpm)) to the maximum rotation speed (X5 (rpm)). (1) Specifically, the fan rotation speed control unit 202 changes the rotation speed of the fan 102 from the current rotation speed (X4) to the maximum rotation speed (X5), and waits until the maximum rotation speed (X5) is reached. (2) When the maximum rotation speed is reached, the fan rotation speed control unit 202 changes the rotation speed of the fan 102 from the maximum rotation speed (X5) to the current rotation speed (X4) until the current rotation speed (X4) is reached. wait. The fan rotation speed control unit 202 repeats the controls of (1) and (2). As a result, the modulated sound is emitted, and the position of the information processing device 108 is notified by the modulated sound. The user can recognize the modulated sound and grasp the position of the information processing device 108.

Further, when it is determined in step S12 that the rotation speed of the fan 102 is not the maximum rotation speed (step S12; No), there is a discrepancy between the current rotation speed and the maximum rotation speed, so the position is immediately notified. You can move on to control. For example, when the current rotation speed is X3 (rpm), the BMC 101 instructs the fan rotation speed control unit 202 to start the position notification control. The fan rotation speed control unit 202 repeatedly changes the rotation speed of the fan 102 in the range from the current rotation speed X3 (rpm) to the maximum rotation speed X5 (rpm). As a result, the modulated sound is emitted, and the user is notified of the position of the information processing device 108. The fan rotation speed control unit 202 continues the fan rotation speed control at the time of position notification control until the position notification instruction receiving unit 203 receives the position notification end instruction information.

The user who hears the modulated sound and confirms the position of the information processing apparatus 108 performs an operation of requesting the information terminal 107 to end the position notification at a certain timing. When the user performs this operation, the position notification instruction transmission unit 207 of the information terminal 107 transmits the position notification end instruction information to the BMC 101. When the position notification instruction receiving unit 203 receives the position notification end instruction information (step S16: Yes), the BMC 101 instructs the fan rotation speed control unit 202 to return to the normal fan rotation speed control. The fan rotation speed control unit 202 ends the control for changing the rotation speed of the fan 102, and stores the rotation speed of the fan 102 as the stored rotation speed (the rotation of the fan last instructed before receiving the position notification start instruction). Return to (number) (step S17).

Next, the BMC 101 determines whether or not the power saving mode setting is instructed when the position notification start instruction information is received, that is, whether or not the rotation speed of the fan 102 is the maximum rotation speed when the position notification start instruction information is received. Determine (step S18). If the setting of the power saving mode is not instructed (step S18; No), this process is terminated, and the process waits while making the determination in step S11 again.

When the power saving mode setting is instructed (step S18; Yes), the BMC 101 uses the power saving mode setting unit 201 to instruct the cancellation of the power saving mode (step S19). Here, the operation of the BIOS 104 will be described again with reference to the flowchart of FIG. Upon receiving the power saving mode setting instruction, the BIOS 104 determines whether or not the power saving mode setting instruction has been received (step S21). In the case of this example, since the power saving mode release instruction has been received, this determination is No. If No, the BIOS 104 determines whether or not the power saving mode release instruction has been received (step S25). When the release instruction is received (step S25; Yes), the BIOS 104 uses the P-state notification unit 205 to set the P-state value stored before setting the power saving mode to _PPC (step). S26), the stored P-state value is notified to the OS 105 by Notify (step S27). When the OS 105 receives the notification of the change of the P-state value, the OS 105 uses the P-state setting unit 206 to set the P-state. As a result, the operating frequency of the CPU 103 returns to the frequency before the decrease.

As described above, according to the present embodiment, even in the information processing device 108 not provided with the speaker, a modulated sound is generated by changing the rotation speed of the fan 102, and the modulated sound is used to inform the user of information. The position of the processing device 108 can be notified.
Further, if the rotation speed of the fan 102 is changed while the fan 102 is operating at the maximum rotation speed, the air volume required for cooling is insufficient, so that the temperature inside the information processing device 108 becomes abnormal. According to the present embodiment, even when the fan 102 is operating at the maximum rotation speed, the power consumption and the amount of heat generated by the information processing device 108 are reduced to lower the temperature inside the information processing device 108. , Give a margin to the required air volume. Then, the modulated sound that changes periodically is output by changing the rotation speed of the fan 102.
Further, when the fan 102 is not operating at the maximum rotation speed, there is no problem in changing the rotation speed of the fan 102 in the range from the current rotation speed to the maximum rotation speed, so that the current rotation speed and the maximum rotation speed are immediately obtained. The modulated sound is output by changing the rotation speed of the fan 102 between the rotation speeds. As described above, according to the present embodiment, the position notification can be performed by using the configuration provided in the information processing apparatus 108.

