CN112231163A - Multifunctional computer detection equipment and operation method thereof - Google Patents

Abstract

The invention discloses a multifunctional computer detection device, which comprises a processor, a PCIe switch I and a PCIe switch II which are connected with the processor, an Ethernet chip and an SATA controller which are connected with the PCIe switch I and used for setting an Ethernet port, an interface chip which is connected with the PCIe switch II and used for setting a USB interface, a CAN interface and an HDMI interface, and a serial port chip used for setting an RS485 serial port, an RS422 serial port and an RS232 serial port; the processor is provided with detection software and accompanying software which are matched with different computer platforms and operating systems and are interconnected with the database. The method is suitable for system test and interface test of most computer equipment, is simpler, improves test efficiency, and can quickly generate a solution to faults appearing in test results.

Description

Multifunctional computer detection equipment and operation method thereof

Technical Field

The invention relates to the technical field of computer detection equipment, in particular to multifunctional computer detection equipment and an operation method thereof.

Background

At present, a common PC is generally adopted as a companion device when function detection is carried out on computer equipment, but the number of interfaces of the PC is small, the types of the interfaces are small, test software is scattered, the types of computer platforms are more, such as X86, FT series, Loongson series and the like, operating systems deployed on different platforms are different, such as win7, win10, Galaxy and Kanglin, and the like, so that the test software deployed on different platforms is not uniform, correct interface types, interface numbers, test software, platform types and operating systems need to be respectively adapted, test results need to be manually recorded, then manual analysis and test problems are carried out on the test results, equipment production improvement measures are given, the operating requirements on testers are higher, manual processing methods are not necessarily correct, and particularly during batch test, errors are easy to make and the working efficiency needs to be improved.

Disclosure of Invention

Technical problem to be solved

Based on the problems, the invention provides the multifunctional computer detection equipment and the operation method thereof, so that the multifunctional computer detection equipment is suitable for system test and interface test of most computer equipment, and the test method is simple and high in efficiency.

(II) technical scheme

Based on the technical problem, the invention provides multifunctional computer detection equipment which comprises a processor, a PCIe switch I and a PCIe switch II which are connected with the processor, an Ethernet chip and an SATA controller which are connected with the PCIe switch I and used for setting an Ethernet port, a solid state disk connected with the SATA controller, an interface chip which is connected with the PCIe switch II and used for setting a USB interface, a CAN interface and an HDMI interface, and a serial port chip used for setting an RS485 serial port, an RS422 serial port and an RS232 serial port;

the processor is provided with test accompanying software which is adapted to different computer platforms and operating systems and is used for matching with detection software to carry out system testing and interface testing and recording a testing result, the detection software is deployed in the equipment to be tested, and the detection software and the test accompanying software are interconnected with the database; the accompanying software comprises a CAN accompanying module, a serial port accompanying module, an external communication module, a resource input module, a derivation report module, an intelligent analysis module and a fault positioning module.

Further, the detection device further comprises a memory, a complex programmable logic device or a CPLD connected with the processor, the CPLD is used for connecting a GPIO interface, the memory is 2 DDR4 memories, and the CPLD is EPM1270F256I 5N.

Further, the ethernet chip includes a gigabit ethernet chip for setting 4 gigabit ethernet ports and a gigabit ethernet chip for setting 2 gigabit ethernet ports, where the gigabit ethernet chip is WX1860 and the gigabit ethernet chip is WX1820 AL.

Further, the interface chip includes USB controller one, USB controller two, PCIe Slot and with USB that USB controller two are connected changes the CAN chip, USB controller one is used for setting up 4 way USB interfaces, USB controller two-purpose is used for setting up 2 way USB interfaces, USB changes the CAN chip and is used for setting up 1 way CAN interface, PCIe Slot is used for setting up 1 way HDMI interface, USB controller one and USB controller two are upd720114, USB changes the CAN chip and is USBCAN-I-mini, PCIE Slot is the RX580 display card.

Further, the serial port chip is XR17V358 and is used for setting 8 RS485 interfaces, 4 RS422 interfaces and 1 RS232 interface.

Further, the processor is a CPU, the PCIe switch i and the PCIe switch ii are PEX8764, the SATA controller is 88SE9215, and the solid state disk is a 2T solid state disk.

