CN105223443A - A kind of hardware automated method of testing, system and equipment - Google Patents

Abstract

The invention discloses a kind of hardware automated method of testing, comprising: generate the first steering order controlling the required load loaded of hardware to be tested; Send the first steering order to described load, and according to the first steering order starting load; Generate the command sequence of hardware to be tested; Send command sequence to hardware to be tested; Receive hardware to be tested when offered load, the execution result of fill order sequence feedback.The present invention can improve testing efficiency, and can the comparatively comprehensive function to hardware and performance test.The invention also discloses a kind of hardware automated test macro and equipment.

Description

A kind of hardware automated method of testing, system and equipment

Technical field

The present invention relates to hardware testing technical field, particularly relate to a kind of hardware automated method of testing, system and equipment.

Background technology

At present, all can test hardware in the exploitation of hardware product and production phase, judge whether the hardware of research and development meets development requires by test.In prior art, manual test and on-line testing are mainly contained to the test of hardware.Manual test manually selects test point by test man, and the test data of hand-kept test point, the method complex operation of this manual test and test speed is slower.On-line testing is mainly by downloading in hardware to be tested by test procedure, when hardware to be tested does not power up, simply test the parameter of the peripheral pin of testing hardware, what judge hardware thus cut-offs road problem.In sum, existing method complex operation that hardware is tested and comprehensively can not testing the function of whole hardware and performance.

Summary of the invention

The invention provides a kind of hardware automated method of testing, can testing efficiency be improved, and can the comparatively comprehensive function to hardware and performance test.

The invention provides a kind of hardware automated method of testing, comprising:

Generate the first steering order controlling the required load loaded of hardware to be tested;

Send described first steering order to described load, and start described load according to described first steering order;

Generate the command sequence of described hardware to be tested;

Send described command sequence to described hardware to be tested;

Receiving described hardware to be tested when loading described load, performing the execution result of described command sequence feedback.

Preferably, described start described load according to described first steering order after also comprise:

Generate the second steering order of the load that the described load of adjustment loads;

Send described second steering order to described load, and according to the load that described second steering order regulates described load to load.

Preferably, the described hardware to be tested of described reception, when loading described load, also comprises after performing the execution result of described command sequence feedback:

The analog and digital signal fed back when receiving described load running.

Preferably, the described hardware to be tested of described reception when load described load perform described command sequence feedback execution result comprise:

Receiving described hardware to be tested when loading described load, performing the test point state of described command sequence feedback;

Receiving described hardware to be tested when loading described load, performing the running status of the internal circuit of described command sequence feedback.

A kind of hardware automated test macro, comprising:

First generation unit, for generating the first steering order controlling the load loaded needed for hardware to be tested;

First control module, for sending described first steering order to described load, and starts described load according to described first steering order;

Second generation unit, for generating the command sequence of described hardware to be tested;

Transmitting element, for sending described command sequence to described hardware to be tested;

First receiving element, for receiving described hardware to be tested when loading described load, performs the execution result of described command sequence feedback.

Preferably, described system also comprises:

3rd generation unit, for generating the second steering order of the load that the described load of adjustment loads;

Second control module, for sending described second steering order to described load, and according to the load that described second steering order regulates described load to load.

Preferably, described system also comprises:

Second receiving element, the analog and digital signal fed back during for receiving described load running.

Preferably, described first receiving element specifically for:

Receiving described hardware to be tested when loading described load, performing the test point state of described command sequence feedback;

Receiving described hardware to be tested when loading described load, performing the running status of the internal circuit of described command sequence feedback.

A kind of hardware automated testing apparatus, comprising: hardware automated test macro, Signals Transfer Board, needle-bar, hardware to be tested and load; Wherein:

Described hardware automated test macro is connected with described load by connection, and the first steering order of described for the control of generation load is sent to described load by connection, and starts described load according to described first steering order;

Described hardware automated test macro is also connected with described hardware to be tested by connection, and the command sequence of the hardware described to be tested generated is sent to described hardware to be tested by connection;

Described hardware automated test macro is also connected with described load by described Signals Transfer Board, the analog and digital signal fed back when receiving described load running;

Described load is connected with described hardware to be tested;

Described Signals Transfer Board is also connected with described needle-bar, and described needle-bar is connected with described hardware to be tested by testing needle;

Described hardware automated test macro receives described hardware to be tested when loading described load by connection and described Signals Transfer Board, performs the execution result of described command sequence feedback.

