CN112000530B - System and method for detecting performance of multiple hard disks - Google Patents

Abstract

The application discloses a system and a method for detecting the performance of a plurality of hard disks, wherein the system comprises: control host computer and control cabinet, include in the control cabinet: the testing device comprises a control motor, a power supply control module, a testing host placing platform and a hard disk jig platform, wherein a male connector is connected with a female connector through a hard disk cable, and the power supply control module is connected with the testing host through a power supply cable. The method comprises the following steps: collecting and storing test parameters and test scripts, sending a test command to a control motor, controlling the motor to move a test host placing platform to a specified position, controlling the test host to start and shut down through a power supply control module, judging whether the test host is located at the position of the last hard disk after a hard disk is tested, if so, generating a detection report, and otherwise, continuously detecting the next hard disk. Through the method and the device, automatic detection of the performance of the hard disk can be realized, and therefore detection efficiency is improved.

Description

System and method for detecting performance of multiple hard disks

Technical Field

The present application relates to the technical field of server performance testing, and in particular, to a system and method for detecting performance of multiple hard disks.

Background

In the signal verification stage of the server and NB (Notebook) project, performance analysis and compatibility comparison are usually required to be performed on the hard disks of multiple different manufacturers, that is, performance detection is required to be performed on multiple different hard disks, and the number of hard disks tested at one time is usually 10 to 20.

At present, a method for detecting the performance of a plurality of hard disks usually adopts a manual mode to detect the performance of different hard disks one by one. Specifically, each hard disk is manually detected one by one, and finally, performance detection results of all current hard disks are obtained. And after the detection is finished, manually replacing the other hard disk, and finally, manually finishing the detection result.

However, in the current method for detecting the performance of a plurality of hard disks, because a manual detection mode is adopted, more manpower is needed, and the test time course is longer, so that the detection efficiency is lower.

Disclosure of Invention

The application provides a system and a method for detecting performances of a plurality of hard disks, which aim to solve the problem of low efficiency of detecting the performances of the hard disks in the prior art.

In order to solve the technical problem, the embodiment of the application discloses the following technical scheme:

a system for detecting performance of a plurality of hard disks, the system comprising: control host computer and control cabinet, control host computer and control cabinet communication connection, including in the control cabinet: the test system comprises a control motor, a power supply control module, a test host placement platform and a hard disk jig platform, wherein the test host placement platform is used for placing the test host, the hard disk jig platform is used for fixing any hard disk, a male hard disk connector is arranged on the test host, a female hard disk connector is arranged on the hard disk jig platform, the male connector is connected with the female hard disk connector through a hard disk cable, and the power supply control module is connected with the test host through a power supply cable;

the control host is used for storing test parameters and test scripts, sending test commands to the control cabinet according to the test parameters and the test scripts, obtaining hard disk execution results, and generating detection reports according to the execution results, wherein the test parameters comprise: project names, hard disk information, hard disk quantity and data storage paths;

the control motor is used for driving the test host placing platform to move and controlling the male hard disk connector to be jointed with the female hard disk connector;

the power supply control module is used for controlling a power supply switch on the test host through a GPIO (Basic Input Output System) interface;

and the test host is used for executing the test script according to the command of the control host.

Optionally, the control motor comprises: an X-axis control motor and a Z-axis control motor.

Optionally, the control motor is: PWM (Pulse Width Modulation) controls the motor.

Optionally, a lamp signal display module is further arranged in the system and used for displaying different operation states of the control cabinet.

Optionally, the light signal display module includes: the lamp comprises a lamp number control unit, a green lamp, a yellow lamp and a red lamp;

when the control cabinet is not started, the lamp signal control unit does not send signals;

when the control cabinet is in a standby mode, the lamp signal control unit controls the green lamp to be turned on;

when the control cabinet is in operation, the lamp signal control unit controls the yellow lamp to be turned on;

when the control cabinet has a fault, the lamp signal control unit controls the red lamp to be turned on;

when the control cabinet finishes executing, the lamp signal control unit controls the green lamp, the yellow lamp and the red lamp to be turned on simultaneously.

A method for detecting performance of a plurality of hard disks, the method being applied to the system as described above, the method comprising:

s1: collecting and storing test parameters and test scripts, wherein the test parameters comprise: project names, hard disk information, hard disk quantity and data storage paths;

s2: sending a test command to a control motor according to the test parameters;

s3: the control motor moves the test host placing platform to a specified position according to the obtained test command, and controls the male hard disk connector to be connected with the female hard disk connector;

s4: controlling the test host to start up through the power control module;

s5: the test host carries out hard disk detection according to the test script and generates a hard disk detection result, wherein the hard disk detection result comprises: log files;

s6: controlling the test host to shut down through the power control module;

s7: judging whether the test host is located at the position of the last hard disk in the plurality of hard disks;

s8: if yes, log files of all hard disks are obtained and analyzed, and a hard disk detection report is generated;

if not, returning to the step S3, and detecting the next hard disk until all the hard disks are detected.