In the above embodiment, the P-state is set to the most power-saving value when the fan 102 is operating at the maximum rotation speed, but the present limitation is not limited to this, and the value is higher than the present. You may set a power saving value. Further, after setting the most power-saving value in P-state, it is decided to wait until the rotation speed of the fan 102 drops by one step, but the present invention is not limited to this, and the fan may wait until it drops by two or more steps. .. Instead of waiting until the rotation speed of the fan 102 drops to a predetermined rotation speed, the temperature measured by the temperature sensor 106 may wait until the temperature drops to a predetermined temperature. Further, it was decided to set the P-state to the most power-saving value only when the fan 102 is operating at the maximum rotation speed, but even when the fan 102 is not operating at the maximum rotation speed, it is set. The P-state may be set to a value that saves more power than the current value.

<Second embodiment>
Hereinafter, the notification method according to the second embodiment of the present invention will be described with reference to FIG. 7.
In the first embodiment, when the rotation speed of the fan 102 is the maximum rotation speed, the operating frequency of the CPU 103 is lowered to create a margin in the range of the rotation speed at which the fan 102 operates. On the other hand, in the second embodiment, when the CPU 103 has a plurality of cores, power saving is achieved by stopping one or more of the cores.
Next, the configuration of the information processing apparatus according to the second embodiment will be described with reference to FIG. 7. The configuration similar to that of the first embodiment will be briefly described by omitting the illustration or adding the same reference numerals. The information processing system 1'according to the second embodiment includes an information terminal 107 and an information processing device 108'.
FIG. 7 is a functional block diagram of a main part of the information processing apparatus according to the second embodiment of the present invention.
As illustrated in FIG. 7, the information terminal 107 has a position notification instruction transmitting unit 207. The BMC 101 has a power saving mode setting unit 201, a fan rotation speed control unit 202, and a position notification instruction receiving unit 203. The BIOS 104'has a core enable / disable setting unit 208.
The core enable / disable setting unit 208 switches between enabling and disabling the core included in the CPU 103.

Next, the position notification control in the second embodiment will be described with reference to FIG. The same processing as in FIG. 5 will be briefly described with the same reference numerals.
First, the position notification instruction receiving unit 203 determines whether or not the position notification start instruction information has been received (step S11). If not received (step S11; No), the determination in step S11 is repeated. Upon receiving the position notification start instruction information (step S11; Yes), the BMC 101 uses the fan rotation speed control unit 202 to determine whether or not the current rotation speed of the fan 102 is the maximum rotation speed (step S12). .. If the rotation speed of the fan 102 is not the maximum rotation speed (step S12; No), the process proceeds to step S15, which will be described later. When the rotation speed of the fan 102 is the maximum rotation speed (step S12; Yes), the BMC 101 uses the power saving mode setting unit 201 to instruct the BIOS 104'to set the power saving mode (step S13). Upon receiving the power saving mode setting instruction, the BIOS 104'changes the number of cores used by the OS 105 to a predetermined value (a value smaller than the current number of cores) by using the core enable / disable setting unit 208. As the number of cores decreases, the amount of heat generated by the CPU 103 decreases, the temperature inside the information processing apparatus 108 ′ decreases, and the rotation speed of the fan 102 also decreases. When the rotation speed of the fan 102 drops to a predetermined rotation speed (step S14; Yes), the BMC 101 uses the fan rotation speed control unit 202 to change the rotation speed of the fan 102 from the current rotation speed to the maximum rotation speed. (Step S15). The BMC 101 continues the position notification control until it receives the position notification end instruction information. When the position notification instruction receiving unit 203 receives the position notification end instruction information (step S16: Yes), the BMC 101 uses the fan rotation speed control unit 202 to receive the rotation speed of the fan 102 and the position notification start instruction information. Return to the rotation speed before the operation (step S17). When the BMC 101 has instructed the setting of the power saving mode (step S18; Yes), the BMC 101 uses the power saving mode setting unit 201 to instruct the BIOS 104'to release the power saving mode (step S19). The BIOS 104'changes the number of cores used by the OS 105 to the original value by using the core enable / disable setting unit 208.

According to the second embodiment, when the CPU 103 includes a plurality of cores, when the position notification start instruction information is received, the number of operating cores is reduced to reduce the power consumption and heat generation amount of the information processing device 108'. .. As a result, even when the fan 102 is operating at the maximum rotation speed, the rotation speed of the fan 102 can be changed. Then, the position of the information processing device 108 can be notified to the user by outputting the modulated sound by changing the rotation speed of the fan 102 as in the first embodiment.

