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Detection method of mobile terminal start-up time

A mobile terminal, boot time technology, applied in faulty hardware testing methods, error detection/correction, faulty computer hardware detection, etc., can solve problems such as poor accuracy, small number of time nodes, poor flexibility, etc., to improve accuracy and diversity, reduce dependence, and improve the effect of calculation accuracy

Inactive Publication Date: 2017-09-15
浙江红绿蓝纺织印染有限公司
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Problems solved by technology

[0005] However, although the above-mentioned method has certain accuracy, there are still many defects. For example, firstly, the electronic device must be connected with the test equipment to realize the test of the length of the power-on time, and the flexibility is poor; secondly, it uses the concept of time difference to estimate To measure the length of the startup time of the electronic device, the estimation method still has the problem of poor accuracy; again, due to the small number of time nodes obtained by this method, it cannot accurately obtain various parameters in the startup process of the electronic device, and only achieves different results. Too accurate power-on time measurement cannot give detailed power-on status information, and thus cannot give improvement suggestions after the test
Based on the above analysis, an accurate and efficient method for testing the power-on time of electronic devices has not been proposed in the prior art

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  • Detection method of mobile terminal start-up time

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Embodiment 1

[0021] A mobile terminal power-on time length detection method, the method comprises the following steps:

[0022] S1, loading a test script into the mobile terminal;

[0023] S2, start the mobile terminal, and record the trigger time point when the mobile terminal is turned on;

[0024] S3, recording the kernel power-on time point of the mobile terminal, the kernel startup time point, and the kernel startup end time point;

[0025] S4, recording the start time point of the kernel-associated program of the mobile terminal, and the end time point of the kernel-associated start-up;

[0026] S5, recording the startup time point of the kernel non-associated program of the mobile terminal, and the end time point of the kernel non-associated startup;

[0027] S6, according to the boot trigger time point t1, the kernel power-on time point t2, the kernel startup time point t3, the kernel startup end time point t4, the kernel associated program startup time point t5, the kernel assoc...

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Abstract

The application relates to the technical field of intelligent cell phones and especially relates to a detection method of mobile terminal start-up time. The method comprises following steps: S1. loading a test script in a mobile terminal; S2. starting up the mobile terminal and recording start-up triggering time point of the mobile terminal; S3. recording kernel power-on time point, kernel start-up time point and kernel start-up finish time point of the mobile terminal; S4. recording kernel associated program start-up time point and kernel association start-up finish time point of the mobile terminal; S5. recording kernel non-associated program start-up time point and kernel non-association start-up finish time point of the mobile terminal; S6. calculating the start-up time of the mobile terminal according to the start-up triggering time point t1, the kernel power-on time point t2, the kernel start-up time point t3, the kernel start-up finish time point t4, the kernel associated program start-up time point t5, the kernel association start-up finish time point t6, the kernel non-associated program start-up time point t7 and the kernel non-association start-up finish time point t8.

Description

technical field [0001] The present application relates to the technical field of smart phones, and in particular to a method for detecting the power-on time length of a mobile terminal. Background technique [0002] With the rapid development of technology, various portable electronic devices are used in daily life, such as smart phones and tablet computers and so on. Due to the different specifications and models of these portable electronic devices, their electronic performance, response time and start-up time are also different. Even among portable electronic devices of the same specifications and models, various electronic performance indicators will not be exactly the same due to differences in manufacturing processes. However, when the portable electronic device leaves the factory, it must go through many testing processes to ensure that the electronic performance after leaving the factory meets its specifications, and the performance quality is as consistent as pos...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F11/22G06F11/34
CPCG06F11/2273G06F11/3414
Inventor 王东红
Owner 浙江红绿蓝纺织印染有限公司
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