Optionally, the controlling the test host to start up by the power control module includes:

the power supply control module controls the power supply on the test host to be turned on through the GPIO interface according to the acquired starting command;

and the test host is started according to the acquired starting instruction.

Optionally, the controlling, by the power control module, the test host to be powered off includes:

the test host is shut down according to the acquired shutdown instruction;

and the power supply on the test host is controlled to be turned off by the turn-off instruction acquired by each stage of the power supply control module through the GPIO interface.

Optionally, the hard disk information includes: hard disk manufacturer, hard disk model, and hard disk capacity.

Optionally, the method further comprises:

and displaying the lamp signals of different running states of the control cabinet.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

the application provides a system for detecting performance of a plurality of hard disks, and the system mainly comprises a control host and a control cabinet, wherein the control cabinet comprises: the device comprises a control motor, a power supply control module, a test host placing platform and a hard disk jig platform. The test host placing platform is used for placing a test host, the hard disk jig platform is used for fixing any hard disk, and when the hard disk is replaced, the test host placing platform is moved to the position of the hard disk to be tested by controlling the driving of the motor. The testing host is provided with a male hard disk connector, the hard disk jig platform is provided with a female hard disk connector, the male connector is connected with the female hard disk connector through a hard disk cable, and the power supply control module is connected with the testing host through a power supply cable so as to control the power supply of the testing host to be turned on and turned off. The control host stores the test parameters and the test scripts, sends related commands to different parts of the control cabinet, including control over a control motor, control over a power supply control module and control over the test host, finally obtains a hard disk execution result, and generates a detection report according to the execution result. Through the structural design, the automatic detection of the performance of the hard disk can be realized, and the detection efficiency is greatly improved.

In addition, in the embodiment, the power control module controls the 12V power switch on the test host by using the GPIO interface, so that the power on and off processes of the test host are implemented, damage to the test host due to direct power off is avoided, the test host is protected, and the reliability of the test method is improved. The setting of lamp signal display module in this embodiment can clearly and definitely show the different running state of control rack, is favorable to improving the intuition nature that detects, and then improves detection efficiency.

The application also provides a method for detecting the performance of the plurality of hard disks, the method firstly collects and stores test parameters and test scripts, then sends a test command to the control motor according to the test parameters, the control module drives the test host placing platform to a specified position and controls the combination of the male hard disk connector and the wood hard disk connector, the test host is automatically started up through the power supply control module, after the test execution is finished, a hard disk detection result is generated, the test host is controlled to be shut down through the power supply control module, and the method is favorable for further improving the automation of the detection process. After the current hard disk is tested, judging whether the test host is located at the position of the last hard disk in the plurality of hard disks; if yes, log files of all hard disks are obtained and analyzed, and a hard disk detection report is generated; if not, returning a test command for controlling the motor, and detecting the next hard disk until all hard disks are detected. By the method in the embodiment, the automatic detection of the performance of the hard disk can be realized, so that the detection efficiency is greatly improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and, together with the description, serve to explain the principles of the application.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present application, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a system for detecting performances of multiple hard disks according to an embodiment of the present disclosure;

FIG. 2 is a schematic circuit diagram of a power control unit according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a system for detecting performance of multiple hard disks in practical application;

fig. 4 is a flowchart illustrating a method for detecting performance of multiple hard disks according to an embodiment of the present disclosure.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort shall fall within the protection scope of the present application.

For a better understanding of the present application, embodiments thereof are explained in detail below with reference to the accompanying drawings.

Example one

Referring to fig. 1, fig. 1 is a schematic structural diagram of a system for detecting performances of multiple hard disks in an embodiment of the present application. As shown in fig. 1, the system for detecting the performance of multiple hard disks in this embodiment mainly includes: a control host and a control cabinet. Wherein, including in the control cabinet: the test system comprises a control motor, a power supply control module, a test host placement platform and a hard disk jig platform, wherein the test host placement platform is used for placing the test host, the hard disk jig platform is used for fixing any hard disk, a male hard disk connector is arranged on the test host, a female hard disk connector is arranged on the hard disk jig platform, the male hard disk connector is connected with the female hard disk connector through a hard disk cable, and the power supply control module is connected with the test host through a power supply cable.

