DE2136762B2 - DEVICE FOR EXTENDING A BASIC PROGRAM STORED IN A FIXED VALUE MEMORY - Google Patents

Description

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The invention relates to a device for expanding a memory stored in a read-only memory Basic program to additional programs stored in at least one additional read-only memory, in particular for program-controlled telephone exchanges.

In cases in which programs, for example those from program-controlled switching systems, often have to be processed in an unchanged form, these are electrically non-changeable Memory, e.g. B. thread memory stored. However, especially with switching systems, the It is possible to change the fixed value programs at a later date. Basically could a change can of course be made in such a way that the entire memory unit is exchanged for a new one that contains the additional program. This possible solution is from the production and, as long as the old storage units are not reused, also in terms of material costs expensive. In addition, measures would have to be taken in this case to make it possible during after switching on the new memory unit to maintain the execution of the switching programs, for which, for example, it would have to be possible to use an additional memory to bridge the gap to turn on.

Another possibility to design a permanently stored program so that it can be changed from the outset, would consist in planning all possible jump points from the basic program in advance will. To do this, each program step would have to be followed by an empty step, which is generated by a sequence control would be interpreted in such a way that the command counter is increased by 1. If necessary would then be individual spaces with the addresses the additional programs accommodated on additional storage units. These too Solution would have a number of disadvantages. As a result of the provided spaces, this would be the case initially twice the amount of memory required. In addition, when introducing additional programs a change in the basic storage unit can be made in each case by using the spaces the jump addresses are introduced. In addition, measures should also be taken here to maintain it the placement programs should be provided during the introduction of the additional programs. Ultimately, this would also result in this solution an increase in the time required to carry out the program, since after each one Program step an empty step must be controlled.

It would also be conceivable to store address pairs in a further memory belonging to the system. "One address of which identifies a jump point and the other address a jump destination with one of them matches. Even here · would take a high time burden for this.

The invention has the task of specifying a device which, when operated, has these disadvantages do not occur and in particular the conditions are met for a program change to germinate Changes to the basic program require no increase in the time burden on the control unit It must be accepted that the additional programs can be switched on, without the execution of the basic program being disturbed, and that no V01 services are available for the additional programs are required in the memory unit containing the basic program.

This object is achieved in a device of the type mentioned above by a program switch, the command counter that supplies the program steps with such counter readings, which were subsequently declared jump addresses and permanently stored in the program switch Represent program step addresses of the basic program, a criterion is generated that creates a sequence control unit causes the command counter to be executed for the execution of the next program step to set the address of that program step of an additional read-only memory that controls the sequence the value specified by the program switch stored in this or in other additional fixed-value memories Additional program, the address of this program step from the status of the Command counter is derived from this at the time of determining the equality of command counter reading and content of the program switch.

In the following, an embodiment of the invention is explained using a figure that is shown in Block diagram shows the necessary facilities.

A read-only memory in which the basic program is stored is denoted by F in the figure. To save an additional program to the

The basic program is to be expanded, the additional fixed value memory F 1 is used. Additional additional fixed value memories can also be provided. The addresses of the program steps of the main program or the additional programs are generated by an instruction counter Z. It affects practice ^r a line I the memory F and f1.

The program sequence is determined by a sequence control A. With a line 3, this sequence control causes the command counter Z to drive the memory via the line 1 with the set command counter reading. As long as only the basic program is being used, the sequence control A also sends a criterion to the command counter Z via the line 7. whether it should continue counting to the next program step address, which corresponds to the case of a pure operational step, or whether the counter reading should be modified via line 9 with the program step address stored in read register LR. The sequence control itself decides between these two possibilities on the basis of the information supplied by the decoder DC via the connection 8 about the type of the set program step and other information supplied by the system to be controlled, the supply of which is not shown here. The last-mentioned modification corresponds to the case of unconditional or conditional program step jumps.

The device according to the exemplary embodiment of the invention is expanded by a program switch P , which can be subdivided into a recognition part E and a coding part C, compared to the arrangement described. The input of the recognition part E is connected to the output of the command counter Z via the lead 4. In this recognition part £, specific, arbitrary counter readings of the command counter are permanently stored. These are counter readings that correspond to the program step addresses of the basic program, which were subsequently declared as jump points from the basic program.

If one of these fixed counter readings of the command counter Z is now recognized by the recognition part E of the program switch P, the program switch P sends a criterion to the sequence control A via the line 5. This has the consequence that

Now due to the criterion supplied to the counter Z via the line 7, a modification of the counter reading of the counter Z is brought about not as when a conditional or unconditional jump within the main program is brought about via the line 9, but via the line 6 in such a way that In any case, the additional fixed value memory F 1 is activated.

The address part pointing to the additional read-only memory can be hard-wired. Which program step is controlled within the additional read-only memory depends on the influence of the counter Z on the part of the coding part Z of the program switch via the line 6. The program steps controlled in this way in the additional program memory determine which parts of the additional program, which can also be stored in additional additional read-only memories, are to be subsequently executed.

1 sheet of drawings

Claims (1)

Claim: Device for expanding a basic program stored in a read-only memory, in order to add additional programs stored in at least one additional read-only memory, in particular for program-controlled telephone exchanges, characterized by a program switch (P; E. C) which, at such counter readings, of a command counter Z delivering the addresses of the program step the program step addresses of the basic program, which are subsequently declared jump addresses and are permanently stored in the program switch (P), generate a criterion that causes a sequence control unit (A) to set the command counter (Z) to the address of that program step of an additional read-only memory (F 1) for the execution of the next program step ), which initiates the sequence deb in this or in other additional fixed value stores stored additional program specified by the program switch, the address of this program step from the status of the command as count ers (Z) is derived, which this held at the time of the determination of the equality of the command counter reading and the content of the program switch (P). 30th