NL8300768A - METHOD AND APPARATUS FOR SUBMITTING INFORMATION IN TWO INFORMATION PROCESSING DEVICES. - Google Patents

Description

«« * Ί r \ 4.

Method and device for arranging information in two information processing devices.

The invention relates to a method and an apparatus for arranging information in two information processing devices.

Information exchange control 5 is already known for two microcomputers, for each microcomputer a memory operating according to the first-in-first-out principle, which is provided on the output side with the information trunk of the associated microcomputer and on the input side with the information trunk the other microcomputer is connected. The two memories belong to information exchange devices, which are jointly connected to a transmission line. The information exchange devices form a coupling element and which enable a direct exchange of information between the two micro-computers in full duplex operation (DE-AS 27 ^ 9 226).

The object of the invention is to develop a method and a device for applying information in two information processing devices, wherein the two information processing devices are relieved of the load for testing the applied information.

According to the invention, the object is achieved in that the information arriving in the transmitting / receiving devices is stored in an intermediate memory and is examined for the correctness, that each transmitting / receiving device only transmits the information recognized as correct thereto to the information processing devices connected thereafter. and that each transmitting / receiving device communicates the result of the test to the other transmitting / receiving device, which, when passing on the information it has recognized as correct, reports on the result of the examination of the other transmitting / receiving device to the information processing device applied thereafter.

In two information processing devices which process 8300768 i - 2 - the same applied information, the above described method eliminates the testing of the received applied information and a mutual communication about the result of the investigation. When the applied information arrives in rapid succession, this results in a considerable reduction in processing time in the information processing devices. In particular, the applied information can be received in rapid order and further processed without overloading the two information processing devices.

A preferred embodiment consists in that the information in the form of telegrams is received in the transmitting / receiving devices and is examined for completeness as well as for correctness, that every transmitting / receiving device after the end of a telegram and its correctness a message signal for the other transmitter / receiver device, while in the event of an error the received telegram is not transmitted, that after the generation of the message signal after a delay time has elapsed, the presence of the message signal is examined by the other transmitter / receiver device and that if the signal from the other transmitter / receiver is present, the received telegram is transmitted to the information processing device provided thereafter without reporting a synchronization error. According to this method, information in which errors have been detected are not passed on to the information processing devices. Correctly received information comes from the transmitting / receiving device to the information processing device arranged afterwards. When the parallel operating transceiver has detected an error or is operating incorrectly, it is reported to that information processing device, which contains the correct applied information. The corresponding measures for rectifying the determined error can then be initiated via this information processing device. In addition, the burden on the investigation and the mutual reporting of the result is small.

In an effective embodiment it is ensured that, after the correct telegram has been passed on to the information processing device arranged thereafter, the report signal is taken back and that the reset report signal of the other transmitting / receiving device is determined when determining the end of the telegram and the correctness of the telegram is a criterion for a synchronization error. With these measures it is easy to see whether a synchronization error is present.

An apparatus for carrying out the method according to the invention consists in that two information processing devices are each connected via a parallel main line to a transmitting / receiving device, the receiving inputs of which are connected to a common transmission channel.

The invention will be elucidated with reference to the drawing.

Figure 1 shows a device for arranging information in two information processing devices.

Figure 2 is a representation of received information and of signals from the transmitting / receiving devices depending on the time.

Figure 3 is a diagram of the course of the 20 different steps, which are carried out by a transceiver of the device according to Figure 1.

A first information processing device 1 is connected to a parallel input, output main line 2, to which a transmit / receive device 3 is connected. In the same manner, a second information processing device U is connected to an input, output main line 5 with parallel lines.

A second transmit / receive device 6 is connected to the input, output main line 5.

Both transmitting / receiving devices 3, 6 are connected to a common input line 7, which is fed by a Modem 8. The output lines 9, 10 of the transmit /! receiving devices 3, 6 communicate with a switch 11, which is also connected to a Modem 8. The Modem 8 is connected to the end of a transmission channel 12, the example being a telephone line.

8300768 ar - ¾ -

A further output of the transmit / receive device 3 is connected via an amplifier 13 and an unspecified line with a "binary memory 1" to the transmit / receive device 6. The binary memory 1 "is connected by the transmit / receive device 6 The transceiver 6 is connected via an amplifier 15 and an unspecified line to a binary memory 16, the output of which is connected to the transceiver 3.