In this embodiment, the control host is in communication connection with the control cabinet, specifically, the connector on the control host is connected with the control cabinet cable, the connector on the control host adopts an RJ45 connector, and the control motor and the power control module of the control cabinet are controlled by a TCP/IP communication protocol.

In this embodiment, the control host is configured to store the test parameters and the test scripts, send a test command to the control cabinet according to the test parameters and the test scripts, obtain an execution result of the hard disk, and generate a detection report according to the execution result. The test parameters include: project name, hard disk information, number of hard disks, and data storage path. The hard disk information includes: hard disk manufacturer, hard disk model, and hard disk capacity.

And the control motor is used for driving the test host placing platform to move and controlling the joint of the male hard disk connector and the female hard disk connector, so that the hard disk is replaced. The control motor in this embodiment includes: an X-axis control motor and a Z-axis control motor. Through the control motors in the X-axis direction and the Z-axis direction, the test host placing platform can be flexibly moved, and the flexibility of hard disk performance detection and the accuracy of test results are improved. In the embodiment, the motor is controlled by PWM, the rotation speed of the motor is adjusted and controlled by the PWM control principle, and the movement of the X axis and the Z axis is realized, so that the test host placing platform is controlled, and the male hard disk connector is connected with the female hard disk connector.

And the power supply control module is used for controlling a power supply switch on the test host through the GPIO interface. The power switch on the test host is controlled through the GPIO interface, so that the starting and shutdown functions of the test host are achieved, the direct power failure of the test host is avoided, the damage to the test host is avoided, and the reliability and the detection accuracy of the whole system are improved. Fig. 2 is a schematic circuit diagram of the power control module in this embodiment.

And the test host is used for executing the test script according to the command of the control host.

In the embodiment, the test script is combined with an IEMT tool or an IEVT tool, and the test results of different hard disks are collected through the test script. And analyzing all data by using a VBA program to determine the optimal equalizer CTLE value corresponding to the test host. The method for collecting the hard disk test result and the method for analyzing the data by using the VBA program in this embodiment belong to methods in the prior art, and are not described herein again.

Further, in the system for detecting the performance of the plurality of hard disks, the embodiment further includes a lamp signal display module for displaying different operating states of the control cabinet. Specifically, the light signal display module includes: the lamp comprises a lamp number control unit, a green lamp, a yellow lamp and a red lamp. When the control cabinet is not started, the lamp signal control unit does not send signals; when the control cabinet is in a standby mode, namely the cabinet is started but does not run, the lamp signal control unit controls the green lamp to be started; when the control cabinet is in operation, the lamp signal control unit controls the yellow lamp to be turned on; when the control cabinet has a fault, the lamp signal control unit controls the red lamp to be turned on; when the control cabinet finishes executing, the lamp signal control unit controls the green lamp, the yellow lamp and the red lamp to be turned on simultaneously.

Fig. 3 is a schematic structural diagram of a system for detecting performance of multiple hard disks in practical application.

Example two

Referring to fig. 4 on the basis of the embodiments shown in fig. 1 to fig. 3, fig. 4 is a schematic flowchart of a method for detecting performance of multiple hard disks according to an embodiment of the present application. As shown in fig. 4, the method for detecting the performance of multiple hard disks in this embodiment mainly includes the following steps:

s1: and collecting and storing the test parameters and the test scripts.

The test parameters include: project names, hard disk information, the number of hard disks and data storage paths. The hard disk information further includes: hard disk manufacturer, hard disk model, and hard disk capacity.

S2: and sending a test command to the control motor according to the test parameters.

S3: and the control motor moves the test host placing platform to a specified position according to the obtained test command and controls the joint of the male hard disk connector and the female hard disk connector.

S4: and the power supply control module controls the test host to start.

Specifically, step S4 includes:

s41: and the power supply control module controls the power supply on the test host to be started through the GPIO interface according to the acquired starting command.

S42: and the test host is started according to the acquired starting instruction.

Through the steps S41-S42, the test host can be prevented from being directly started, the test host is protected, and the test reliability is improved.

S5: the test host carries out hard disk detection according to the test script and generates hard disk detection results, and the hard disk detection results include: log file.

S6: and the power control module controls the test host to be shut down.

Specifically, step S6 includes:

s61: and the test host is shut down according to the acquired shutdown instruction.

S62: and the power supply on the test host is controlled to be turned off by the turn-off instruction acquired by each stage of the power supply control module through the GPIO interface.