From such scheme, the hardware automated method of testing of one provided by the invention, by generating the first steering order controlling the load loaded needed for hardware to be tested, and according to the first steering order starting load generated, load is loaded into hardware to be tested, forms the dry run environment of hardware to be tested; Meanwhile, generate the command sequence of hardware to be tested, make hardware to be tested perform the command sequence received, and feed back the execution result of fill order sequence.Achieve and ensure that the normal power-up of hardware to be tested is run by load, hardware to be tested is run in dry run environment, can the comparatively comprehensive function to hardware and performance test.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The process flow diagram of Fig. 1 a kind of hardware automated method of testing disclosed in the embodiment of the present invention one;

The process flow diagram of Fig. 2 a kind of hardware automated method of testing disclosed in the embodiment of the present invention two;

The process flow diagram of Fig. 3 a kind of hardware automated method of testing disclosed in the embodiment of the present invention three;

The process flow diagram of Fig. 4 a kind of hardware automated method of testing disclosed in the embodiment of the present invention four;

The structural representation of Fig. 5 a kind of hardware automated test macro disclosed in the embodiment of the present invention five;

The structural representation of Fig. 6 a kind of hardware automated test macro disclosed in the embodiment of the present invention six;

The structural representation of Fig. 7 a kind of hardware automated test macro disclosed in the embodiment of the present invention seven;

The structural representation of Fig. 8 a kind of hardware automated test macro disclosed in the embodiment of the present invention eight;

The structural representation of Fig. 9 a kind of hardware automated testing apparatus disclosed in the embodiment of the present invention nine.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figure 1, a kind of hardware automated method of testing disclosed in the embodiment of the present invention one, comprising:

First steering order of S101, the required load loaded of generation control hardware to be tested;

When needs are tested hardware, first generate the first steering order of the load controlling hardware to be tested required loading when actual motion, wherein, the load of required loading can be selected according to the different application environment of hardware to be tested.

S102, send described first steering order to described load, and start described load according to described first steering order;

When after generation first steering order, the first steering order generated is sent to the load loaded needed for hardware to be tested, and according to the first steering order starting load, is loaded on hardware to be tested by load, simulation test environment.

S103, generate the command sequence of described hardware to be tested;

Then, generate corresponding command sequence according to the type of hardware to be tested and performance to be tested and function, every bar command sequence of described generation comprises starting and ending mark.

S104, send described command sequence to described hardware to be tested;

When after the command sequence generating hardware to be tested according to testing requirement, the command sequence of generation is sent to hardware to be tested.

S105, receive described hardware to be tested when load described load, perform described command sequence feedback execution result.

After the command sequence of generation is sent to hardware to be tested, hardware to be tested is resolved the command sequence received, then corresponding series of operations is performed, after complete corresponding series of operations, corresponding execution result is fed back, thus receive hardware to be tested when offered load, the execution result of fill order sequence feedback.

In sum, in the above-described embodiments, by generating the first steering order controlling the load loaded needed for hardware to be tested, and according to the first steering order starting load generated, load is loaded into hardware to be tested, forms the dry run environment of hardware to be tested; Meanwhile, generate the command sequence of hardware to be tested, make hardware to be tested perform the command sequence received, and feed back the execution result of fill order sequence.Achieve and ensure that the normal power-up of hardware to be tested is run by load, hardware to be tested is run in dry run environment, can the comparatively comprehensive function to hardware and performance test.

As shown in Figure 2, a kind of hardware automated method of testing disclosed in the embodiment of the present invention two, comprising:

First steering order of S201, the required load loaded of generation control hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S202, send described first steering order to described load, and start described load according to described first steering order;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

Second steering order of the load that S203, the described load of generation adjustment load;

Due in the test process of hardware to be tested, may existing and treat the test that testing hardware loads the load of different load amount, when needing the load treating testing hardware loading to adjust, generating the second steering order.

