CN101281486A - System Environment Monitoring Method - Google Patents

Abstract

The present invention discloses a method for monitoring a system environment. The method can dynamically adjust the interval between each monitoring of the system environment. When the system environment is normal, the interval between each acquisition of environmental monitoring information is lengthened; when the system environment is abnormal, the interval is shortened. Therefore, once an error or abnormality occurs in the system environment, the user can be immediately alerted and complete monitoring information can be provided, making the monitoring of the system environment and system execution more efficient.

Description

System Environment Monitoring Method

technical field

The present invention relates to a system environment monitoring method, and in particular to a system environment monitoring method which dynamically adjusts the monitoring time when the system environment is abnormal.

Background technique

In the current development trend of science and technology, in order to improve the working efficiency of the computer system, the clock speed of electronic components is continuously increased. As we all know, the temperature of electronic components will increase when the circuit is running, especially when the computing speed is higher, the heating will be more serious. In addition, because the working temperature is too high, the electronic components may malfunction or even burn out. Therefore, a fan is usually installed inside the system to discharge waste heat and reduce the temperature.

However, when the system cannot effectively dissipate heat, the electronic components inside the system will be damaged. At this time, it is necessary to use the monitoring program to monitor the system environment, so as to know the operating status of the system at any time and ensure the stability of the system. For example, through the monitoring program, it can be known that when the fan speed has reached the maximum speed and the temperature continues to rise, the user can cool down the system in a timely manner; or the fan is overused and begins to age, making the fan speed decrease , at this time the user may need to replace the fan.

Currently, most of the monitoring programs on the market set a fixed time to monitor the system environment, so as to obtain environmental monitoring information (for example, temperature or fan speed). Generally, users want the monitoring time to be as short as possible, so that when a problem occurs in the system, the environmental monitoring information can be obtained immediately, and follow-up maintenance work can be carried out immediately. However, monitoring the system environment too frequently will cause a burden on the system and reduce the efficiency of system execution. On the contrary, if the monitoring time is too long, it is impossible to know the information immediately when the system is abnormal. Therefore, how to strike a balance between the two is a very important issue.

Contents of the invention

The invention provides a method for monitoring the system environment. When the system environment is abnormal, the monitoring time is shortened, so that when the abnormality occurs, the latest environment monitoring information can be grasped immediately and the user can be prompted.

The present invention proposes a system environment monitoring method. Firstly, the environment monitoring information is captured every first time interval. Next, each time the environmental monitoring information is obtained, it is determined whether the environmental monitoring information is abnormal. When the environmental monitoring information is abnormal, the environmental monitoring information is retrieved every second time interval instead, wherein the length of the second time is shorter than the first time.

In an embodiment of the present invention, the step of judging whether the environmental monitoring information is abnormal further includes judging whether the environmental monitoring information exceeds a preset monitoring range. When the environmental monitoring information exceeds the preset monitoring range, the environmental monitoring information is captured every second time instead.

In an embodiment of the present invention, the step of judging whether the environmental monitoring information is abnormal further includes judging whether the environmental monitoring information exceeds a critical value. When the environmental monitoring information exceeds the critical value, a warning message will be prompted. And warning information such as sound information or light signal information.

In an embodiment of the present invention, each time the environmental monitoring information is obtained, the above-mentioned further includes recording the environmental monitoring information and displaying the recorded environmental monitoring information.

When the system environment is abnormal, the present invention dynamically adjusts the time for monitoring the system environment to monitor the system environment more frequently, so that once a problem occurs, prompts can be obtained quickly. In this way, it will be more efficient in monitoring the system environment and system execution, and will not increase the burden on the system.

In order to make the above-mentioned features and advantages of the present invention more comprehensible, preferred embodiments are specifically cited below and described in detail with accompanying drawings.

Description of drawings

FIG. 1 is a flowchart of a method for monitoring a system environment according to an embodiment of the present invention.

FIG. 2 is a flowchart of a method for monitoring a system environment according to another embodiment of the present invention.

Detailed ways

The general monitoring program mostly monitors the temperature or the fan speed, and there are certain methods to follow when the temperature or the fan speed is abnormal. For example, the temperature will not rise to a critical value immediately, or the fan speed will not stop immediately. Therefore, the part that users are most concerned about is the state when an exception occurs. The present invention can shorten the interval time of monitoring once an abnormality occurs in the system environment, so as to quickly obtain a prompt when an abnormality occurs. In order to make the content of the present invention clearer, the following specific examples are given as examples in which the present invention can actually be implemented.

