DE2454229A1 - DATA PROCESSING SYSTEM - Google Patents

Description

20-04596 Ge J Nov. 5, 1974

HONEYWELL INC.
2701 Fourth Avenue South
Minneapolis, Minn., USA

Data processing system

The invention relates to a data processing system with a data collector and containing a & r- * plurality of data Facilities / 'that can be connected to the collecting line.

Data processing systems usually contain a large number of components and devices, which contain the data in each case must be transmitted to other institutions in order to execute the program on which the invoice is based. Such components and devices are various in the form of tape readers or other input devices, registers, and memories, for example Species given.

The data to be treated in such a system can be a code which the institutions to which the data are to be communicated identified. All facilities can be connected to a common data collection line be connected. If so, via the data transmission line If a special code is transmitted, a special facility becomes enabled to receive the following data

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and the remaining facilities remain to receive the transmitted Data locked. Such a data bus is very economical in terms of connection wiring, but it is is subject to the condition that only one facility may be enabled at any given time with the Connect manifold. The procedure that ensures compliance with this condition is called S amme 1 rail allocation and the present invention relates more particularly to the field of busbar allocation.

When designing busbar allocation systems, it is common to do this to adapt to some required principles. If a particular facility ends its cooperation with the busbar, so a central device determines which specific other device still containing data is to be connected to the busbar. In a typical known use case, the various Each device is given priorities and the devices are connected to the busbar in the order of priority of priorities. Such a method leads to a complicated arrangement and becomes more complicated when ensured shall make the device with the highest priority take the bus not to claim for themselves, which would prevent facilities with lower priority ever from connected to the busbar.

Facilities of this type are expensive, difficult to design and maintain generally no fail-safe mode of operation.

In contrast, it is the object of the present invention to provide a data processing system to simplify and improve the aforementioned type with regard to the busbar allocation. the This object is achieved according to the invention characterized in claim 1. Further advantageous embodiments of the invention can be found in the subclaims.

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Using one of the figures in the accompanying drawing. shown Exemplary embodiment, the invention is explained in more detail below. Show it:

Figure 1 is a block diagram of the complete system according to the invention and

FIG. 2 shows the interaction of a device containing data with the manifold, shown in a block diagram.

According to Figure 1, a computer system has a plurality of data-containing devices 10, 11, 12, 13 and 14, each of which cooperate with a common bus 15 for the purpose of data exchange. The various facilities 10-14 included Data which can be addressed by bus 15 in a manner conventional in systems of this type is. On the representation of the appropriate addressing For the sake of clarity, components have been omitted in the present drawing.

The devices 10, 11, 12, 13 and 14 are via lines 16, 17, 20, 21 and 22 can be connected to the busbar 15 for the purpose of outputting data, while further lines 23, 24, 25, 26 and 27 of the receptacle of data from the busbar 15 to the devices 10, 11, 12, 13 and 14 serve.

According to Figure 2, the device 11 is shown in detail in a block diagram. The data to be delivered by the device to the bus line 15 are collected in a data memory 30. If a gate 31 connected between the collecting line 15 and the data memory 30 is opened, the data contained in the memory 30 are passed on to the collecting line 15 via lines 32 and 33, the gate 31 and the line 17. A signal generator 34 marking the end of the data output is connected to the data memory 30 via a line 35. In a known manner, it generates a Sig ¹ -nal on an output line 36 _; if there are no data in memory 30

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more are included. This end of data signal is generated in the case where either no data are contained in the memory or the data previously contained in the memory are output to the bus line 15 are.

The device 11 then contains a decoding _{device 40 f} which receives the data end signal via a line 24. Whenever an end of data signal appears on the bus 15, which data end signal can be emitted by any device, the decoding device 40 generates an output signal on a line 41 which is sent to a self-resetting counter 42, the count of which increases by one each time an end of data signal appears will.

The device 11 also contains decoding devices, which for example may consist of a pair of count decoders 43 and 44 connected via input lines 45 and 46 to the output line 47 of the counter 42 are connected. As indicated by a further count decoder 50, the number can the decoder can be increased or decreased as required, the number of decoders depending on the number of counts per Counting cycle depends, in which the device 11 with the manifold 15 should enter into data exchange.

The decoders 43 and 44 have output lines 51 and 52 which are connected to an OR gate 53, which in turn The gate 31 opens via a line 54 whenever any one the decoder 43 or 4 4 emits a signal at its output.

In Figure 1, the counts of the counter are given in brackets, in which the corresponding device with the bus 15 enters into data exchange. For the counters, for example

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a counting cycle with eight counts is assumed. When the count is one, a decoder contained in the device 10 opens the associated gate and the device 10 occurs with the manifold 15 in communications. When the end of data signal appears on bus 15, the counts of the counters in each device increased by one, the count 2 now appearing within the counting cycle being assigned to the device 11 is, which in turn now outputs its data or a mere data end signal to the bus 15. The counts of the counters are then again increased, etc. The counts 1, 4 and 5 are the Device 10 is assigned, the counts 2 and 7 of the device 11 and the counts 3, 6 and 8 to the devices 12, 13, respectively and 14. It can be clearly seen that in the underlying program the device 10 is the one which is most frequently used the collecting line 15. enters into data exchange. It should be noted here that this busbar allocation device is not subject to any chronological order, i.e. each device takes the busbar for that time in claim until the amount of data to be transmitted by it is exhausted, regardless of whether this amount of data is large or small.

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Claims (6)

Claims ! ./ Data processing system with a data collection line and a plurality of devices containing data which can be connected to the bus, characterized in that the devices (10-14) are self-resetting Contain counters (42), the count of which is increased by one each time one of the devices (10 14) is connected to the collecting line (15) is terminated and that each device (10-14) at selected counts of the contained therein Counter (42) is connected to the manifold (15). 2. Data processing system according to claim 1, characterized in that , that each output data volume is provided with a data end signal, which increases the Counter reading causes. 3. Data processing system according to / claims 1 and 2,. through this marked that the manifold (15) is switched to the counter (42) via a data end signal decoder (40). 4. Data processing system according to claim 1, characterized in that that a memory (30) containing the data is connected to the bus line (15) via a gate circuit (31) can be switched on. 5. Data processing system according to claims 2 and 4, characterized in that the memory (30) is connected to a data end signal generator (34), which in turn is also connected to the gate circuit (31) is. 509822/066 1 6. Data processing system according to claims 4 and 5, characterized in that the gate circuit (31) can be controlled by the counter (42) via count decoder (43, 44, 50) and an OR gate (53). 509822/066 1- -ί. Empty soap