S204, send described second steering order to described load, and according to the load that described second steering order regulates described load to load;

When after generation second steering order, the second steering order generated is sent to the load loaded needed for hardware to be tested, and according to the load that the second steering order regulating load generated loads.

S205, generate the command sequence of described hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S206, send described command sequence to described hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S207, receive described hardware to be tested when load described load, perform described command sequence feedback execution result.

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

In sum, the present embodiment is on the basis of embodiment one, by generating the second steering order, and the size treating the load of the required loading of testing hardware according to the second steering order generated regulates, make in the test process of hardware to be tested, the demand of hardware to be tested to the load of different size can be met, make the test treating testing hardware more flexible.

As shown in Figure 3, a kind of hardware automated method of testing disclosed in the embodiment of the present invention three, comprising:

First steering order of S301, the required load loaded of generation control hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S302, send described first steering order to described load, and start described load according to described first steering order;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

Second steering order of the load that S303, the described load of generation adjustment load;

This execution step is identical with the principle of above-described embodiment two, refers to embodiment two, does not repeat them here.

S304, send described second steering order to described load, and according to the load that described second steering order regulates described load to load;

This execution step is identical with the principle of above-described embodiment two, refers to embodiment two, does not repeat them here.

S305, generate the command sequence of described hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S306, send described command sequence to described hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S307, receive described hardware to be tested when load described load, perform described command sequence feedback execution result;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S308, the analog and digital signal fed back when receiving described load running.

In the process treating testing hardware test, the ruuning situation can also treating the load that testing hardware loads is tested, and analog and digital signal when running is carried out real-time feedback by load.Described analog and digital signal can be the analog and digital signal of current/voltage during sign load running.

In sum, the present embodiment is on the basis of embodiment two, can also treat the ruuning situation of load that testing hardware loads to test, by the situation of analog and digital signal fed back during load running, function and the performance that more further can treat testing hardware are tested.

As shown in Figure 4, a kind of hardware automated method of testing disclosed in the embodiment of the present invention four, comprising:

First steering order of S401, the required load loaded of generation control hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S402, send described first steering order to described load, and start described load according to described first steering order;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

Second steering order of the load that S403, the described load of generation adjustment load;

This execution step is identical with the principle of above-described embodiment two, refers to embodiment two, does not repeat them here.

S404, send described second steering order to described load, and according to the load that described second steering order regulates described load to load;

This execution step is identical with the principle of above-described embodiment two, refers to embodiment two, does not repeat them here.

S405, generate the command sequence of described hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S406, send described command sequence to described hardware to be tested;

This execution step is identical with the principle of above-described embodiment one, refers to embodiment one, does not repeat them here.

S407, receive described hardware to be tested when load described load, perform described command sequence feedback test point state;

After the command sequence of generation is sent to hardware to be tested, hardware to be tested is resolved the command sequence received, then corresponding series of operations is performed, after complete corresponding series of operations, the state of hardware testing point to be tested is fed back, wherein test point state comprises the current/voltage state of test point, and what can judge each components and parts in hardware to be tested by the feedback of test point state cut-offs line state.

S408, receiving described hardware to be tested when loading described load, performing the running status of internal circuit of described command sequence feedback;

After the command sequence of generation is sent to hardware to be tested, hardware to be tested is resolved the command sequence received, then corresponding series of operations is performed, after complete corresponding series of operations, the running status of internal circuit in hardware to be tested is fed back, namely feeds back the state produced when internal circuit performs the corresponding command sequence in hardware to be tested.Such as, voltage AD value, electric current AD value, I/O port state etc.

S409, the analog and digital signal fed back when receiving described load running.

This execution step is identical with the principle of above-described embodiment three, refers to embodiment three, does not repeat them here.

In sum, the present embodiment is on the basis of embodiment three, perform corresponding command sequence by hardware to be tested, the ruuning situation of the peripheral components that hardware control to be tested controls can be got, and hardware control to be tested exports and the data of the controller inside of monitoring.

