CN117407250B - Computer performance control system based on real-time processing of running environment - Google Patents

Computer performance control system based on real-time processing of running environment Download PDF

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CN117407250B
CN117407250B CN202311724060.3A CN202311724060A CN117407250B CN 117407250 B CN117407250 B CN 117407250B CN 202311724060 A CN202311724060 A CN 202311724060A CN 117407250 B CN117407250 B CN 117407250B
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performance
computer
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CN117407250A (en
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孙骥
徐永欣
庞艳艳
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Shanghai Faith Information Technology Co ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/30Monitoring
    • G06F11/3003Monitoring arrangements specially adapted to the computing system or computing system component being monitored
    • G06F11/302Monitoring arrangements specially adapted to the computing system or computing system component being monitored where the computing system component is a software system
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/30Monitoring
    • G06F11/3058Monitoring arrangements for monitoring environmental properties or parameters of the computing system or of the computing system component, e.g. monitoring of power, currents, temperature, humidity, position, vibrations
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/30Monitoring
    • G06F11/34Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment
    • G06F11/3466Performance evaluation by tracing or monitoring
    • G06F11/3495Performance evaluation by tracing or monitoring for systems
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F8/00Arrangements for software engineering
    • G06F8/60Software deployment
    • G06F8/65Updates
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management

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Abstract

The invention relates to the technical field of computer performance control. The invention relates to a computer performance control system based on real-time processing of an operating environment. The system comprises a performance data acquisition unit, a software classification unit, a performance self-adaptive control unit and a software updating unit; the performance data acquisition unit is used for acquiring the performance data of the computer, dividing the performance data into high load and low load, acquiring the daily operation environment data of a user using the computer, and simultaneously establishing performance state software and normal state software for the software type classification according to the high load and the low load; the software is classified through the performance data acquisition unit, the software classifying unit and the performance self-adaptive control unit, and the performance parameters of the computer are controlled to be adjusted through the starting of the monitoring software, so that the situation that a user suddenly needs to work or play when the user uses for leisure is avoided, the computer performance control cannot be carried out in real time along with the use of the user, and the use efficiency and the use quality of the computer are affected.

Description

Computer performance control system based on real-time processing of running environment
Technical Field
The invention relates to the technical field of computer performance control, in particular to a computer performance control system based on real-time processing of an operating environment.
Background
In order to ensure that the smoothness of the computer operation continuously keeps the CPU to operate under high load when a user uses the computer, but the CPU temperature can be raised after the CPU operates for a long time, and the danger of damaging components at high temperature exists, at present, all programs are uniformly subjected to high load or low load limitation according to the user setting, and cannot be subjected to targeted regulation and control according to the operating state and the program category, so that the user needs to work or play suddenly when the user is in leisure use, and the work and play need to occupy a large amount of performance of the computer, if the user is in a low load mode, the running programs are unsmooth, the use experience is poor, the computer performance control cannot be carried out along with the use of the user in real time, the use efficiency and the use quality of the computer are influenced, and in order to reduce the situation, a computer performance control system based on the real-time processing of the operating environment is proposed.
Disclosure of Invention
The invention aims to provide a computer performance control system based on real-time processing of an operating environment, so as to solve the problems in the background art.
In order to achieve the above object, a computer performance control system based on real-time processing of an operating environment is provided, which comprises a performance data acquisition unit, a software classifying unit, a performance self-adaptive control unit and a software updating unit;
the performance data acquisition unit is used for acquiring performance data of the computer, dividing the performance data into high load and low load, acquiring daily operation environment data of a user using the computer, and simultaneously establishing performance state software and normal state software for software type classification according to the high load and the low load;
the software classifying unit is used for classifying the performance state software and the normal state software of the software installed in the computer according to the daily operation environment data acquired by the performance data acquisition unit, and sending the classified performance state software and normal state software to a user for self-defining adjustment;
the performance self-adaptive control unit is used for receiving performance state software and normal state software after user feedback, monitoring the real-time running environment of the computer, and controlling the computer to improve the performance level and enter high load if the software started by the real-time running environment is the performance state software;
the software updating unit is used for collecting the lowest value of the occupied load of the normal running of the software in the performance state software when the performance level of the computer is in a high load and taking the lowest value as a software adjusting threshold value, monitoring the value of the occupied load of the normal running of the software in the normal state software when the performance level of the computer is in a low load, and reclassifying the software to the performance state software if the occupied load value exceeds the software adjusting threshold value.