<Third Embodiment>
In the third embodiment, instead of the BMC 101, software (management SW305) having the same function as the BMC 101 is operated on the OS.
Hereinafter, the notification method according to the third embodiment of the present invention will be described with reference to FIG. A configuration similar to that of the first embodiment will be designated by the same reference numerals and will be briefly described.
FIG. 8 is a schematic view of an information processing system according to a third embodiment of the present invention.
As shown in FIG. 8, the information processing system 1A includes an information terminal 107 and an information processing device 301. The information terminal 107 has a position notification instruction transmitting unit 207. The information processing device 301 includes a fan 102, a CPU 302, and a temperature sensor 106. BIOS 303 and OS 304 run on the CPU 302. Further, the management SW (software) 305 is running on the OS 304. The management SW305 has the same function as the BMC101 of the first embodiment. That is, the management SW305 acquires the position notification instruction receiving function (corresponding to the position notification instruction receiving unit 203) for receiving the position notification start instruction information and the position notification end instruction information, and the temperature measured by the temperature sensor 106, and the fan 102. It has a fan rotation speed control function (corresponding to the fan rotation speed control unit 202) that controls the rotation speed of the P-state and a power saving mode setting function (corresponding to the power saving mode setting unit 201) that sets the value of P-state. is doing.

As described in FIG. 3, the fan rotation speed control function acquires the temperature measured by the temperature sensor 106 and controls the rotation speed of the fan 102 based on the fan operation table illustrated in FIG. .. Further, the fan rotation speed control function stores the rotation speed instructed to the fan 102. Further, the fan rotation speed control function controls to change the rotation speed of the fan 102 in order to generate a modulated sound at the time of position notification control.

The power saving mode setting function sets the CPU 103 to a P-state that saves more power than the current one when the fan 102 is operating at the maximum rotation speed immediately before the position notification control is performed. Further, when the power-saving P-state is set, the value of the P-state is returned to the value before the setting when the position notification control is completed. Alternatively, when the CPU 302 has a plurality of cores, the power saving mode setting function may reduce the number of cores of the CPU 302 used by the OS 304.

Next, the position notification control in the third embodiment will be described with reference to FIG. The same processing as in FIG. 5 will be briefly described with the same reference numerals.
First, the position notification instruction receiving unit 203 determines whether or not the position notification start instruction information has been received (step S11). If not received (step S11; No), the determination in step S11 is repeated. Upon receiving the position notification start instruction information (step S11; Yes), the management SW305 determines whether or not the current rotation speed of the fan 102 is the maximum rotation speed (step S12). If the rotation speed of the fan 102 is not the maximum rotation speed (step S12; No), the process proceeds to step S15, which will be described later. When the rotation speed of the fan 102 is the maximum rotation speed (step S12; Yes), the management SW305 sets the power saving mode. For example, the management SW305 stores the current P-state value set in the CPU 302, and for example, sets the most power-saving P-state value that can be set in the CPU 302 (step S13). The management SW305 waits until the rotation speed of the fan 102 drops to a predetermined rotation speed (for example, one step lower rotation speed).

When the rotation speed of the fan 102 drops to a predetermined rotation speed (step S14; Yes), the management SW305 repeatedly changes the rotation speed of the fan 102 from the current rotation speed to the maximum rotation speed for position notification (step). S15). Specifically, (1) the management SW305 changes the rotation speed of the fan 102 from the current rotation speed to the maximum rotation speed, and waits until the maximum rotation speed is reached. (2) Next, the management SW305 changes the fan from the maximum rotation speed to the current rotation speed, and waits until the current rotation speed is reached. The management SW305 repeats the controls of (1) and (2) until it receives the position notification end instruction information. Next, when the position notification instruction receiving unit 203 receives the position notification end instruction information (step S16: Yes), the management SW305 returns the rotation speed of the fan 102 to the rotation speed before receiving the position notification start instruction information (step S16: Yes). S17). Further, when the power saving mode is set in step S13 (step S18; Yes), the management SW305 instructs the cancellation of the power saving mode (step S19). The management SW305 sets the stored P-state value in the CPU 302. Then, until the next time when the position notification start instruction information is received, the management SW305 refers to the fan operation table based on the temperature measured by the temperature sensor 106, and normally adjusts the temperature inside the housing of the information processing device 301. Get the number of revolutions to keep. The management SW305 controls the fan rotation speed in a normal state in which the fan 102 is operated at the acquired rotation speed.

