FR2938069A1 - Electronic board controlling method, involves carrying out specific correction of control scenario to incorporate modification in board under development, and controlling test phase comprising automated execution of modified scenario - Google Patents

Abstract

The method involves using a manual test bench comprising a set of actuators and a set of test outputs. The actuators are manually actuated according to an established sequence, and data representing the actions and results of the actions are stored on an electronic medium to establish a reproducible control scenario, during a test phase. A specific correction of the control scenario is carried out to incorporate a modification in an electronic board under development, and a test phase comprising an automated execution of the modified scenario is controlled.

Description

The invention relates to a method for controlling an electronic card during its development phase. At present, the control of an electronic card during its development phase is conventionally performed on a manual test bench comprising a plurality of actuators intended to be connected to each of the inputs of the electronic card in order to simulate a change of state of said input, and a plurality of control outputs to be connected to each of the outputs of the electronic card for viewing the state of said output. According to a first entirely manual control procedure, the control of the electronic cards consists in carrying out test phases during which an operator manually activates, in an established sequence, the actuators, then displays the result of each of these actions on the control outputs. . The advantage of such a procedure lies in its simplicity of implementation. On the other hand, this procedure has a major drawback resulting from the fact that it is very difficult to guarantee the initial configuration of the test bench, the sequencing of the sequences and the complete observation of the state of the outputs. As a result, many phases of tests prove to be biased and lead to erroneous results whose origins are, in addition, often difficult to diagnose. Another procedure conventionally used at present is to perform a computer write of a test scenario executable automatically on a bench. Such a procedure overcomes the disadvantages of the manual procedure because the initializations are controlled and performed automatically at the beginning of each test phase. In addition, once the scenario has been programmed, it can be automatically executed an unlimited number of times, and possibly be easily modified to take into account changes in the electronic card. On the other hand, such a procedure proves to be very cumbersome because the programming and debugging step needed to develop the initial scenario requires a very important programmer time. As a result, such a procedure proves to have a cost price that is much higher than that of a manual procedure and can not therefore be implemented for the development of all the products. The present invention aims at overcoming the drawbacks of the current control methods of the electronic cards, and its main objective is to provide a method of controlling an implementation cost comparable to that of a manual control procedure, resulting in the implementation of a suitable scenario so that it can be easily modified and then re-executed automatically in order to take into account changes in the electronic card. For this purpose, the invention aims at a method of controlling an electronic card during its development phase, according to which: a manual test bench is used comprising a plurality of actuators intended to be connected to each of the inputs of the electronic card for simulating a change of state of said input, and a plurality of control outputs to be connected to each of the outputs of the electronic card for viewing the status of said output, - during the development phase of the electronic card, test phases are performed during which the actuators are actuated manually and the result of each of these actions is displayed on the control outputs. According to the invention, this control method consists of: - performing a first test phase during which the actuators are actuated manually, in an established sequence, and the various representative data of each of them are stored on a computer medium; of these actions and results from them, so as to establish a repeatable control scenario, - and at each modification of the electronic map under development, to make a spot correction of the control scenario, aimed at integrating this change, then to order a test phase consisting of an automated run of the modified scenario. The control method according to the invention therefore consists in using a manual test bench and performing an initial test phase during which the operator makes a computer recording of the data representative of the successive tests carried out, and at the end of which a reproducible control scenario is thus developed and stored, which can then be automatically executed an unlimited number of times, and easily modified to take account of changes in the electronic card. Such a method therefore makes it possible to establish a reproducible and modifiable test scenario, by means of a simple initial computer recording operation that can be carried out at low cost by a test operator. In addition, according to the invention, during the first test phase, it is advantageous to record, during each action, not only the data representative of said action and the results obtained, but also data representative of a given time period. between action and getting results. Likewise, during this first phase of tests, it is advantageous to record data representative of a time limit between two successive actions.

Thus, during the first phase of tests, the operator records successively for each action: - the action ordered, - the time allowed to obtain a result following this action, - the result obtained at the level of the control outputs may change of state following the ordered action, - and the time allowed before the order of the next action. This first phase of tests leads to the development of a reproducible scenario where each parameter recorded (action, result, time) can then be modified individually.

Subsequently, during each modification of the electronic card under development, a spot correction of the control scenario can be performed, and the modified scenario can be tested during an automated test phase.

Claims (1)

REVENDICATIONS1. A method of controlling an electronic card during its development phase, according to which: a manual test bench is used comprising a plurality of actuators intended to be connected to each of the inputs of the electronic card in order to simulate a change. state of said input, and a plurality of control outputs to be connected to each of the outputs of the electronic card for viewing the state of said output, - and is carried out, during the development phase of the electronic card, of the test phases during which the actuators are actuated manually and the result of each of these actions is visualized on the control outputs, the said control method being characterized in that it consists in: first phase of tests during which one actuates manually, according to an established sequence, the actuators, and one memorizes, on a computer support, the dif data representative of each of these actions and the results deriving from them, so as to establish a reproducible control scenario, - and at each modification of the electronic map under development, to make a specific correction of the scenario of control, aiming at integrating this modification, then at controlling a testing phase consisting of an automated unfolding of the modified scenario. 2 / A method of control according to claim 1 characterized in that, during the first phase of tests, is recorded, in each action, the data representative of said action and the results obtained, as well as data representative of a time between action and results. 3 / A method of control according to one of claims 1 or 2 characterized in that one records data representative of a time limit between two successive actions.