As a further improvement of the technical scheme, the performance data acquisition unit is connected with the computer management end through data transmission, so that hardware indexes of the computer are acquired, CPU utilization rate, memory occupation and disk IO are acquired, and performance data of the computer and daily operation environment data of a user using the computer are acquired in real time.
As a further improvement of the technical scheme, the performance data acquisition unit takes the computer performance utilization rate reaching more than forty percent as a high load, otherwise, the computer performance utilization rate does not reach forty percent as a low load, and the performance state software and the normal state software are established by classifying the software types according to the high load and the low load.
As a further improvement of the technical scheme, the software classifying unit comprises a daily operation analysis module and a software classifying module;
the daily operation analysis module is used for carrying out daily use state analysis of a user according to daily operation environment data acquired by the performance data acquisition unit, and acquiring a software list frequently used by the user when the computer is in high load and a software list frequently used by the user when the computer is in low load;
the software classifying module is used for classifying according to the software list acquired by the daily operation analysis module, classifying the software list frequently used by the user when the computer is in high load into performance state software, and classifying the software list frequently used by the user when the computer is in low load into normal state software.
As a further improvement of the technical scheme, when the daily operation analysis module acquires the software list, if the same software is simultaneously present in the high-load software list and the low-load software list, the software is preferentially belonged to the low-load software list and is discharged from the high-load software list.
As a further improvement of the technical scheme, the software classifying unit sends the performance state software and the normal state software to a user for self-defining adjustment through a network window.
As a further improvement of the technical scheme, the performance self-adaptive control unit comprises a software list receiving module and a performance control module;
the software list receiving module is used for receiving a software list fed back after user-defined adjustment;
the performance control module is used for monitoring the real-time running environment of the computer according to the software list received by the software list receiving module, controlling the computer to increase the performance level to enter high load if the software started by the real-time running environment is monitored to be the performance state software, and controlling the computer to decrease the performance level to enter low load if the software started by the real-time running environment is monitored to be the normal state software.
As a further improvement of the technical scheme, when the performance control module controls the performance level of the computer, the performance level of the computer is controlled to be increased to enter high load when the starting performance state software and the normal state software are simultaneously generated, and the high load priority is higher than the low load.
As a further improvement of the technical scheme, the software updating unit comprises an adjustment threshold setting module and a software adjustment module;
the adjusting threshold setting module is used for collecting the lowest value of the load occupied by the normal running of the software in the performance state software and taking the lowest value as a software adjusting threshold when the performance level of the computer is in a high load;
and the software adjusting module is used for monitoring the occupied load value of the normal running of the software in the normal state software when the performance level of the computer is in a low load state, reclassifying the software to the performance state software if the occupied load value exceeds the software adjusting threshold value, otherwise, keeping monitoring continuously if the occupied load value does not exceed the software adjusting threshold value.
Compared with the prior art, the invention has the beneficial effects that:
in the computer performance control system based on the real-time processing of the running environment, the software is classified through the performance data acquisition unit, the software classifying unit and the performance self-adaptive control unit, and the starting of the monitoring software is used for controlling the performance parameters of the computer to adjust, so that the situation that a user suddenly needs to work or play when the user uses for leisure is avoided, the computer performance control cannot be carried out in real time along with the use of the user, the use efficiency and the use quality of the computer are affected, the software occupation parameters are monitored in real time through the software updating unit, the performance requirement is prevented from being increased after the software is updated, the normal operation requirement of the computer cannot be met due to low energy consumption, and the stability of the computer performance control is improved.
Drawings
Fig. 1 is a schematic diagram of the overall structure of the present invention.