Through the steps S61-S62, the test host can be prevented from being directly closed, so that the test host is prevented from being damaged, and the test reliability is improved.

S7: and judging whether the test host is positioned at the position of the last hard disk in the plurality of hard disks.

If the test host is located at the position where the last hard disk of the plurality of hard disks is located, it is indicated that the plurality of hard disks are all tested, step S8 is executed: and obtaining log files of all hard disks for analysis, and generating a hard disk detection report.

If the test host is not located at the position of the last hard disk in the plurality of hard disks, the current hard disk to be tested is not the last hard disk, and the test is not finished, the step S3 is returned to, and the next hard disk is tested until all the hard disks are tested.

Further, after the hard disk detection report is generated in this embodiment, the method further includes step S9: and controlling the motor to move the test host placing platform to the initial position according to the acquired command.

Further, the method for detecting the performance of the plurality of hard disks in this embodiment further includes: and displaying the lamp signals of different running states of the control cabinet. The light signal comprises three different colors: green, yellow and red.

Specifically, when the control cabinet is not started, the lamp signal control unit does not send a signal; when the control cabinet is in a standby mode, the lamp signal control unit controls the green lamp to be turned on; when the control cabinet is in operation, the lamp signal control unit controls the yellow lamp to be turned on; when the control cabinet has a fault, the lamp signal control unit controls the red lamp to be turned on; when the control cabinet finishes executing, the lamp signal control unit controls the green lamp, the yellow lamp and the red lamp to be turned on simultaneously.

The details of the embodiment not described in detail can be referred to the embodiments shown in fig. 1 to fig. 3, and the two embodiments can be referred to each other and are not described again.

The above description is merely exemplary of the present application and is presented to enable those skilled in the art to understand and practice the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (3)

1. A method for detecting the performance of a plurality of hard disks, which is applied to a system for detecting the performance of a plurality of hard disks, the system comprising: control host computer and control cabinet, control host computer and control cabinet communication connection, including in the control cabinet: the hard disk testing device comprises a control motor, a power supply control module, a testing host placing platform and a hard disk jig platform, wherein the testing host placing platform is used for placing the testing host, the hard disk jig platform is used for fixing any hard disk, a male hard disk connector is arranged on the testing host, a female hard disk connector is arranged on the hard disk jig platform, the male hard disk connector is connected with the female hard disk connector through a hard disk cable, and the power supply control module is connected with the testing host through a power supply cable; the control host is used for storing test parameters and test scripts, sending test commands to the control cabinet according to the test parameters and the test scripts, obtaining hard disk execution results, and generating detection reports according to the execution results, wherein the test parameters comprise: project names, hard disk information, hard disk quantity and data storage paths; the control motor is used for driving the test host placing platform to move and controlling the male hard disk connector to be jointed with the female hard disk connector; the power supply control module is used for controlling a power supply switch on the test host through the GPIO interface; the test host is used for executing the test script according to the command of the control host;

the method comprises the following steps:

s1: collecting and storing test parameters and test scripts, wherein the test parameters comprise: the test script is combined with an IEMT tool or an IEVT tool and used for collecting test results of different hard disks, analyzing the test results by using a VBA program and determining an optimal equalizer CTLE value corresponding to the test host;

s2: sending a test command to a control motor according to the test parameters;

s3: the control motor moves the test host placing platform to a specified position according to the obtained test command, and controls the male hard disk connector to be connected with the female hard disk connector;

s4: controlling the test host to start up through the power control module;

s5: the test host carries out hard disk detection according to the test script and generates a hard disk detection result, wherein the hard disk detection result comprises: log files;

s6: the power control module controls the test host to shut down;

s7: judging whether the test host is located at the position of the last hard disk in the plurality of hard disks;

s8: if yes, log files of all hard disks are obtained and analyzed, and a hard disk detection report is generated;

if not, returning to the step S3, and detecting the next hard disk until all the hard disks are detected;

wherein, control the test host computer through power control module and start, include:

the power supply control module controls the power supply on the test host to be turned on through the GPIO interface according to the acquired starting command;

the test host computer is started according to the obtained starting instruction;

the power control module controls the test host to shut down, including:

the test host is shut down according to the acquired shutdown instruction;

and the power supply on the test host is controlled to be turned off by the turn-off instruction acquired by each stage of the power supply control module through the GPIO interface.

2. The method of claim 1, wherein the hard disk information comprises: hard disk manufacturer, hard disk model, and hard disk capacity.

3. The method of claim 1, further comprising:

and displaying the lamp signals of different running states of the control cabinet.

Images