FIG. 1 is a flowchart of a method for monitoring a system environment according to an embodiment of the present invention. Please refer to FIG. 1 , firstly, in step S101 , environment monitoring information (such as temperature and fan speed, etc.) is retrieved after every first time interval. Wherein, since the system can operate normally under normal circumstances, when acquiring environmental monitoring information, the length of the first interval between each monitoring may not be set too frequently. In other words, in this embodiment, under normal circumstances, the interval for each monitoring of environmental monitoring information is lengthened to avoid additional burden on the system.

Next, step S102 is to determine whether the environmental monitoring information is abnormal each time the environmental monitoring information is acquired. Moreover, after obtaining the environmental monitoring information each time, the environmental monitoring information is recorded so that the user can grasp the state of the system environment.

When the environmental monitoring information is abnormal, step S103 is executed to retrieve the environmental monitoring information every second time interval, wherein the length of the second time is shorter than the first time. In other words, if the environment monitoring information is abnormal, the first time is shortened so that the system environment can be monitored more frequently.

On the contrary, when there is no abnormality in the environmental monitoring information, step S101 is executed to keep capturing the environmental monitoring information every first time interval. Step S103 is not executed until the environmental monitoring information is abnormal. However, in this embodiment, the recorded environmental monitoring information can also be displayed. For example, when the user wants to know the previously captured environmental monitoring information, he can issue an instruction to list the recorded environmental monitoring information for investigation; or, when the system environment is abnormal, it will actively display the recorded environment monitoring information. The recorded environmental monitoring information can also be transmitted to a remote computer through the network.

In addition, when an abnormality is detected in the system environment, if the captured environmental monitoring information returns to normal, the monitoring interval can be restored to be captured every first time to reduce the system load.

In this embodiment, steps S101 to S103 may also be executed repeatedly to monitor the system environment. When it is judged that the environment monitoring information is abnormal, the original monitoring interval of the system environment is shortened, and the system environment is continued to be monitored at the shortened interval. If the system environment is monitored at a shortened interval, and if the captured environmental monitoring information is closer to the critical value than the one captured last time (that is, if this value is exceeded, the system may be damaged, etc.), The interval between monitoring the system environment can then be shortened again for more intensive monitoring.

For example, if it is initially set to capture environmental monitoring information every 1 minute, when an abnormality is detected in the system, it will be changed to capture every 30 seconds. If it is detected that the system continues to experience abnormalities (for example, it is getting closer and closer to the critical value), continue to shorten the monitoring sampling interval and change it to capture once every 15 seconds; if the detected environmental monitoring information is the same as the last time, it will continue to Fetch every 30 seconds, and so on.

From the above, it can be seen that in this embodiment, the interval time for capturing environmental monitoring information can be dynamically adjusted, and the monitoring can be performed more frequently when it is closer to the critical value. However, those skilled in the art can implement the present invention in various types.

Another embodiment will be described in detail below. FIG. 2 is a flowchart of a method for monitoring a system environment according to another embodiment of the present invention. Please refer to FIG. 2 , first, step S201 is to set the interval time for monitoring the system environment. Next, in step S202, the environmental monitoring information is retrieved and recorded. Then, steps S203-S205 are steps for judging whether the system environment is abnormal, which are listed as follows.

Step S203 is to determine whether the environmental monitoring information exceeds a critical value. When the environmental monitoring information exceeds the critical value, step S204 is executed to prompt warning information (such as sound information or light signal information). And the interval time for monitoring the system environment initially set in step S201 is restored. In other words, if the environmental monitoring information exceeds the critical value, it means that the system environment is beyond the load and needs to be repaired. At this time, for example, a "beep" can be issued to remind the user that the temperature or the fan speed has exceeded a critical value.

When the environmental monitoring information exceeds the critical value, the user does not need to monitor too frequently because the warning information has been prompted to the user, and the monitoring time is restored to the originally set interval time. Next, proceed to step S207, wait for a previously set interval time, and then continue to execute step S202 to retrieve the environmental monitoring information.

On the other hand, when the environmental monitoring information does not exceed the critical value, step S205 is executed to determine whether the environmental monitoring information exceeds the preset monitoring range. If it exceeds the preset monitoring range, step S206 is executed to shorten the previously set monitoring interval of the system environment so as to monitor the system environment more frequently. Next, step S207 waits for an interval before monitoring the system environment next time, and then continues to execute step S202 to retrieve the environment monitoring information.

If the environment monitoring information is within the preset monitoring range, it means that the system environment is in a normal state, and there is no need to shorten the interval time for monitoring the system environment, and step S207 is executed. After waiting for a period of time, continue to execute step S202 to capture environment monitoring information, so as to continuously monitor the system environment.