When the CPU 302 includes a plurality of cores, the management SW305 reduces the number of cores used by the OS 304 in step S13, and returns the number of cores used by the OS 304 in step S19 to the number before the reduction in step S13. Control may be performed.

According to the third embodiment, even in the case where the information processing device 301 is not provided with the BMC (management device), the modulated sound is output by changing the rotation speed of the fan 102, and the information processing device 301 Location notification can be performed. In the third embodiment, when the fan 102 is operating at the maximum rotation speed, the management SW305 creates a change range of the rotation speed of the fan 102 by switching the operation of the CPU 302 to the power saving mode.

FIG. 9 is a diagram showing a minimum configuration of a position notification device according to each embodiment of the present invention.
The position notification device includes at least the acquisition means 11 for acquiring the position notification start instruction information, the fan rotation speed control means 12 for controlling the fan rotation speed, and the operation mode setting means 13 for setting the operation mode of the processor. Be prepared.
In the position notification device 10, when the rotation speed of the fan is a predetermined maximum rotation speed when the acquisition means 11 acquires the position notification start instruction information, the operation mode setting means 13 is in an operation mode in which the processor is more power-saving than the present. The fan rotation speed control means 12 is set to operate, and the fan rotation speed is reduced in response to a decrease in temperature in the device including the processor due to the change in the operation mode, and the fan rotation speed is set to a predetermined number. When the number of rotations drops to one, the number of rotations of the fan is repeatedly changed within the range of the first rotation speed and the maximum rotation speed. A modulated sound is output by repeatedly changing the rotation speed of the fan within the range of the first rotation speed and the maximum rotation speed. The position notification device 10 notifies the position of its own machine by outputting a modulated sound.

In the first and second embodiments, the acquisition means 11 is the position notification instruction receiving unit 203, the fan rotation speed control means 12 is the fan rotation speed control unit 202, and the operation mode setting means 13 sets the power saving mode. Part 201. In the third embodiment, the acquisition means 11 is the position notification instruction receiving function of the management SW305, the fan rotation speed control means 12 is the fan rotation speed control function of the management SW305, and the operation mode setting means 13 is the power saving of the management SW305. This is a mode setting function.

Further, in the information processing device 301 of the third embodiment, each function of the management SW 305 is stored in the auxiliary storage device included in the information processing device 301 in the form of a program. The CPU 302 reads a program from the auxiliary storage device, expands it in the main storage device, and executes the above processing according to the program. Further, the CPU 302 secures a storage area in the main storage device according to the program. Further, the CPU 302 secures a storage area for storing the data being processed in the auxiliary storage device according to the program.

Each function is recorded by recording a program for realizing all or a part of the functions of the management SW305 on a computer-readable recording medium, reading the program recorded on the recording medium into the information processing apparatus 301, and executing the program. May be processed by. The information processing device 301 includes hardware such as an OS and peripheral devices. Further, the information processing device 301 also includes a homepage providing environment (or a display environment) if the WWW system is used. The "computer-readable recording medium" refers to a portable medium such as a CD, DVD, or USB, or a storage device such as a hard disk built in the information processing device 301. When this program is distributed to the information processing device 301 by a communication line, the distributed information processing device 301 may expand the program to the main storage device and execute the above processing. Further, the above-mentioned program may be for realizing a part of the above-mentioned functions, and further, the above-mentioned functions can be realized in combination with a program already recorded in the information processing apparatus 301. May be good.

In addition, it is possible to replace the components in the above-described embodiment with well-known components as appropriate without departing from the spirit of the present invention. Further, the technical scope of the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

1, 1'... Information processing system 101 ... BMC
102 ... Fan 103, 302 ... CPU
104, 303 ... BIOS
105, 304 ... OS
106 ・ ・ ・ Temperature sensor 107 ・ ・ ・ Information terminal 108, 301 ・ ・ ・ Information processing device 201 ・ ・ ・ Power saving mode setting unit 202 ・ ・ ・ Fan rotation speed control unit 203 ・ ・ ・ Position notification instruction receiving unit 204 ・・ ・ P-state reading unit 205 ・ ・ ・ P-state notification unit 206 ・ ・ ・ P-state setting unit 207 ・ ・ ・ Position notification instruction transmission unit 208 ・ ・ ・ Core valid / invalid setting unit 305 ・ ・ ・ Management SW
10 ... Position notification device 11 ... Acquisition means 12 ... Fan rotation speed control means 13 ... Operation mode setting means