In Fig. 1, striped, unspecified transmitting / receiving devices are shown, which are each connected via an input / output trunk 2, 5 to an information processing device 1, U. The further transmitting / receiving devices are connected to each other and to a transmission channel in the same manner as the transmitting / receiving devices 3, 6.

The two information processing devices 1, ¾ are coupled to one another via an information exchange channel 17. Information and processing results between the information processing devices 1, worden are transmitted via channel 17.

Telegrams arrive on channel 12, for example, which, after the demodulation of the carrier wave via line 7, reach the transmitting / receiving devices 3, 6 simultaneously. Fig. 2 shows a telegram 20 in the form of a rectangular signal, the time t in the abscissa direction and the amplitude in the ordinate direction. The telegram consists of binary signals, which are not presented separately. The telegram has ended at time t1. A transfer pause 21 follows until a new telegram 22 is received.

The second line of figure 2 shows the temporary loop of the signal 23 output by the transmitter / receiver device 3 via the amplifier 13. The third line of figure 2 shows the temporary loop of the signal 2¾ issued by the transceiver 6 via the amplifier 15.

The telegram 20 is examined for the presence of errors in both transmitting / receiving devices 1, ¾. In addition, the end of the telegram is checked in both transmitting / receiving devices .83 0 0 7 6 8.-5- ♦ 3, 6. Known devices are used per se for errors and for checking the telegrame end.

The result of the error investigation influences the further processing of the received telegram, which in the given case is transmitted with a code which corrects the error. In that case, it is possible to correct the received information in each transmission / reception device. The received telegram is placed in an intermediate memory during the error investigation in the transceiver 1. The transmitting / receiving devices 3, 6 are in particular equipped with micro-calculators. These micro-calculators control the cache, the error investigation and the transmission of the received information.

When the transmitting / receiving devices 3, 6 each time detect errors in the received information, the result of this negative examination is also communicated to the information processing devices 1, k installed afterwards. Such errors may, for example, be coding errors. Encoding errors show when. bits in the transferred information are forged. There may also be procedural errors that arise from deviations from the progression between the transmitted and received information. For example, during an interrogation, no notification or a notification outside the specified time period can be received. Insofar as a check of the transfer piece is present, further errors occur in the event of a malfunction of the transfer piece, which are communicated to the subsequent information processing devices.

Almost the cache, the error search and the telegrame end check are cyclically checked in each transmit / receive device - 3.6 the report signal by the other transmit / receive device.

In figure 3 the progress of the method of checking the message signal of the other transmitting / receiving device is indicated by 25. The notification signal is then checked whether it has a high or low level. Both levels 35 have different meanings. For example, switching can be performed at the low level when a further transmission of the received telegram to the information processing device 3 and 6 arranged afterwards has just been completed. The high level can be used as an indication that a telegram end 5 has been determined and that the telegram received is correct.

The binary memories 1, 16 may be D-flip-flops, in which a value step 18 is applied after a period of time to a value corresponding to the level of the notification signal. The low level of the message 10 signal includes, for example, the output state of the transmitter / receiver device 3, 6.

In the method step 25, it is examined in each transmitter / receiver device 3, 6 whether the value recorded in the memory 1U, 16 indicates the output state of the other transmitter / receiver device. If this is not the case, a characteristic is set in a method step 26 in the same transmitting / receiving device. If the message signal from the other transceiver is not in the initial state, then it proceeds to a method step 27, which is also the continuation of the method step 26.

In this method step it is examined whether a telegram end has been determined and whether the received telegram is correct.

The method step 25 takes place in the transmit / receive device b, for example at time tg, according to figure 2. At this time, the report signal from the transmit / receive device 3 is not in the output state. Therefore, the feature device is set before the method step 27 is performed.

It can be seen from Figure 2 that after the time t ^ the telegram 20 has ended. It is assumed that the telegram 20 was without errors. In that case, after the method step 27, a method step 28 follows, in which the transmitter / receiver device 6 sets the signal signal 2b for the transmitter / receiver device 3 via the amplifier 15. A time delay step 29 is connected to the method step 28, after which a step 30 follows.