Further, the detection software comprises a public module, a system test module and an interface test module.

Furthermore, the public module comprises a test management module, a core library, an external communication module and a test result browsing module; the system test module comprises a CPU pressure test module, a copying test module, a system configuration detection module, a memory pressure test module, a memory bandwidth test module and a GPU test module; the interface test module comprises an Ethernet bandwidth test module, an Ethernet connectivity test module, a CAN test module, a special serial port test module, a standard serial port test module, a GPIO test module, an indicator light and a loudspeaker test module.

The invention also discloses an operation method of the multifunctional computer detection equipment, which comprises the following steps:

s1, setting a test strategy for the multifunctional computer detection equipment according to test requirements, connecting the multifunctional computer detection equipment with equipment to be tested through a required interface, and enabling a tester to click one key to automatically test;

s2, performing information interaction between the detection software and the accompanying software, and recording a test result into the database;

s3, judging whether a fault is found in the test result, if so, entering the step S4, otherwise, ending;

s4, marking faults, searching whether a solution exists in the database, if so, entering the step S5, otherwise, entering the step S6;

s5, associating the fault with the solution, locating the fault, processing the fault by referring to the solution, judging whether the solution is effective, if so, ending, otherwise, entering the step S6;

s6, proposing a solution by a developer to process the fault;

and S7, opening a fault record, inputting a fault description, a photo and a video, and inputting a solution proposed by a research and development staff to form a fault and solution associated record.

Further, after step S2, the operating method further includes determining whether a test result report needs to be derived, if so, selecting a report template, deriving a test result report according to the test result, and entering step S3, otherwise, entering step S3.

(III) advantageous effects

The technical scheme of the invention has the following advantages:

(1) the invention provides a multifunctional computer detection device with various interfaces and adapting to different computer platforms and operating systems, which has very comprehensive detection function modules contained in detection software and accompanying detection software, can be suitable for system test, interface test and the like in various stages of development, production, delivery and the like of computer equipment, meets the detection requirements of most computer equipment, supports the parallel test of multiple equipment, can test the equipment to be detected through software without professional testing skills, is convenient for testers to operate, has high automation degree, reduces the requirements on the testers, improves the working efficiency, saves the testing time, and particularly greatly reduces the testing time of the equipment to be detected during batch test;

(2) the detection software and the accompanying software are interconnected with the database, and reference information is provided by uploading failure solving experience accumulated by the database; the database is also used for searching test faults, phenomena and solutions to obtain scientific solutions, and the testers and research personnel are guided to quickly locate the faults and solve the faults; the technical level requirement on the tester is reduced, and misoperation caused by manual analysis and processing of fault problems is reduced;

(3) the invention automatically records the test result, does not need to record the test result manually, prevents manual recording from making mistakes, reduces the workload of testing personnel, can export the test result report according to a customized report template, and is more convenient to operate;

(4) the invention provides a secondary development library of detection software and accompanying software, which can be used for expanding interface test and partial customization functions for users.

Drawings

The features and advantages of the present invention will be more clearly understood by reference to the accompanying drawings, which are illustrative and not to be construed as limiting the invention in any way, and in which:

FIG. 1 is a schematic structural diagram of a multi-purpose computer test analyzer in accordance with an embodiment of the present invention;

FIG. 2 is a schematic diagram of the detection software of the multi-purpose computer detection analyzer in accordance with an embodiment of the present invention;

FIG. 3 is a schematic diagram of the accompanying software of the multifunctional computer detection analyzer according to the embodiment of the present invention;

FIG. 4 is a schematic flow chart of a method of operating the multi-function computer inspection apparatus of the present invention;

FIG. 5 is a schematic diagram of the connection of the multi-purpose computer test analyzer of the embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