The meaning of each reference sign in the figure is:
10. a performance data acquisition unit; 20. a software classifying unit; 30. a performance adaptive control unit; 40. and a software updating unit.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1, the present embodiment is directed to a computer performance control system based on real-time processing of an operating environment, which includes a performance data acquisition unit 10, a software classification unit 20, a performance adaptive control unit 30, and a software update unit 40;
the performance data acquisition unit 10 is used for acquiring performance data of a computer, and is divided into high load and low load, acquiring daily operation environment data of a user using the computer, and simultaneously establishing performance state software and normal state software for software type classification according to the high load and the low load;
specifically, the performance data acquisition unit 10 is connected with the computer management end through data transmission, so that the hardware index of the computer is obtained, the CPU utilization rate, the memory occupation and the disk IO are obtained, and the performance data of the computer and the daily operation environment data of the computer used by a user are acquired in real time. The method comprises the following steps:
data transmission connection: establishing data transmission connection between a computer management end and a target computer, and acquiring hardware indexes and running environment data of the computer by using network protocols such as SSH and HTTP;
and (3) hardware index collection: using the appropriate commands and APIs, data for hardware metrics is obtained from the target computer, such as:
CPU utilization: obtained by reading/proc/stat or using commands such as top, htop;
memory occupation: obtained by reading/proc/meminfo or using commands such as free, top;
disk IO: obtained by reading/proc/disks or using commands such as iostat, iostop;
and (3) collecting operation environment data: and continuously collecting daily operation environment data of a user using the computer on the target computer, namely obtaining daily software using operation diaries of the user, recording the collected data, and storing the data in a database or a file system of a computer management end for subsequent analysis and processing.
The performance data acquisition unit 10 takes the computer performance usage rate up to forty percent or more as a high load, whereas the computer performance usage rate does not reach forty percent as a low load, and establishes performance state software and normal state software by classifying the software types according to the high load and the low load. The method comprises the following steps:
obtaining the performance utilization rate of a computer: acquiring performance utilization rate data of the computer by monitoring performance utilization rate indexes of the computer such as CPU utilization rate and memory occupancy rate;
judging the load state: judging the load state of the computer according to the performance utilization rate data of the computer:
if the performance utilization rate reaches or exceeds 40% of the software updating unit, determining that the load is high;
if the performance utilization rate does not reach 40% of the software updating unit, determining that the load is low;
software type classification: based on the judgment result of the load state, software is classified into two types: performance state software and normal state software;
for software in a high load state, the software can be marked as performance state software;
for software in a low load state, it may be marked as normal state software.
The software classifying unit 20 is configured to classify performance state software and normal state software of software installed on the computer according to the daily operation environment data collected by the performance data collecting unit 10, and send the classified performance state software and normal state software to a user for user-defined adjustment;
the software classifying unit 20 includes a daily operation analysis module and a software classifying module;
the daily operation analysis module is used for analyzing the daily use state of the user according to the daily operation environment data acquired by the performance data acquisition unit 10, and acquiring a software list frequently used by the user when the computer is under high load and a software list frequently used by the user when the computer is under low load; the method comprises the following steps:
judging the load state: judging the load state of the computer, namely high load or low load according to the performance utilization rate data of the computer;
daily user state analysis: according to the running environment data of the computer in the high-load or low-load state, the daily use state of the user is analyzed:
for a high load state, a software list frequently used by a user in the state can be analyzed, and evaluation is carried out by counting the running time of a process and the indexes of the resource occupation condition;
for a low-load state, a software list frequently used by a user in the state can be analyzed, and evaluation is carried out by counting running time and starting frequency indexes of a process;
software list acquisition: and according to the analysis result, acquiring a software list frequently used by the user in the high-load and low-load states.
When the daily operation analysis module acquires the software list, if the same software is simultaneously present in the high-load software list and the low-load software list, the software is preferentially belonged to the low-load software list and is discharged from the high-load software list.
The software classifying module is used for classifying according to the software list acquired by the daily operation analysis module, classifying the software list frequently used by the user when the computer is in high load into the performance state software, and classifying the software list frequently used by the user when the computer is in low load into the normal state software. The method comprises the following steps:
acquiring a software list: acquiring a software list frequently used by a user in a high load state and a low load state;
judging the load state: judging the load state of the computer, namely high load or low load according to the performance utilization rate data of the computer;
software classification: classifying the software according to the load state and a software list frequently used by a user:
classifying frequently used software in a high load state as performance state software;
the software frequently used in the low load state is classified as normal state software.
