DE1294424B - Method and circuit arrangement for limiting the load on a program-controlled data dialing switching system - Google Patents

Description

ι 2

The invention relates to the limitation of the gene, the mean size of which depends on the time load a program-controlled data selection load of the main memory depends. To avoid mediation system. denotes that the allowable distortion is exceeded

In multiple room exchanges and exchanges, the load on the exchange may be one

genes with a synchronous time multiple will not exceed a certain limit,

connection request rejected by occupancy if it is the object of the invention to remove the load

the requesting feeder no free connection to the switching center with a maximum permissible

application path or no more clocks are allocated to limit distortion.

can. The distortion of the switched messages The invention is aimed at solving this problem

in these systems, regardless of the load, is based on the idea that all connection requests,

the switching centers. which would lead to an inadmissible burden,

Recently, a switching system has now been used to reject the occupancy. The task the code multiple data exchange system is achieved according to the invention in that the fittings, in which the load and the distortion load on the main memory by internal and Probability, d. H. the probability of 15 external feeders by determining the number of the exceeding of predetermined distortions, requested memories of one another within a unit of time depend. The purpose of the invention is to measure cycles with such internal connections Probability of bias in a verger, the priority of which is lower than that of the external one system of this type to limit. Feeder, generally not taken into account

In the code multiple data switching system, the fact that the exceeding of predetermined values is determined only by the polarity change of the load thresholds to be transmitted and that in the case of inherited data signals are transmitted. The system consists of the highest permissible load as shown in FIG Invention measures input code converter ECW or output code - a testing and measuring device which are connected to the working converter ACW . These code converters store behaviors supplied by the input code converter, the 1-out-of-n code in which the load, and compares this with a predetermined external unit to the code converter connected load threshold and initiates the occupancy. sen are to implement in the within the switching system 30 Da the switching processes and programs simul used binary code. The code wall tan run, is - as already proposed and as are known from the data processing technology via the input and output codes - a priority control is provided in the ECV or ACV with the central control. In order to achieve a possible ZSt connected, which consists of several, not shown, low distortion, the control units and the working memory Sp consists. 35 input code converter compared to the other control Every external feeder is at least one cell units the higher priority, so that this is assigned to the waiting of the main memory, which, besides other times, the potential change cannot influence the address of the respective NEN via the feeder. This contains the receiver of the input code converter in the memory, the load supplied during the connection is therefore only written into this cell for the waiting setup. The 40 times or for the distortion probabilities main memory also contains all data and authoritative.

Programs designed to solve the switching technology. Further details of the invention are available from

niche tasks are required. several exemplary embodiments and from FIG. 2

Appears at one of the inputs of the input code.

converter a request, the reference is identified by the input code converter. processing arrangement for carrying out the invention. The electronic counter Z is simultaneously connected to the output of the input code converter with a memory input code converter ECW via the input program channel EPK . On every cycle. If the input code converter is assigned an input code converter required storage cycle - storage cycle (retrieval via EPK from the 50, i.e. whenever the binary coded address is from the central controller), the binary address of a feeder is transferred to the feeder via the input code multiple the input code multiple is transferred to the memory Sp - the counter reading is transferred to the memory and with the help of this address it is increased by "1". The counter Z is read with the test input address of the recipient. Each switching direction P connected, which does not represent a process in the clock T thus requires a read cycle. Sending 55 set central clock is queried and several feeders simultaneously request the code converter to reset the counter to "0" with each clock pulse, this request must be set. If the counter reading is exceeded within a rang, they will be processed one after the other. There are waiting times given by the distance between two clock pulses, the duration of which of the number of time intervals the highest permissible counter reading, simultaneously existing connections, of which the highest permissible load of the working telegraphing speed and of the memory is exceeded, it appears at the output of the duration of a storage cycle, ie the number of a signal per test device P. The load threshold time unit of available memory cycles can be a function of what is known per se in the test device. In addition, various control units for the implementation of various control units contribute to the loading of the memory by means of an adjustable coincidence circuit; if the setting of the counter Z corresponds to stored programs, since for reading this and this coincidence circle, then a command will also be necessary for memory cycles. Output signal formed. This output signal is fed to the control unit St, which thereupon causes distortion

the memory ^ requests a program for the busy release. With the help of this program, all further connection requests are now rejected.

According to another embodiment of the invention, an up / down counter is used as counter Z, which is also connected to the output of the input code converter and whose status is increased by "1" for each storage cycle required by the input code converter. Regardless of the counting of the memory cycles, the counter reading is reduced by "1" in each case by the clock pulses T of a clock generator (dashed line). If a specified number is exceeded, this is evaluated in the manner already described as a criterion for excessive exposure.

In the context of the invention, it is also possible to increase the load analogously, namely by integration measure up. In this embodiment, an integrating circuit is connected to the output of the input code converter connected and fed with the impulses occurring there. This circuit is then either queried and reset in the same way as the counter described above in the cycle of a clock generator, or it is constantly discharged; the last-mentioned method has the advantage that a time grid is superfluous. With both methods, however, the exceeding of a specified level evaluated by the test device as a criterion for excessive load on the main memory.

Within the scope of the invention, it is also possible to restrict the acceptance of connections in a graded manner according to their urgency even before the highest permissible load is reached. In this case, the test device recognizes several stress thresholds, each of which is characterized by characteristic signals. These signals are transferred to the control unit St which, by comparing the signals with the identifiers of the incoming occupancies, determines which connections are permitted. In this way, it is possible, for example, to only consider connections that have already occupied a certain number of line sections in the network, priority connections and connections reserved as a service for a certain time when a first load threshold is exceeded. When a second load threshold is exceeded, only priority connections and reserved connections are accepted, and when a third load threshold is exceeded, only reserved connections are accepted.

It should finally be pointed out that the input code converter is indeed in the As a rule, it has the highest priority when accessing the main memory compared to the other control units has that, however, in some operating states of the exchange of another control unit temporarily - possibly depending on the program - a higher priority can be assigned. This one Control unit can then contribute to the distortion of the message to be conveyed, in this case both the load on the exchange by the input code converter and by the control unit measured at the input of the working memory.

Claims (7)

Patent claims: 1. Method for limiting the load on a program-controlled data switching system, characterized in that the load on the main memory by internal and external feeders by determination the number of memory cycles requested within a time unit is measured, with such internal tributaries, the priority of which is lower than that of the external tributaries, in general are not taken into account that the exceeding of predetermined load thresholds is determined and that when reached the highest permissible load an occupancy for all other occupancy requirements is made. 2. Circuit arrangement for carrying out the method according to claim 1, characterized in that a testing and measuring device (F, Z) measures the load supplied to the main memory (Sp) from the input code converter (ECW) and compares it with a predetermined load threshold and the occupancy initiates. 3. Circuit arrangement according to claim 2, characterized in that the input code converter (ECW) feeds an integrating circuit (Z) with a pulse for each memory cycle to be evaluated. 4. Circuit arrangement according to claim 3, characterized in that the testing device (P ) queries and resets the integrating circuit (Z) in time with a clock (T "). 5. Circuit arrangement according to claim 3, characterized in that the integrating circuit discharges continuously. 6. Circuit arrangement according to claim 2, characterized in that the input code converter (ECW) increases an electronic counter (Z) for each memory cycle to be evaluated by "1" and that the test device (P) queries and resets this counter in time with a clock . 7. Circuit arrangement according to claim 2, characterized in that the input code converter (ECW) increases an up-down counter (Z) for each memory cycle to be evaluated by "1" and that the test device (P) this counter in time with a clock resets each time by »1«. 1 sheet of drawings