The embodiment of the invention provides a multifunctional computer detection analyzer, which comprises a CPU, a PCIe switch I and a PCIe switch II connected with the CPU, a memory, a complex programmable logic device/CPLD, a gigabit Ethernet chip and an SATA controller connected with the PCIe switch I, a USB controller II, a serial port chip and a PCIe Slot connected with the PCIe switch II, a 2T SSD/solid state disk connected with the SATA controller, and a USB-to-CAN chip connected with the USB controller II, as shown in figure 1. The gigabit Ethernet chip is used for setting 4 paths of gigabit Ethernet ports, the gigabit Ethernet chip is used for setting 2 paths of gigabit Ethernet ports, the USB controller I is used for setting 4 paths of USB interfaces, the USB controller II is used for setting 2 paths of USB interfaces, the USB-to-CAN chip is used for setting 1 path of CAN interfaces, the serial port chip is used for setting 8 paths of RS485 interfaces, 4 paths of RS422 interfaces and 1 path of RS232 interfaces, the PCIe Slot is used for setting 1 path of HDMI interface/high definition multimedia interface, and the CPLD is used for connecting GPIO interfaces.

The first PCIe switch and the second PCIe switch are both PEX8764, the gigabit Ethernet chip is WX1860, the gigabit Ethernet chip is WX1820AL, the SATA controller is 88SE9215, the first USB controller and the second USB controller are both upd720114, the USB-to-CAN chip is USBCAN-I-mini, the serial port chip is XR17V358, the CPLD is EPM1270F256I5N, the PCIE Slot is RX580 graphics card, and the memory is 2 DDR4 memories, namely SODIMM-SCC GS03H1F1C-26V (1RX8-8 GB-2666S).

The multifunctional computer detection analyzer is provided with 1 path of RS232, 4 paths of RS422, 8 paths of RS485, 1 path of CAN, 4 paths of gigabit Ethernet, 2 paths of gigabit Ethernet and 6 paths of USB interfaces, the types and the number of the interfaces are more, the detection requirements of most computer equipment CAN be met, the interfaces CAN support equipment to perform parallel test, the improvement of the test efficiency is facilitated, and the test time is shortened.

The multifunctional computer detection analyzer further comprises detection software and accompanying software, as shown in fig. 2, the detection software comprises a public module, a system test module and an interface test module, wherein the public module comprises a test management module, a core library, an external communication module and a test result browsing module; the system testing module comprises a CPU pressure testing module, a copying testing module, a system configuration detecting module, a memory pressure testing module, a memory bandwidth testing module and a GPU testing module; the interface test module comprises an Ethernet bandwidth test module, an Ethernet connectivity test module, a CAN test module, a special serial port test module, a standard serial port test module, a GPIO test module, an indicator light and a loudspeaker test module. As shown in fig. 3, the accompanying software includes a CAN accompanying module, a serial port accompanying module, an external communication module, a resource input module, a export report module, an intelligent analysis module, and a fault location module.

Wherein, the function of the system test module is: the CPU pressure testing module burns all cores and manually observes whether the equipment to be tested has abnormal phenomena such as screen flashing, dead halt and the like; the copying test module tests the system stability when the CPU, the RAM, the magnetic disk and the like run at full load; the system configuration detection module detects and displays operating system information, CPU information, disk information, memory information and GPU computing card information; the memory pressure testing module carries out memory pressure testing by setting the applied memory size and the testing times; the memory broadband testing module tests the memory bandwidth and outputs the bandwidth, average time, minimum time and maximum time of four operations, namely Copy, Scale, Add and Tradi; the GPU test module is used for carrying out pressure test on different loads on the GPU kernel and observing whether the equipment to be tested has abnormity such as overhigh power consumption and crash of a certain GPU.

The test method comprises the steps that test accompanying software is matched with detection software for testing, the detection software is used for tested equipment, the test accompanying software is used for multifunctional computer detection equipment, especially when the tested equipment cannot communicate with external equipment due to a secret protocol, the test accompanying software and the detection software carry out information interaction, the test accompanying software is connected with a database in an interconnected mode, the test accompanying software is matched with an interface for testing, a test result report is led out, fault location is achieved, intelligent analysis of a scheme is achieved, and a resource solution scheme is recorded.

The detection software and the accompanying software can be adapted to different computer platforms, including X86, FT series, Loongson series, and operating systems, including win7, win10, Galaxy kylin, and winning-bid kylin. And the detection software and the accompanying software are both associated with the database.