As shown in Figure 5, a kind of hardware automated test macro disclosed in the embodiment of the present invention five, comprising:

First generation unit 501, for generating the first steering order controlling the load loaded needed for hardware to be tested;

When needs are tested hardware, first the first steering order of the load controlling hardware to be tested required loading when actual motion is generated by the first generation unit 501, wherein, the load of required loading can be selected according to the different application environment of hardware to be tested.

First control module 502, for sending described first steering order to described load, and starts described load according to described first steering order;

After the first generation unit 501 generates the first steering order, the first steering order generated is sent to the load loaded needed for hardware to be tested by the first control module 502, and according to the first steering order starting load, be loaded on hardware to be tested by load, simulation test environment.

Second generation unit 503, for generating the command sequence of described hardware to be tested;

Then, generate corresponding command sequence by the second generation unit 503 according to the type of hardware to be tested and performance to be tested and function, every bar command sequence of described generation comprises starting and ending mark.

Transmitting element 504, for sending described command sequence to described hardware to be tested;

After the second generation unit 503 to generate the command sequence of hardware to be tested according to testing requirement, the command sequence of generation is sent to hardware to be tested by transmitting element 504.

First receiving element 505, for receiving described hardware to be tested when loading described load, performs the execution result of described command sequence feedback.

After the command sequence of generation is sent to hardware to be tested by transmitting element 504, hardware to be tested is resolved the command sequence received, then corresponding series of operations is performed, after complete corresponding series of operations, corresponding execution result is fed back, thus receive hardware to be tested when offered load by the first receiving element 505, the execution result of fill order sequence feedback.

In sum, in the above-described embodiments, by generating the first steering order controlling the load loaded needed for hardware to be tested, and according to the first steering order starting load generated, load is loaded into hardware to be tested, forms the dry run environment of hardware to be tested; Meanwhile, generate the command sequence of hardware to be tested, make hardware to be tested perform the command sequence received, and feed back the execution result of fill order sequence.Achieve and ensure that the normal power-up of hardware to be tested is run by load, hardware to be tested is run in dry run environment, can the comparatively comprehensive function to hardware and performance test.

As shown in Figure 6, a kind of hardware automated test macro disclosed in the embodiment of the present invention six, comprising:

First generation unit 601, for generating the first steering order controlling the load loaded needed for hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

First control module 602, for sending described first steering order to described load, and starts described load according to described first steering order;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

3rd generation unit 603, for generating the second steering order of the load that the described load of adjustment loads;

Due in the test process of hardware to be tested, may existing and treat the test that testing hardware loads the load of different load amount, when needing the load treating testing hardware loading to adjust, generating the second steering order by the 3rd generation unit 603.

Second control module 604, for sending described second steering order to described load, and according to the load that described second steering order regulates described load to load;

After the 3rd generation unit 603 generates the second steering order, the second steering order generated is sent to the load loaded needed for hardware to be tested by the second control module 604, and according to the load that the second steering order regulating load generated loads.

Second generation unit 605, generates the command sequence of described hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

Transmitting element 606, for sending described command sequence to described hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

First receiving element 607, for receiving described hardware to be tested when loading described load, performs the execution result of described command sequence feedback.

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

In sum, the present embodiment is on the basis of embodiment five, by generating the second steering order, and the size treating the load of the required loading of testing hardware according to the second steering order generated regulates, make in the test process of hardware to be tested, the demand of hardware to be tested to the load of different size can be met, make the test treating testing hardware more flexible.

As shown in Figure 7, a kind of hardware automated test macro disclosed in the embodiment of the present invention seven, comprising:

First generation unit 701, for generating the first steering order controlling the load loaded needed for hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

First control module 702, for sending described first steering order to described load, and starts described load according to described first steering order;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

3rd generation unit 703, for generating the second steering order of the load that the described load of adjustment loads;

This execution step is identical with the principle of above-described embodiment six, refers to embodiment six, does not repeat them here.