The time delay according to Figure 2 may have ended at the time tg. In the method step 30 it is examined 8300768 - - T -% whether the report signal of the other transmitter / receiver is present. For example, if the transmit / receive device detects at the time t ^ that the message signal 23 is present, it performs the method step 31, which examines whether the method step 26 in which the marking device has previously been set has taken place. If the marking device is not set, then a method tau 32, in which the received telegram 20 is transmitted, is transferred to the information processing device arranged afterwards. The information processing device simultaneously reports that no synchronization errors of the transmitting / receiving devices 3.6 are present. .

When it is determined in step 31 that the marking device has been set, the method continues with a step 33, which is also carried out when in step 30 no notification signal of the other transmitter / receiver device is present. In step 33, the received telegram 20 is transmitted to the information processing device arranged thereafter, to which a synchronization error is simultaneously reported.

Each of steps 32, 33 follows the same step 3k, in which a notification signal is reset and the feature device is turned off.

If it is determined in step 27 that the end of the telegram is present, but the telegram is not correct, the next step 35 waits for a new telegram to arrive.

The two information processing devices 1, U process the same input information that arrives via the line 12. For example, one of the information processing devices may be in operation, while the other information processing device will take over when the first one fails.

8300768

Claims (8)

Method for arranging information in two information processing devices, which are in common connected to at least one transmission channel via a separate transmitting / receiving device, characterized in that the transmitting / receiving device (3, 6) information that has arrived is stored in an intermediate memory and it is checked that it is correct that each transmitting / receiving device (3, 6) transmits only the information which it recognizes as correct to the information processing device (1, k) applied thereafter and that each transmitting device - / receiving device (3, 6) transmits the result of its investigation to the other transmitting / receiving device (6, 3), which, when it passes on the information it has recognized as correct, reports on the result of the investigation from the other transmit / receive 15 device to the information processing device (1, M Method according to claim 1, characterized in that the information in the form of telegrams (20, 22) are received in the transmitting / receiving devices (3, 6) and are examined for completeness and correctness, that each transmitting / receiving device (3, 6) after the end of a telegram and its correctness generates a message signal (23, 2h) for the other transmitting / receiving device (6, 3), while in case of an error the received telegram (20, 22) it is not communicated that after the generation of a signal signal 25 after the expiry of a delay time, the presence of the signal signal (2b, 23) is examined by the other transmitting / receiving device and that with the incoming signal signal (2h, 23) the other transmitting / receiving device (6, 3) the received telegram (20, 22) is passed on without notification of a synchronization error to the information processing device (1, U) arranged afterwards, while in the absence of the reporting signal of the other transmitting / receiving device (6, 3 ) the received telegram (20, 22) is passed on to the information processing device (1, U) arranged thereafter with the notification of a synchronization error. Method according to claim 2, characterized by 8300768 - 9 - A, characterized in that after the transmission of the correct telegram (2 &, 22) to the information processing device (1, M) arranged thereafter, the message signal (23, 2b) and wherein the reset message signal of the respective other transmitting / receiving device 5 in determining the telegrame end and the correctness of the telegram is a criterion for a synchronization error. Method according to claim 1 or one of the following claims, with characterized in that each transmit / receive device (3, 6) issues an error message to the information processing device (1, 1 *) arranged afterwards in the event of a negative result of the investigation. Device for carrying out the method according to claim 1 or one of the following claims, characterized in that two information advertising devices (1, M each via a parallel information trunk (2, 5) with a transmitting / receiving device ( 3, 6), the reception inputs of which are connected to a common transmission channel (12). Device according to claim 5, characterized in that the transmit outputs of the transmit / receive devices (3, 6) are connected to the transfer channel (12) via an optionally actuatable switch. -7. Device according to claim 5 or 6, characterized in that each transmit / receive device (3, 6) via amplifiers 25 (13, 15) with a binary memory (I1) arranged on the other transmit / receive device (6, 3). !, 16) is connected. Device according to claim 5 or one of the following claims, characterized in that each transmitting / receiving device (3, 6) contains a micro-computing device. Device according to claim 5 or one of the following claims, characterized in that the information advertising / devices (1, M are connected to I via an information exchange channel (17). 10. Method substantially as described in the description and / or shown in the figure. 8300768 v ----- 10 - I "...... ........" ...... - 11. Device substantially as described in the description and as shown in the figure. . 83 0 0 7 6.8,