The operation method of the multifunctional computer detection analyzer is shown in fig. 4, and comprises the following steps:

s1, setting a test strategy for the multifunctional computer detection analyzer according to test requirements, connecting the multifunctional computer detection analyzer with equipment to be tested through a required interface, and enabling a tester to click one key to automatically test;

as shown in fig. 5, the multifunctional computer detection analyzer is connected with the device to be tested through an interface, based on software detection and detection of each functional module of software, a tester only needs to set up a test environment, the detection device can automatically test the device to be tested according to an automatic test strategy selected by the tester, the later test process can be free from manual participation, different software is not needed to be used for worrying about testing different interface functions, friendly human-computer interaction is provided by the detection software, and the software can be used for detecting the device to be tested without professional testing skills.

S2, carrying out information interaction between the detection software and the accompanying software, interconnecting with a database, and recording the test result into the database;

in the step, whether a test result report needs to be exported is further judged, if yes, a report template is selected, the test result report is exported by the export report module according to the test result, and the step S3 is executed, otherwise, the step S3 is executed;

the testing personnel do not need to manually record the testing result in real time, errors are avoided, the efficiency is higher, the testing result is not required to be repeatedly filled due to different testing report templates, the problem of inconsistency between the testing record form and the testing report data is not required to be worried, and the detection equipment can be connected with a printer to print the testing result report on site.

S3, judging whether a fault is found in the test result, if so, entering the step S4, otherwise, ending;

s4, marking the fault by the fault positioning module, searching whether a solution exists in the database, if so, entering the step S5, otherwise, entering the step S6;

s5, associating the fault with a solution, locating the fault, processing the fault by referring to the solution, judging whether the solution is effective or not by the intelligent analysis module, if so, ending, otherwise, entering the step S6;

s6, proposing a solution by a developer to process the fault;

and S7, opening a fault record, inputting fault description, photos and videos by the resource input module, and inputting a solution proposed by research personnel to form a fault and solution associated record.

In the product research and development process, complete machine function and performance test is carried out on the research and development equipment, part of functions and performance are found to be abnormal in the test process, test engineers or research and development engineers can search problem solutions through searching the test data in the detection equipment, the field testers can be guided to quickly position and solve the problems, if the solutions are not searched, the test phenomena, the problem description and the subsequent solutions of the problems are input, the database can continuously enrich the test experience base along with accumulation of detection products, and support is provided for various stages of subsequent product research and development, production, delivery and the like, so that the requirements of the testers are low, and the solutions can be obtained more quickly and effectively.

The operation method is a full-automatic test, when a product is in a production stage, due to the fact that the number of devices is large, the test working time is long, for example, the device basic performance copying test, the interface performance copying test and the like are carried out, a tester can set a test project in advance, set a test strategy and connect the device to be tested and a detection device, the tester only needs to click one key to carry out the automatic test, the test is finished, the tester can inquire a test result through detection software to finish the whole test process, and the workload of the test engineer can be greatly reduced.

In summary, the multifunctional computer detection device and the operation method thereof have the following advantages:

(1) the invention provides a multifunctional computer detection device with various interfaces and adapting to different computer platforms and operating systems, which has very comprehensive detection function modules contained in detection software and accompanying detection software, can be suitable for system test, interface test and the like in various stages of development, production, delivery and the like of computer equipment, meets the detection requirements of most computer equipment, supports the parallel test of multiple equipment, can test the equipment to be detected through software without professional testing skills, is convenient for testers to operate, has high automation degree, reduces the requirements on the testers, improves the working efficiency, saves the testing time, and particularly greatly reduces the testing time of the equipment to be detected during batch test;

(2) the detection software and the accompanying software are interconnected with the database, and reference information is provided by uploading failure solving experience accumulated by the database; the database is also used for searching test faults, phenomena and solutions to obtain scientific solutions, and the testers and research personnel are guided to quickly locate the faults and solve the faults; the technical level requirement on the tester is reduced, and misoperation caused by manual analysis and processing of fault problems is reduced;

(3) the invention automatically records the test result, does not need to record the test result manually, prevents manual recording from making mistakes, reduces the workload of testing personnel, can export the test result report according to a customized report template, and is more convenient to operate;

(4) the invention provides a secondary development library of detection software and accompanying software, which can be used for expanding interface test and partial customization functions for users.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art may make various modifications and variations without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.