The software classifying unit 20 sends the performance state software and the normal state software to the user through the network window for custom adjustment. The method comprises the following steps:
software classification: classifying the performance state software and the normal state software;
network window transmission: creating a window in a suitable interface or application for sending the software list to the user using the appropriate network communication protocols and techniques;
user adjustment: the user can carry out self-defined adjustment on the received software list according to own requirements and preferences, and the user can feed back the adjusted software list to the system through the network window so as to further process the system.
The performance adaptive control unit 30 is configured to receive the performance state software and the normal state software after the user feedback, monitor the real-time running environment of the computer, and if it is monitored that the software started in the real-time running environment is the performance state software, control the computer to increase the performance level to enter a high load;
the performance adaptive control unit 30 includes a software list receiving module and a performance control module;
the software list receiving module is used for receiving a software list fed back after user-defined adjustment;
the performance control module is used for monitoring the real-time running environment of the computer according to the software list received by the software list receiving module, controlling the computer to increase the performance level to enter high load if the software started by the real-time running environment is monitored to be the performance state software, and controlling the computer to decrease the performance level to enter low load if the software started by the real-time running environment is monitored to be the normal state software. The method comprises the following steps:
monitoring a real-time running environment: monitoring the running environment of a computer in real time, wherein the running environment comprises running software, running state, load condition and the like;
judging the type of software: judging whether the software belongs to performance state software or normal state software according to the monitored running software in the real-time environment;
performance level control: and if the monitored software running in the real-time environment is normal state software, controlling the computer to reduce the performance level and enter a low-load state.
When the performance control module controls the performance level of the computer, when the performance state software and the normal state software are started simultaneously, the high load priority is higher than the low load, and the performance level of the computer is controlled to be increased to enter the high load.
The software updating unit 40 is configured to collect a minimum value of an occupied load of the normal running software in the performance state software when the performance level of the computer is under a high load, and use the minimum value as a software adjustment threshold value, monitor the value of the occupied load of the normal running software in the normal state software when the performance level of the computer is under a low load, and reclassify the software to the performance state software if the occupied load value exceeds the software adjustment threshold value.
The software updating unit 40 includes an adjustment threshold setting module and a software adjustment module;
the adjusting threshold setting module is used for collecting the lowest value of the load occupied by the normal running of the software in the performance state software and taking the lowest value as a software adjusting threshold when the performance level of the computer is in a high load; the method comprises the following steps:
load threshold setting: in the performance state software and the normal state software, load thresholds are respectively set for judging the load condition of the software;
and (3) collecting the load minimum value in the performance state software: when the performance level of the computer is in high load, load monitoring is carried out on all software in the performance state software, the lowest load value in the performance state software is collected to be used as a software adjustment threshold value, indexes such as CPU occupancy rate, memory occupancy rate and the like can be monitored, and the load value of the software with the lowest load is selected to be used as the threshold value.
And the software regulating module is used for monitoring the occupied load value of the normal running of the software in the normal state software when the performance level of the computer is in a low load state, reclassifying the software to the performance state software if the occupied load value exceeds the software regulating threshold value, otherwise, keeping monitoring continuously if the occupied load value does not exceed the software regulating threshold value. The method comprises the following steps:
load monitoring in normal state software: when the performance level of the computer is in low load, carrying out load monitoring on the software in the normal state software, monitoring the load value of each software, and comparing the load value with a software regulation threshold value;
software adjustment: and if the load value of a piece of normal state software exceeds the software regulation threshold value, reclassifying the piece of normal state software to the performance state software, otherwise, if the load value does not exceed the software regulation threshold value, keeping monitoring the piece of normal state software.
The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and their equivalents.

