SU962903A1 - Device for interrogation of descrete message sources - Google Patents

Description

The invention relates to computing, can be used to poll the sources of discrete messages.

A device for priority input is known, which contains units for analyzing channel states, each of which contains two triggers, four AND elements and two OR elements (1.

The specified device provides channel service under the control of cyclic polling and cyclic reset signals and does not provide channel service in group priority mode.

The closest to the proposed technical essence and the achieved effect is a device for polling discrete sources. messages containing a cascade of cells consisting of a trigger and four elements And 2.

A disadvantage of the known device is the impossibility of its use for servicing the sources of messages in the priority mode.

The purpose of the invention is to expand the field of use of the device.

The goal is achieved by the fact that, in a device for polling discrete message sources, containing n blocks of channel state analysis (where n is the number of information channels), the block of channel state analysis contains a group of K triggers (where K is the number of sources of requests in the channel ) and the first group of K elements I, and the unit and zero outputs of each 1st trigger group of each channel state analysis block are connected to the single and zero inputs of the (1 + 1) th trigger group of their channel state analysis block, respectively. the catches, the unit and zero outputs of the K-th trigger of the group of each i-ro block of channel state analysis, except for the n-th, are connected respectively to the single and zero inputs of the first

The 20 trigger groups of the (1 + 1) -th channel state analysis block, the single and zero outputs of the K-th trigger of the group of the n-th channel state analysis block are connected respectively to the unit

25 and the zero inputs of the first trigger of the group of the first block of analysis of channel conditions, the first and second inputs of each i-ro element AND of the first group are connected respectively to

30 zero output and single input

The i-ro trigger of the group of the channel state analysis block, the outputs of the elements And the first group are entered with the information outputs of the update in each, the block of the analysis of the channel states, the second group of K elements And the group of K elements NOT, the first input of each 1 th element And the second group is connected to the corresponding request input of the device, the second input of each i-ro element And the second group is connected to zero output i-ro. the trigger group of its channel state analysis block, the first input of each i-ro element And the second group, starting with K-th, is connected to the corresponding input of all previous elements And the second group of its channel state analysis block, the output of each i-ro element And the second group is connected to the third inlet of the i-ro element of the first group and through the i-th element of the NOT group to the reset input of the i-th trigger of its channel state analysis block.

The drawing shows the structure electrical circuit of the device.

The device contains a channel state analysis block 1, triggers 2, elements I 3 and 4, elements HIE 5, request inputs of the device b, information outputs 7 of the device.

The device works as follows.

In the absence of the device service request requests at the inputs b, in each block 1 of the analysis of the channels at the outputs of the And 3 elements, logical zero signals are generated, which prohibit the And 4 group of signals from: output to the device 7 outputs and allow forcing at the outputs of the group elements NOT 5 signals of logical units that allow; setting the triggers 2 to zero or one state. As a result, the triggers 2 will be in a state of self-excitation — and a wave of single and zero states of the triggers circulates around the ring consisting of triggers: 2. If at the inputs 6 of the device in each block 1 there are requests for channel service, then the request coming from the i-ro channel to the input of the i-ro element I 3 will be serviced by the device in priority mode, provided that the remaining requests for servicing the channels are received inputs to the i-ro elements And 3, since a service request coming from the 1st channel to the second input of the i-ro element IZ, prohibits the formation of a signal of a logical unit at the outputs to the i-ro elements IZ. - When propagating along a ring consisting of flip-flops 2, waves of zero-state flip-flops on the first inputs 1a.x of elements 3, signals of a logical unit are formed and as a result a signal of a logical unit will be generated at the output of the second group I, and element of the NOT 5 group and the control input prohibits advancement of the wavefront of the unit states of the triggers on the i-th trigger 2. Moreover, this signal allows the i-th element AND 4 to work. Thus, when the wavefront of the unit states of the triggers arrives on ir input the trigger 2 of the first block 1 of the analysis of the channel states at the output of the i-ro element 4; a request service enable signal is generated from the i-ro channel, which arrives at the output 7 of the device.

Upon resetting the request for servicing the i-ro channel at the i-th input 6 of the device of this unit 1 for analyzing the SUBSTITUTE channels, the i-th trigger 2 is set to the one state and thus the wave front of the single state of the trigger spreads to the next block 1 analysis of channel conditions, where the i-ro channel is also allowed to be serviced in the priority mode and, thus, the process of resolving the maintenance of the kanshov in the priority mode will continue until the last inclusive i-ro block 1 of the channel state analysis.

When the service request for the i-ro channel is reset, at the i-th input b of the device, in the n-th channel condition analysis block 1, the i-th trigger 2 is set to one, and then a wave propagates along the ring consisting of flip-flops 2 zero states of triggers, allowing the operation of elements And 3 of the second group in all n blocks 1 of the channel state analysis, and when propagating around a ring consisting of triggers 2 leading wave front of single states of the triggers, the process of forming the signals to enable channel servicing in the priority The mode is repeated.

The application of the invention allows to expand the area of use of the device due to its possible application in devices where priority service of requests is necessary.

Claims (2)

1. USSR author's certificate No. 708340, cl. G 06 F 3/04, G 06 F 9/46, 1980. 2. Authors certificate of the USSR 694857, cl. G 06 F 3/04, 1979 (prototype).