Claims (10)

1. The multifunctional computer detection equipment is characterized by comprising a processor, a PCIe switch I and a PCIe switch II which are connected with the processor, an Ethernet chip and an SATA controller which are connected with the PCIe switch I and used for setting an Ethernet port, a solid state disk connected with the SATA controller, an interface chip which is connected with the PCIe switch II and used for setting a USB interface, a CAN interface and an HDMI interface, and a serial port chip used for setting an RS485 serial port, an RS422 serial port and an RS232 serial port;

the processor is provided with matching detection software which is adaptive to different computer platforms and operating systems and used for carrying out system testing and interface testing, and testing accompanying software for recording a testing result, wherein the detection software is deployed in equipment to be tested, the detection software and the accompanying software are interconnected with a database, and the accompanying software comprises a CAN accompanying module, a serial port accompanying module, an external communication module, a resource input module, a derivation report module, an intelligent analysis module and a fault positioning module.

2. The multifunctional computer detection device according to claim 1, wherein the detection device further comprises a memory, a complex programmable logic device or a CPLD connected with the processor, the CPLD is used for connecting a GPIO interface, the memory is 2 DDR4 memories, and the CPLD is EPM1270F256I 5N.

3. The multifunctional computer inspection apparatus of claim 1, wherein the ethernet chips include a gigabit ethernet chip for setting 4 gigabit ethernet ports and a gigabit ethernet chip for setting 2 gigabit ethernet ports, the gigabit ethernet chip is WX1860, and the gigabit ethernet chip is WX1820 AL.

4. The multifunctional computer detection device according to claim 1, wherein the interface chip includes a first USB controller, a second USB controller, a PCIe Slot, and a USB to CAN chip connected to the second USB controller, the first USB controller is configured to set 4 USB interfaces, the second USB controller is configured to set 2 USB interfaces, the USB to CAN chip is configured to set 1 CAN interface, the PCIe Slot is configured to set 1 HDMI interface, both the first USB controller and the second USB controller are upd720114, the USB to CAN chip is a USB bcan-I-mini, and the PCIe Slot is a 580 RX display card.

5. The multifunctional computer detection device of claim 1, wherein the serial port chip is XR17V358, and is configured to provide 8 RS485 interfaces, 4 RS422 interfaces, and 1 RS232 interface.

6. The multifunctional computer detection device according to claim 1, wherein the processor is a CPU, the first PCIe switch and the second PCIe switch are PEX8764, the SATA controller is 88SE9215, and the solid state disk is a 2T solid state disk.

7. The multifunctional computer inspection device of claim 1, wherein the inspection software includes a common module, a system test module, an interface test module.

8. The multifunctional computer inspection apparatus according to claim 1, wherein the common module includes a test management module, a core library, an external communication module, a test result browsing module; the system test module comprises a CPU pressure test module, a copying test module, a system configuration detection module, a memory pressure test module, a memory bandwidth test module and a GPU test module; the interface test module comprises an Ethernet bandwidth test module, an Ethernet connectivity test module, a CAN test module, a special serial port test module, a standard serial port test module, a GPIO test module, an indicator light and a loudspeaker test module.

9. A method of operating a multifunctional computer test device according to any of claims 1-8, comprising the steps of:

s1, setting a test strategy for the multifunctional computer detection device as claimed in any one of claims 1-8 according to the test requirement, connecting the multifunctional computer detection device with the device to be tested through a required interface, and enabling a tester to click one key to automatically test;

s2, performing information interaction between the detection software and the accompanying software, and recording a test result into the database;

s3, judging whether a fault is found in the test result, if so, entering the step S4, otherwise, ending;

s4, marking the fault by the fault positioning module, searching whether a solution exists in the database, if so, entering the step S5, otherwise, entering the step S6;

s5, associating the fault with a solution, locating the fault, processing the fault by referring to the solution, judging whether the solution is effective or not by the intelligent analysis module, if so, ending, otherwise, entering the step S6;

s6, proposing a solution by a developer to process the fault;

and S7, opening a fault record, inputting fault description, photos and videos by the resource input module, and inputting a solution proposed by research personnel to form a fault and solution associated record.

10. The method for operating the multifunctional computer detection equipment of claim 9, wherein after step S2, the method further comprises determining whether a test result report needs to be derived, if so, selecting a report template, deriving the test result report according to the test result by the derivation reporting module, and entering step S3, otherwise, entering step S3.

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