In terms of the temperature of the system environment, when the temperature exceeds the preset temperature range, it may be because the amount of data processed by the system is increasing, and the cooling speed of the fan cannot keep up with the heating speed. At this time, an abnormality in the system will be detected, and the interval for monitoring the system environment will be shortened. And if the temperature exceeds the critical value of temperature, the internal electronic components may be damaged, and a warning message will be prompted immediately at this moment.

For example, suppose the system environment is set to run stably within 30-50 degrees Celsius (the preset temperature range), but if it is higher than 60 degrees Celsius (ie, the critical value), the system may have problems in operation . Assume that you first set the temperature to be captured once every minute. If the detected temperature is within 50 degrees Celsius, it will continue to capture once every 1 minute. If it is detected that the temperature exceeds 60 degrees Celsius, the system operation state is extremely unstable at this time, so a warning message is prompted to notify the user. If it is detected that the temperature exceeds 50 degrees Celsius but does not exceed 60 degrees Celsius, it can be changed to capture once every 30 seconds (or a shorter interval). In addition, if the temperature detected in the following monitoring process continues to approach 60 degrees Celsius, the interval time for capturing the temperature can be continuously shortened.

On the other hand, in terms of fan speed. If the rotation speed of the fan is within the preset rotation speed range, it means that the fan can perform the heat removal action normally at this time. And if the speed of the fan is lower than the preset speed range, it may be because the fan is too old, making its speed slower and slower. At this time, an abnormality in the system is also detected. And if the fan speed is lower than the critical value of the speed, it may be because the fan has been used for a long time and gradually becomes insensitive. At this time, a warning message is displayed to notify the user.

For example, assuming that the fan speed ranges from 2000 to 4000 rpm, when the fan speed is lower than 500 rpm, it is the critical value for the fan to be eliminated. If the captured fan speed is lower than 2000 rpm and higher than 500 rpm, then the interval for monitoring the system environment is shortened. If the captured fan speed is lower than 500 rpm, a warning message will be displayed.

In summary, the system environment monitoring method of the present invention has at least the following advantages:

1. When the system environment is abnormal, the monitoring interval is shortened to intensively monitor the system environment, so that users can quickly obtain detailed monitoring information and perform maintenance actions.

2. Dynamically adjust the interval time of the monitoring system environment, reduce the monitoring frequency when the operation is normal, and increase the monitoring frequency when the operation is abnormal, making the monitoring system environment and system execution more efficient.

Although the present invention has been disclosed above with a preferred embodiment, it is not intended to limit the present invention. Anyone with ordinary knowledge in the technical field may make some changes and modifications without departing from the spirit and scope of the present invention. Therefore, the scope of protection of the present invention should be defined by the claims.

Claims (10)

1. the method for supervising of a system environments comprises:

One very first time of every interval captures an environmental monitoring information;

When obtaining this environmental monitoring information, judge whether this environmental monitoring information takes place unusually at every turn; And

When this environmental monitoring information takes place when unusual, then change one second time of every interval into to capture this environmental monitoring information, wherein the length of this second time is less than this very first time.

2. the method for supervising of the system as claimed in claim 1 environment is characterized in that, also comprises:

When this environmental monitoring information does not take place then to keep every interval and should capture this environmental monitoring information the very first time when unusual.

3. the method for supervising of the system as claimed in claim 1 environment is characterized in that, judges that whether this environmental monitoring information unusual step takes place, and also comprises:

Judge whether this environmental monitoring information exceeds a default monitoring range.

4. the method for supervising of system environments as claimed in claim 3 is characterized in that, when this environmental monitoring information takes place then to change the step that this second time of every interval captures this environmental monitoring information into when unusual, also comprises:

When this environmental monitoring information exceeds this default monitoring range, then change this second time of every interval into to capture this environmental monitoring information.

5. the method for supervising of the system as claimed in claim 1 environment is characterized in that, judges that whether this environmental monitoring information unusual step takes place, and also comprises:

Judge whether this environmental monitoring information exceeds a critical value; And

When this environmental monitoring information exceeds this critical value, then point out an information warning.

6. the method for supervising of system environments as claimed in claim 5 is characterized in that, when this environmental monitoring information exceeds this critical value, then points out the step of this information warning, also comprises:

Recover every interval and should capture this environmental monitoring information the very first time.

7. the method for supervising of system environments as claimed in claim 5 is characterized in that, this information warning comprise acoustic information and cresset information one of them.

8. the method for supervising of the system as claimed in claim 1 environment is characterized in that, this environmental monitoring information comprises temperature and rotation speed of the fan.

9. the method for supervising of the system as claimed in claim 1 environment is characterized in that, when obtaining this environmental monitoring information, also comprises at every turn:

Write down this environmental monitoring information.

10. the method for supervising of system environments as claimed in claim 9 is characterized in that, also comprises:

Show those environmental monitoring information that write down.

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