Second control module 704, for sending described second steering order to described load, and according to the load that described second steering order regulates described load to load;

This execution step is identical with the principle of above-described embodiment six, refers to embodiment six, does not repeat them here.

Second generation unit 705, for generating the command sequence of described hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

Transmitting element 706, for sending described command sequence to described hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

First receiving element 707, for receiving described hardware to be tested when loading described load, performs the execution result of described command sequence feedback;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

Second receiving element 708, the analog and digital signal fed back during for receiving described load running.

In the process treating testing hardware test, the ruuning situation can also treating the load that testing hardware loads is tested, and analog and digital signal when running is carried out real-time feedback by load.Described analog and digital signal can be the analog and digital signal of current/voltage during sign load running.

In sum, the present embodiment is on the basis of embodiment six, can also treat the ruuning situation of load that testing hardware loads to test, by the situation of analog and digital signal fed back during load running, function and the performance that more further can treat testing hardware are tested.

As shown in Figure 8, a kind of hardware automated test macro disclosed in the embodiment of the present invention eight, comprising:

First generation unit 801, for generating the first steering order controlling the load loaded needed for hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

First control module 802, for sending described first steering order to described load, and starts described load according to described first steering order;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

3rd generation unit 803, for generating the second steering order of the load that the described load of adjustment loads;

This execution step is identical with the principle of above-described embodiment six, refers to embodiment six, does not repeat them here.

Second control module 804, for sending described second steering order to described load, and according to the load that described second steering order regulates described load to load;

This execution step is identical with the principle of above-described embodiment six, refers to embodiment six, does not repeat them here.

Second generation unit 805, for generating the command sequence of described hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

Transmitting element 806, for sending described command sequence to described hardware to be tested;

This execution step is identical with the principle of above-described embodiment five, refers to embodiment five, does not repeat them here.

First receiving element 807, for receiving described hardware to be tested when loading described load, performs the test point state of described command sequence feedback;

After the command sequence of generation is sent to hardware to be tested, hardware to be tested is resolved the command sequence received, then corresponding series of operations is performed, after complete corresponding series of operations, the state of hardware testing point to be tested is fed back, wherein test point state comprises the current/voltage state of test point, and what can judge each components and parts in hardware to be tested by the feedback of test point state cut-offs line state.

First receiving element 807, for receiving described hardware to be tested when loading described load, performs the running status of the internal circuit of described command sequence feedback;

After the command sequence of generation is sent to hardware to be tested, hardware to be tested is resolved the command sequence received, then corresponding series of operations is performed, after complete corresponding series of operations, the running status of internal circuit in hardware to be tested is fed back, namely feeds back the state produced when internal circuit performs the corresponding command sequence in hardware to be tested.Such as, voltage AD value, electric current AD value, I/O port state etc.

Second receiving element 808, the analog and digital signal fed back during for receiving described load running.

This execution step is identical with the principle of above-described embodiment seven, refers to embodiment seven, does not repeat them here.

In sum, the present embodiment is on the basis of embodiment seven, perform corresponding command sequence by hardware to be tested, the ruuning situation of the peripheral components that hardware control to be tested controls can be got, and hardware control to be tested exports and the data of the controller inside of monitoring.

As shown in Figure 9, be the hardware automated testing apparatus of one disclosed by the invention, comprise: hardware automated test macro 901, Signals Transfer Board 902, needle-bar 903, hardware to be tested 904 and load 905; Wherein:

Hardware automated test macro 901 is connected with load 905 by connection, and the first steering order of the control load 905 of generation is sent to load 905 by connection, and according to described first steering order starting load 905;

Hardware automated test macro 901 is also connected with hardware 904 to be tested by connection, and the command sequence of the hardware to be tested 904 generated is sent to hardware 904 to be tested by connection;

Hardware automated test macro 901 is also connected with load 905 by Signals Transfer Board 902, receives the analog and digital signal of feedback when load 905 runs;

Load 905 is connected with hardware 904 to be tested;

Institute's Signals Transfer Board 902 is also connected with needle-bar 903, and needle-bar 903 is connected with hardware 904 to be tested by testing needle;

Hardware automated test macro 901 receives hardware 904 to be tested when offered load 905 by connection and Signals Transfer Board 902, performs the execution result of described command sequence feedback.

