KR100934243B1 - How to control CIFIL clock frequency in portable electronic devices - Google Patents

Abstract

The present invention relates to a method for controlling a CIF clock frequency in a portable electronic device, wherein a CUI clock frequency value for application programs included in a portable electronic device such as a personal digital assistant (PDA) is transmitted through a user interface. In addition to registering and storing changes, any currently running application program is checked through an interface with OS, and then variably controlled by a user-defined CPI clock clock to suit the application program. The user can register and change the CPI clock frequency suitable for the application programs included in the program, and the CFI clock frequency optimal for the application program running on the portable computer is automatically variably adjusted, thereby reducing the power of the battery. Reduce consumption At the same time, it is a very useful invention to be able to maintain optimal CPI performance.

Description

Method for controlling CC clock frequency in portable electronic devices {Method for controling CPU clock frequency}             

1 conceptually illustrates a configuration of a portable electronic device to which a CPI clock frequency control method according to the present invention is applied;

FIG. 2 illustrates an embodiment of CUI clock control information stored and managed by a CUI clock frequency control method according to the present invention.

3 is a flowchart illustrating a method for controlling a CIF clock frequency in a portable electronic device according to the present invention.

※ Explanation of code for main part of drawing

10: C. Feu 11: OS

20: clock generator 30: CPI clock control program

40 ₁ ~40 _k: an application program

The present invention relates to a CPI in a portable electronic device for variably adjusting the clock frequency of CPI fluid to a CIF clock frequency arbitrarily set by a user so as to be suitable for an application program currently being executed. It relates to a clock frequency control method.

Recently, various portable electronic devices such as personal digital assistants (PDAs) have been developed and released and are commercially available. Since the portable electronic devices typically use battery power, a limited amount of battery power can be used for a longer time. There are a number of ways to make this happen.

For example, when the battery voltage falls below a predetermined reference voltage, the personal information terminal forcibly lowers the clock frequency applied to the CPU, thereby reducing power consumed by the CPU.

On the other hand, forcibly lowering the clock frequency of CPI as described above, the performance of CPI is degraded. In case of 'Wmplayer.exe' corresponding to the (Movie) process, normal operation cannot be performed.                         

In addition, even if the clock frequency of the forcibly downed Ciuille is 120 MHz, for example, the currently running application program is 100 MHz Ciuille clock frequency, 'ebookView.exe' corresponds to an e-book process. Is unnecessary, the clock frequency of CPI is set unnecessarily high by 20 MHz, resulting in waste of battery power.

Accordingly, in the portable electronic devices such as the personal digital assistant, there is a need for a solution for suppressing waste of battery power while maintaining the performance of the CAPI oil which is optimal for the currently executing application program. There is no effective solution.

The present invention was created in view of the above circumstances, and allows a user to arbitrarily set a CIF clock frequency for application programs included in a portable electronic device such as a personal digital assistant (PDA) and the like. SUMMARY OF THE INVENTION It is an object of the present invention to provide a method for controlling the CIF clock frequency in a portable electronic device to reduce the power consumption of the CMP and to maintain an optimum CPI performance.

According to an aspect of the present invention, a method of controlling CPI clock frequency in a portable electronic device includes registering and changing a CPI clock frequency value for application programs included in the portable electronic device through a user interface. Stage 1; A step (2) of identifying any one of the application programs currently being executed through an interface with an OS; And three steps of searching and reading the CPI clock frequency value corresponding to the identified application program to variably control the CFI clock clock frequency.

Hereinafter, a preferred embodiment of a CPI clock frequency control method in a portable electronic device according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 conceptually illustrates a configuration of a portable electronic device to which the CPI clock frequency control method according to the present invention is applied. For example, in a portable computer such as a personal information terminal, a CPI 10 and an OS 11 may be used. The clock generator 20, the CPI clock control program 30, and a plurality of application programs 40 ₁ to 40 _k are provided.

On the other hand, the CPI clock control program 30, through the interface with the user, any CSI clock frequency values corresponding to the respective application programs, in association with the corresponding application program names, CPU clock control information (CPU Clock Control Information storage).

For example, as illustrated in FIG. 3, the CPI clock control program 30 includes a program 'Wmplayer.exe', which is a video process requiring high performance of CPI, and a CSI clock frequency set by a user (User_Set_CPU Clock Frequency). ) It connects '400 MHz', 'Wmplayer.exe' program, which is a document creation process that requires CPI's general performance, and CPI clock frequency '200 MHz' set by the user.

In addition, eBookView, an e-book viewing process that demands CPI's low performance, is required. exe 'program and the user-defined CPI clock frequency' 100 MHz 'are stored and managed as CSI clock control information.