Claims (7)

1. The computer performance control system based on the real-time processing of the operating environment is characterized in that: the system comprises a performance data acquisition unit (10), a software classification unit (20), a performance self-adaptive control unit (30) and a software updating unit (40);
the performance data acquisition unit (10) is used for acquiring performance data of a computer, dividing the performance data into high load and low load, acquiring daily operation environment data of a user using the computer, and simultaneously establishing performance state software and normal state software for software type classification according to the high load and the low load;
the software classifying unit (20) is used for classifying the performance state software and the normal state software of the software installed in the computer according to the daily operation environment data acquired by the performance data acquisition unit (10), and sending the classified performance state software and normal state software to a user for self-defining adjustment;
the performance self-adaptive control unit (30) is used for receiving performance state software and normal state software after user feedback, monitoring the real-time running environment of the computer, and controlling the computer to improve the performance level and enter high load if the software started by the real-time running environment is the performance state software;
the software updating unit (40) is used for collecting the lowest value of the occupied load of the normal running of the software in the performance state software and taking the lowest value as a software adjustment threshold when the performance level of the computer is in a high load, monitoring the value of the occupied load of the normal running of the software in the normal state software when the performance level of the computer is in a low load, and reclassifying the software to the performance state software if the occupied load value exceeds the software adjustment threshold;
the performance data acquisition unit (10) takes the computer performance utilization rate reaching more than forty percent as high load, otherwise, the computer performance utilization rate does not reach forty percent as low load, and establishes performance state software and normal state software by classifying the software types according to the high load and the low load;
the software classifying unit (20) comprises a daily operation analysis module and a software classifying module;
the daily operation analysis module is used for carrying out daily use state analysis of a user according to daily operation environment data acquired by the performance data acquisition unit (10) to acquire a software list frequently used by the user when the computer is under high load and a software list frequently used by the user when the computer is under low load;
the software classifying module is used for classifying according to the software list acquired by the daily operation analysis module, classifying the software list frequently used by the user when the computer is in high load into performance state software, and classifying the software list frequently used by the user when the computer is in low load into normal state software.
2. The computer performance control system based on real-time processing of an operating environment according to claim 1, wherein: the performance data acquisition unit (10) is connected with the computer management end through data transmission, so that the hardware index of the computer is obtained, and the performance data of the computer and the daily operation environment data of a user using the computer are acquired in real time.
3. The computer performance control system based on real-time processing of an operating environment according to claim 1, wherein: when the daily operation analysis module acquires the software list, if the same software is simultaneously present in the high-load software list and the low-load software list, the software is preferentially belonged to the low-load software list and is discharged from the high-load software list.
4. The computer performance control system based on real-time processing of an operating environment according to claim 1, wherein: and the software classifying unit (20) sends the performance state software and the normal state software to a user through a network window for self-defining adjustment.
5. The computer performance control system based on real-time processing of an operating environment according to claim 1, wherein: the performance adaptive control unit (30) comprises a software list receiving module and a performance control module;
the software list receiving module is used for receiving a software list fed back after user-defined adjustment;
the performance control module is used for monitoring the real-time running environment of the computer according to the software list received by the software list receiving module, controlling the computer to increase the performance level to enter high load if the software started by the real-time running environment is monitored to be the performance state software, and controlling the computer to decrease the performance level to enter low load if the software started by the real-time running environment is monitored to be the normal state software.
6. The computer performance control system based on real-time processing of an operating environment according to claim 5, wherein: when the performance control module controls the performance level of the computer, when the performance state software and the normal state software are started simultaneously, the high load priority is higher than the low load, and the performance level of the computer is controlled to be increased to enter the high load.
7. The computer performance control system based on real-time processing of an operating environment according to claim 6, wherein: the software updating unit (40) comprises an adjustment threshold setting module and a software adjustment module;
the adjusting threshold setting module is used for collecting the lowest value of the load occupied by the normal running of the software in the performance state software and taking the lowest value as a software adjusting threshold when the performance level of the computer is in a high load;
and the software adjusting module is used for monitoring the occupied load value of the normal running of the software in the normal state software when the performance level of the computer is in a low load state, reclassifying the software to the performance state software if the occupied load value exceeds the software adjusting threshold value, otherwise, keeping monitoring continuously if the occupied load value does not exceed the software adjusting threshold value.
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