SU760075A1 - Device for interfacing computer with communication channels - Google Patents

Description

The invention relates to the field of computing and can be used in telecommunication computing systems.

Known devices [1] for pairing, containing code and code converters, shaper code, distributor and trigger lock and converting the format coming from the communication channel of the message.

The disadvantage of these devices lies in the limited functionality.

The closest to this essence of the technical solution is the device [2] for interfacing with communication channels, containing a code converter, a switching unit, the first input and output of which are connected respectively to the first input and output of the device, and the second input and output - respectively to the first output and the input of the code converter, the switching control unit, the output of which is connected to the third input of the switching unit, the buffer memory unit, the first input and output of which are connected respectively to the second output and input of devices a and the second

2

input and output - respectively to the second output and input of the code converter, formation node, AND group of elements, control registers, left unit search node, control signal distribution node, AND element, first and second triggers, with the outputs of the AND group of the elements being connected to the first the inputs of the switching control unit, the first inputs of the control registers are connected to the third input of the device, the second inputs are respectively

Yu to the outputs of the forming unit, and the outputs respectively to the information inputs of the I group of elements, the inputs of the left unit search node are connected to the outputs of the control register, and the outputs to the first input of the forming node and the control inputs of the group of elements I, the first input of the control distribution node is connected to the output of the search node of the left unit, and the output to the third input of the block of buffer memory, the input of the first trigger

20 is connected to the third input of the device, and the output to the second inputs of the switching control unit and the control distribution node, the first input of the And element is connected to the fourth input of the unit 760075

and the output to the second input of the forming unit and the third input of the code, the installation inputs to the unit and zero of the second trigger are connected correspondingly to the fifth input of the device and the first output of the forming unit, and the single and zero outputs to the second / second input of the And and the third output of the device.

The disadvantage of this device is the low bandwidth, since each call to the interface device is accompanied by interruption of the execution of the computer program, and with one call only a part of the information intended

"'for one channel .......

The purpose of the invention is to increase the capacity of the device.

This goal is achieved by the fact that in the device containing the switching node, the first input and output of which are the input and output of the device, the buffer memory, the first input and output of which are the second 'input and output device, code converter "connected by the first input and output, respectively with the second output and input of the buffer memory, and the second input and output, respectively, with the OUTPUT and VHO side; the switching node house, the third input of which is connected to the output of the channel switching control node connected to the corresponding inputs with the outputs of the first trigger and control register, the first input of which is connected to the counting trigger input and the third input of the device, and the second input to the first output of the polling distributor, the second output of which is connected to the zero input of the second trigger, the unit and zero outputs of which are connected respectively to the first input element And the second "input connected to the fourth input of the device and the third output of the device, the single input of the second trigger is the fifth input of the device, entered counters and a memory switch, with the output of the first trigger connected to the first input of the polling distributor, the second input of which is connected to the output of the control register and the input of the memory switch connected to the third input of the buffer memory, the outputs of the counter are connected respectively. code converter ...... and the polling distributor, the third output of which is connected to the third input of the And element connected by the output to the input of the counter.

The drawing shows a block diagram. device.

The device contains switching node 1, converter 2, buffer memory 3, channel switching control node 4, counter 5, polling distributor 6, memory switch 7, triggers 8 and 9, control register 10 ', And 11, first 12 and

the second 13 inputs and outputs of the device, the third 14, the fourth 15 and the fifth 16 inputs of the device, the third output 17 of the device. The inputs and outputs 12 are connected to the receiving and transmitting communication channels, the inputs'

₅ and outputs 13, 14 and 16 to the tires of the computer, and input 15 to the source of the clock frequency.

The device works as follows. Register 10 is divided into parts, each of

which corresponds to a certain number of the communication channel, and to each positional discharge - a page in the buffer memory 3. All bits of register 10 with the help of valve 6 are sequentially polled to. according to their priorities and in the order of their numbering.

In the case of the absence of information (zero codes) on register 10, node 1 disables the communication channels from converter 2, and trigger 9 blocks the passage of clock signals through element 11. "

20 When writing information about the exchange mode in register 10, a code corresponding to the exchange mode is recorded.

If, for example, in the buffer 'memory 3 there are K pages for H communication channels, then the volume of register 10 according to the exchange mode should contain K – H bits, and each I-th part of it is allocated by node 1 as belonging to the exchange mode in only one channel. Considering that in each part of the register there can be an arbitrary number of units of ₀ , then one communication channel will read information from all pages of the buffer memory that correspond to the units in register 10. One or another page of buffer memory is connected via switch 7.

Converting the first M bits of the message performs the Converter 2 according to the clock pulses. Distributor 6 on the 'known length of the message (this device transmits messages only of a certain length), which is determined by counter 5, generates the next signal to read "1" from register 10.

In this way, the entire register 10 will be sequentially polled and information from the specified pages of the buffer memory will be read into each channel. In one call to a device, a computer can transmit каждый X M information bits to each channel, and only Η -M-K information bits to each channel.

In the mode of receiving information, trigger 8 operates, which, through node 4, connects the communication channels to converter 2. Information recording in the buffer memory will also be carried out in accordance with the information on register 10 about the exchange mode.

In this case, in each part of the register (the part corresponding to the number of the channel) there should be one “1”. Upon completion of receiving information from the communication channels in the buffer memory 3 to the output 17 as well as

five

in the considered transmission mode, a “Ready” signal is generated.

Thus, with a single call from a computing machine, a device can output to the communication channels all the information contained in the buffer memory, which ultimately leads to a reduction in the number of machine interrupts and an increase in the throughput of the device.

Claims (1)

Claim A device for interfacing a computer with communication channels, containing a switching node, the first input and output of which are the first input and output of the device, the buffer memory, the first input and output of which are the second input and output of the device, the code converter connected by the first Input and output, respectively with the second output and input of the buffer memory, and the second input and output -. respectively, with the second output and the input of the switching node ', the third input of which is connected to the output of the channel switching control node connected by the corresponding inputs to the outputs of the first trigger and the control register, the first input of which is connected 760075 to the counting trigger input and the third input of the device, and the second input to the first output of the polling distributor, the second output of which is connected to the zero input of the second trigger, single and zero you ⁵ strokes of which are connected respectively to the first input of the And element, the second input connected to the fourth input device, and the third output of the device, a single input of the second trigger is the fifth input of the device, characterized in that, in order to increase the bandwidth of the device, a counter and a memory switch are inserted into it The output of the first trigger is connected to the first input of the polling distributor, the second input of which is under the keys to the output of the control register and the input of the memory switch, the counter outputs are connected respectively to the third inputs of the code converter and the polling distributor, the third output of which is connected to the third input of the And element, connected ²⁰ output with a counter input.