The principle of work of the hardware automated test macro disclosed in the present embodiment is identical with the principle of work of hardware automated test macro disclosed in embodiment five to embodiment eight, does not repeat them here.

If the function described in the present embodiment method using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computing equipment read/write memory medium.Based on such understanding, the part of the part that the embodiment of the present invention contributes to prior art or this technical scheme can embody with the form of software product, this software product is stored in a storage medium, comprising some instructions in order to make a computing equipment (can be personal computer, server, mobile computing device or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (read-only memory) (ROM, Read-OnlyMemory), random access memory (RAM, RandomAccessMemory), magnetic disc or CD etc. various can be program code stored medium.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiment, between each embodiment same or similar part mutually see.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (9)

1. a hardware automated method of testing, is characterized in that, comprising:

Generate the first steering order controlling the required load loaded of hardware to be tested;

Send described first steering order to described load, and start described load according to described first steering order;

Generate the command sequence of described hardware to be tested;

Send described command sequence to described hardware to be tested;

Receiving described hardware to be tested when loading described load, performing the execution result of described command sequence feedback.

2. method according to claim 1, is characterized in that, described start described load according to described first steering order after also comprise:

Generate the second steering order of the load that the described load of adjustment loads;

Send described second steering order to described load, and according to the load that described second steering order regulates described load to load.

3. method according to claim 2, is characterized in that, the described hardware to be tested of described reception, when loading described load, also comprises after performing the execution result of described command sequence feedback:

The analog and digital signal fed back when receiving described load running.

4. according to the method in claim 1-3 described in any one, it is characterized in that, the described hardware to be tested of described reception performs described command sequence feedback execution result when loading described load comprises:

Receiving described hardware to be tested when loading described load, performing the test point state of described command sequence feedback;

Receiving described hardware to be tested when loading described load, performing the running status of the internal circuit of described command sequence feedback.

5. a hardware automated test macro, is characterized in that, comprising:

First generation unit, for generating the first steering order controlling the load loaded needed for hardware to be tested;

First control module, for sending described first steering order to described load, and starts described load according to described first steering order;

Second generation unit, for generating the command sequence of described hardware to be tested;

Transmitting element, for sending described command sequence to described hardware to be tested;

First receiving element, for receiving described hardware to be tested when loading described load, performs the execution result of described command sequence feedback.

6. system according to claim 5, is characterized in that, also comprises:

3rd generation unit, for generating the second steering order of the load that the described load of adjustment loads;

Second control module, for sending described second steering order to described load, and according to the load that described second steering order regulates described load to load.

7. system according to claim 6, is characterized in that, also comprises:

Second receiving element, the analog and digital signal fed back during for receiving described load running.

8., according to the system in claim 5-7 described in any one, it is characterized in that, described first receiving element specifically for:

Receiving described hardware to be tested when loading described load, performing the test point state of described command sequence feedback;

Receiving described hardware to be tested when loading described load, performing the running status of the internal circuit of described command sequence feedback.

9. a hardware automated testing apparatus, is characterized in that, comprising: hardware automated test macro, Signals Transfer Board, needle-bar, hardware to be tested and load; Wherein:

Described hardware automated test macro is connected with described load by connection, and the first steering order of described for the control of generation load is sent to described load by connection, and starts described load according to described first steering order;

Described hardware automated test macro is also connected with described hardware to be tested by connection, and the command sequence of the hardware described to be tested generated is sent to described hardware to be tested by connection;

Described hardware automated test macro is also connected with described load by described Signals Transfer Board, the analog and digital signal fed back when receiving described load running;

Described load is connected with described hardware to be tested;

Described Signals Transfer Board is also connected with described needle-bar, and described needle-bar is connected with described hardware to be tested by testing needle;

Described hardware automated test macro receives described hardware to be tested when loading described load by connection and described Signals Transfer Board, performs the execution result of described command sequence feedback.