Claims (9)

Acquisition means for acquiring location notification start instruction information,
Fan rotation speed control means that controls the rotation speed of the fan,
Operation mode setting means for setting the operation mode of the processor and
With
When the rotation speed of the fan when the acquisition means acquires the position notification start instruction information is a predetermined maximum rotation speed.
The operation mode setting means sets the processor to operate in a power-saving operation mode.
The fan rotation speed control means reduces the rotation speed of the fan in response to a decrease in temperature in the device including the processor due to the change of the operation mode, and the rotation speed of the fan is a predetermined first rotation speed. When it drops to, the rotation speed of the fan is repeatedly changed within the range of the first rotation speed and the maximum rotation speed.
Location notification device. The fan rotation speed control means sets the rotation speed of the fan as the current rotation speed and the maximum rotation speed when the rotation speed of the fan when the acquisition means acquires the position notification start instruction information is not the maximum rotation speed. Repeatedly change within the range of rotation speed,
The position notification device according to claim 1. The power-saving operation mode is an operation mode in which the operating frequency of the processor is lower than the present.
The position notification device according to claim 1 or 2. The power-saving operation mode is an operation mode in which one or more of the operating cores of the processor are stopped.
The position notification device according to claim 1 or 2. The acquisition means further acquires the position notification end instruction information, and
When the rotation speed of the fan when the acquisition means acquires the position notification start instruction information is a predetermined maximum rotation speed.
The operation mode setting means returns the operation mode of the processor to the operation mode before the setting of the power-saving operation mode.
The fan rotation speed control means operates at the rotation speed of the fan when the acquisition means acquires the position notification start instruction information.
The position notification device according to any one of claims 1 to 4. It has a processor, a fan, a management device, and an OS.
The management device is
Acquisition means for acquiring location notification start instruction information,
Fan rotation speed control means that controls the rotation speed of the fan,
An operation mode instruction means for instructing a change in the operation mode of the processor,
With
The OS is
Operation mode setting means for setting the operation mode of the processor,
With
When the rotation speed of the fan when the acquisition means acquires the position notification start instruction information is a predetermined maximum rotation speed.
The operation mode instructing means instructs the processor to set a power-saving operation mode.
The operation mode setting means sets a power-saving operation mode in the processor, and sets the operation mode.
The fan rotation speed control means reduces the rotation speed of the fan in response to a decrease in temperature in the device including the processor due to the change of the operation mode, and the rotation speed of the fan is a predetermined first rotation speed. When it drops to, the rotation speed of the fan is repeatedly changed within the range of the first rotation speed and the maximum rotation speed.
Information processing device. It includes a processor, a fan, an OS, and management software that runs on the OS.
The management software
To the processor
Steps to acquire location notification start instruction information and
A step of determining whether or not the rotation speed of the fan when the position notification start instruction information is acquired is a predetermined maximum rotation speed, and
When the rotation speed of the fan is the maximum rotation speed,
The step of setting a power-saving operation mode for the processor and
A step of lowering the rotation speed of the fan in response to a decrease in temperature in the apparatus including the processor due to the change of the operation mode.
When the rotation speed of the fan drops to a predetermined first rotation speed, the step of repeatedly changing the rotation speed of the fan within the range of the first rotation speed and the maximum rotation speed, and
To execute,
Information processing device. A location notification method performed by a location notification device.
Steps to acquire location notification start instruction information and
A step of determining whether or not the rotation speed of the fan when the position notification start instruction information is acquired is a predetermined maximum rotation speed, and
When the rotation speed of the fan is the maximum rotation speed,
Steps to set a power-saving operating mode for the processor,
A step of lowering the rotation speed of the fan in response to a decrease in temperature in the apparatus including the processor due to the change of the operation mode.
When the rotation speed of the fan drops to a predetermined first rotation speed, the step of repeatedly changing the rotation speed of the fan within the range of the first rotation speed and the maximum rotation speed, and
Location notification method with. On the computer
Steps to acquire location notification start instruction information and
A step of determining whether or not the rotation speed of the fan when the position notification start instruction information is acquired is a predetermined maximum rotation speed, and
When the rotation speed of the fan is the maximum rotation speed,
Steps to set a power-saving operating mode for the processor,
A step of lowering the rotation speed of the fan in response to a decrease in temperature in the apparatus including the processor due to the change of the operation mode.
When the rotation speed of the fan drops to a predetermined first rotation speed, the step of repeatedly changing the rotation speed of the fan within the range of the first rotation speed and the maximum rotation speed, and
A program that executes.

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