SU1043622A1 - Multi-channel device for computer interface - Google Patents

Description

The invention relates to computing and can be used in multi-engine testing systems.

Multichannel devices are known for connecting information sources to a common highway, containing a generator of the interrogation and an IDN element, and in each channel there are two triggers, three elements 1 and a delay element 1.

The disadvantage of these devices is in a limited area of application because of the impossibility of organizing two-way exchange.

The closest to the invention in its technical nature is a multichannel priority device containing a synchronization node and, in each channel, a priority trigger, a request trigger trigger, com. a mutator, two elements ILR {, three elements And And a two-position switch, and in each channel the output of the priority trigger is connected to the first inputs of the first and second. elements AND, the output of the second element OR is connected to the first input of the first element AND, the output of which is connected to the priority trigger input, the first output of the request latch trigger is connected to the first input of the second element AND, and the second output to the second input of the second element OR AND the first input of the third element This and, the second input of which is connected to the second inputs of the first and second elements. And its channel and the output of the first element OR of the preceding channel, in each channel the second input of the first element OR is connected to the output of the switch. a, the first input of the two-position switch connected to the output and the output of the second element I 2.

The disadvantage of this device is in the limited area of application, since it does not allow the organization of two-way data exchange in a multi-machine computing. complex.

The aim of the invention is to expand the field of application of the device.

The goal is achieved by the fact that in a multichannel device containing the first group of channels, each of which includes a trigger connected to the request input of the corresponding group of input and output devices of the device, and the output to the first input of the first And element whose output is connected to the control input of the switch, the output trigger , the first input is connected to the input of the second element AND, the first input of which is connected with the output of the first element OR, and the second, the element OR, the second channel group is entered, and each channel is decoded or addresses and two elements are NOT, the first V.-CODES of the second elements OR of the first channels of the first and second groups are connected. They are respectively with the first and second control inputs of the device, in each group of channels the output of the second element OR of each channel except the last connected to the first input of the second element OR the subsequent channel,

in each channel, the second input of the second element OR is connected to the output of the trigger flush, and the first input to the input of the first element is NOT, the output of which is connected to the second input of the first element. And the second input of the second element I is connected to the output of the decoder, .a output through the second element NOT - with the second input of the output of the three, exit

Which informational and the switch input are respectively the output of the resolution and the address input of the corresponding group of device inputs, the group of inputs of the first OR element of each channel of the first group is connected to the outputs of the first AND elements of the second group, and the group of inputs of the first OR element of each channel. the second group is connected to the outputs of the first elements And the first group, the inputs of the decoders channel addresses

- the first group is connected via the first address bus to the outputs of the channel switches in the second. groups, and the inputs of the decoders channel addresses. the second group is connected via the second address bus to the outputs of the channel switches of the first group.

The drawing shows the block diagram of the device.

The device contains channels 1, each of which includes a trigger 2 request, a priority node 3, a switch 4, a second element OR 5, a second element AND b, an alias address 7, a second element NO 8, an output trigger 9, input 10 and control output 11 channel control inputs 12 and. 13 devices, inputs 14 of the request, output 15 of the request, the first input 16 of the address, output 17 and the second input 18 of the address, inputs 19 of the request and output 20 of the channel resolution. The channel priority node 3 consists of the first AND 21 element, the OR element 22 and the NOT 23 element. The first and second address buses 24 and 25 are also shown.

The channels (top of the drawing) make up the first group, the rest of the channels belong to the second group Inputs 14 and 16 and output 20 form a group of inputs and outputs with which subscribers, for example, connect to the device. The device works as follows. In operation, the system into which the device enters contains two groups of computers, and the exchange is carried out between computers of different groups. The drawing does not show the means for transmitting information signals. Such means may be, for example, d switched bus systems for computers that can work in duplex, to which the computer source is connected by a signal from output 15, a-computer reception - a signal with output 20. In the initial state (no input in input 14), the triggers 2 are in the zero state. Suppose that two applications come to two channels of the same group at the same time and install the corresponding triggers 2 per unit. In this case, the unit from the output of the trigger 2 channels with a higher priority through the element OR 22 through the output 11 enters the input of the element NOT 23 channels with a lower priority. At the output of the element NO 23 of this channel, the channel is set (the potential of zero and the one recorded on the trigger 2 channels with a lower priority are output, does not pass to the output. 15 Simultaneously with the applications of the computer, the second computer sends the address of the computer to the channel 16 the group to which this application should go .-. In channel 1 with the highest priority, application from trigger 2 output through element 21 goes to output 15 and to the control input of switches 4 that are disconnected from the Exit state address bus 24..Active signal at the control input of the switches 4 Translates them to the transmission mode, i.e., an address that comes from inputs 16 through switches 4, is transmitted to the outputs of channel 17. This address is then passed through address buses 24 to inputs of 15 channels of the second group, and the application from the output 15 of the requesting channel of the first group is fed to the corresponding inputs of the 19 requests of the channels of the second group. In accordance with the address on buses 25. In one of channels 1 of the second group, the decoder 7 of the address is triggered, on. the output of which appears a logical unit, and the application from input 19 enters the input of the element OR 5, at the output of which a logical unit is excited. . . The presence of two units at the input of the element And 6 leads to the appearance of a logical unit - at its output. This signal is set to the unit output trigger 9 of the selected channel 1. The active signal from the output 20 of the kandla enters the corresponding computer. After the end of the communication session, the computer-source resets the trigger 2, and the switches 4 disconnect from the bus 25, at the output of the channel I & B channel - the receiver appears, a logical zero, which through the element NO 8 resets the output trigger 9. Similarly, any of the In accordance with the priority, computers of the second group can establish a request to any computer of the first group. Signal to one of the inputs. Nets 12 and 13 can block the initiation of any requests from computers of the first or second group. Thus, the device allows two-way selection and. exchange me: waiting for two groups of computers. D / b 20 ilJit TTlf i: - J6 20 16 2.0 1B // ZO 0 shi JJTI - G6 20

Claims (1)

(54 / MULTI-CHANNEL DEVICE. '· FOR PAIRING COMPUTER MACHINES, containing the first group of channels, each of which includes a request trigger connected to the input of the request of the corresponding group of inputs and outputs of the device, and the output to the first input of the first AND element, the output of which is connected to the control - to the input of the switch, the output trigger, the first input connected to the output of the second AND element, the first input. of which is connected to the output of the first OR element, and the second OR element, '- characterized in that, for the purpose of expansion, it has When using the device, a second group of channels is inserted into it, and an address decoder and two NOT elements are entered into each channel, the first <inputs of the second elements OR of the first channels of the first and second groups connected to the first and second control inputs of the device, respectively, in each group ¹ channels output of the second OR gate of each channel except the last, coupled to the first input of second OR until the next channel, each second channel _(input of the second OR gate coupled to an output latch applications, as a first input -. with the input of the first about the element NOT, whose output is connected; chen to the second input of the first element AND, the second input of the second element • AND is connected to the output of the address decoder '', and the output through the second element is NOT connected to the second input of the output trigger, the output of which and the information input of the switch are respectively; the output is enabled by the address input of the corresponding group of inputs and outputs of the device, the group of inputs of the first OR element of each channel of the first group is connected to the outputs of the first elements AND channels of the second group, and the group of inputs of the first OR element of each channel of the second group is connected to the outputs of the first elements AND of the first group , the inputs of the channel address decoders of the first group are connected through the first address bus, with the outputs of the channel switches of the second group, and the inputs of the channel address decoders of the second group are connected through toruyu address bus, the outputs switch kanalov.pervoy group +. -.