In addition, the CPI clock control program 30 checks an application program currently being executed through an interface with the OS 11, and then reads a CPI clock frequency set by the user optimally for the application program. The CCL clock frequency control (CPU CLK Freq_CTL) signal is output to the clock generator 20.

Accordingly, the clock generator 20 variably adjusts the clock frequency applied to the CPI 10 so as to efficiently reduce the power of the battery consumed by the CPI, while maintaining optimal CPI performance. This will be described in detail below.

FIG. 3 is a flowchart illustrating a method of controlling a CPI clock frequency in a portable electronic device according to the present invention. As described above, in a portable electronic device such as a personal information terminal, the CPI is booted and the system is booted. The clock control program 30 is driven (S10).

On the other hand, in the CPI clock control program 30, when a change setting or an additional setting mode of the CPI clock control information stored and managed as described above with reference to FIG. 2 is required through an interface with a user (S11), Performs a series of operations to register or change the CPI clock control information by associating the name of the application program designated by the user with the CPI clock frequency value optimal for the application program through an ordinary OSD menu screen. It is made (S12).

In the CPI clock control program 30, after confirming an application program currently being executed through an interface with the OS (S13), the CPI clock frequency value for the identified application program is determined by the CPI clock. It is checked whether or not it is stored and managed as the control information (S14).

In addition, if the CPI clock frequency value is stored and managed as the CPI clock control information in the currently executing application program, the CPI clock frequency value is read, and the corresponding CPI clock frequency control (CPU) is read. CLK Freq_CTL) signal is output to the clock generator 20.

Accordingly, the clock generator 20 variably adjusts the clock frequency applied to the CPI 10. For example, in the CPI clock control program 30, an application program currently being executed is' Wmplayer.exe 'program and the user-defined CPI clock frequency is' 400 MHz', the corresponding CPI clock frequency control (CPU CLK Freq_CTL) signal is output to the clock generator 20, so that CPI is high performance. By doing so, the video process can be performed normally.

On the other hand, if the application program currently being executed is the 'ebookView.exe' program and the CPI clock frequency set by the user is '100 MHz', a corresponding CCL clock frequency control (CPU CLK Freq_CTL) signal is generated. Output to 20 reduces the CPI performance, thereby preventing unnecessary waste of battery power.

Meanwhile, in the CPI clock control program 30, the interface operation with the OS is repeated at a predetermined time t period to detect whether the application program is stopped (S16). When the execution is stopped, the control is variably controlled at a predetermined specific CSI clock frequency (S17), and whether or not the system is terminated is monitored (S18).

On the other hand, if the application program is still running, the CSI clock frequency is maintained as it is, and if a new application program is executed, the above-described series of operations are repeated to suit the application program. Variable control is performed at the CIF clock frequency set by.

In addition, if the CPI clock frequency value set by the user is not stored separately according to the application program, the control is variably controlled to a predetermined CPI clock frequency. The preset CIF clock frequency value is a battery. Rather than saving power, it may be stored in the process of manufacturing a portable electronic device at a fixed specific value that may maintain stable performance of the CPI, or may be stored by the user.

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

According to the present invention, the CUI clock frequency control method of a portable electronic device according to the present invention comprises a CUI clock frequency value for application programs included in a portable electronic device such as a personal digital assistant (PDA). In addition to registering and storing changes, the application program can be checked by using an interface with OS, and then variably controlled by a user-defined CPI clock frequency according to the application program. The user can register and change the CPI clock frequency appropriate to the application programs provided in the electronic device, and the CFI clock frequency optimal for the application program running on the portable computer can be automatically variably adjusted. Of At the same time as reducing the power consumption, would be very useful inventors that optimal performance ssipiyu able to be maintained.

Claims (4)

Registering and modifying and storing the CIF clock frequency values of the application programs included in the portable electronic device through a user interface; A step (2) of identifying any one of the application programs currently being executed through an interface with an OS; And And searching for and reading the CPI clock frequency value corresponding to the identified application program, and controlling the clock frequency of the CPI fluid in a variable manner. 3. The method of claim 1, In the portable electronic device, if the CPI clock frequency value for the identified application program is not stored, the CIF clock frequency value is variably controlled. How to control CPI clock clock frequency. The method of claim 1, When the application program is suspended, the method further comprises variable control to the clock frequency of the CAPI oil corresponding to the newly executed application program, or variable control of the clock frequency of the CAPI oil to a fixed CPI clock frequency value CIFIL clock frequency control method in a portable electronic device, characterized in that. The method of claim 1, The CPI clock frequency control operation is performed by a CAPI clock clock control program included in a portable computer, and the CPI clock clock program stores and manages an application program name in association with a CPI clock frequency value set by a user. CIFIL clock frequency control method in portable electronic device.

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