SU717770A1 - Mains control arrangement - Google Patents

Description

 The invention relates to digital computing technology and can be used in counting systems containing several active information sources connected to a common information and address backbone. The control device of the magistraly is designed to analyze the request signals of the active devices by supporting the common master in issuing the permission signal to one of the devices in accordance with the received request service.

It is known an interface device with a grouping of a large number of requests for a computer, in which aaars come to the pr1a: 6 {th -tetet definition unit via the Ul interface.

Claims (4)

The interface is triggered by the presence of unfulfilled aapros in the group that was previously received by the interface. At the same time, the transmission of the next group of requests to the priority determination unit, which according to requests stored in priority order, allows the transfer of addresses to the data to the memory, is blocked. The data read from the memory is passed to the corresponding processors. At the end of the ci acidsaefdJ TpHirrepffaH memory, the scheme is selected at the current time by the priority determination unit. When all stored requests have been processed, a new rt yrtna afanpocoB can be received at the time of generation of a ready signal in the memory. Thus, the procedure for resolving conflicting situations in the system is divided in time into multiple cycles, each of which processes all requests without exception, up to the request with the lowest priority. This actually leads to uniform service requests, which significantly limits the system capabilities of the device. Extending system capabilities can be achieved, for example, by introducing. self-training of priority blocks or blocks of dynamic priorities. The simplest tool of this kind is the request mask storage unit, i.e. code for,. 3-71 by bitwise conjunctive filtering for prompts entering the priority determination unit. Of the known devices, the closest in technical essence to the present invention is an interrupt device comprising a request storage unit, a mask storage unit, a prioritized block, a group of elements AND, the input group of the block: and the request storage is the first group of device inputs ,.а rpyraia the outputs of the query storage unit are connected to the first group of inputs of the priority block, the group of inputs of the xpain mask unit is the second group of inputs of the device, and the group of outputs of the mask storage unit is connected to the second group in odb1v priority block, a group of which the outputs are connected to inputs of AND gates of the first group, the outputs of which are the Group O device 2. A disadvantage of the known device is the possibility of the appearance of spurious signals (interference) at its outputs in cases where the mask peracrpa contents are removed by an external source of information occurs at the moment of this register being reset by the internal circuits of the device. The same factor reduces the rapid operation of the device, the nocitonbKy indicated shift and interrogation procedures should be performed sequentially. The aim of the invention is to improve the speed and reliability of the device. Delivered by the fact that the device has an OR element, the AND element, the first and second delay elements, and the output group of the priority block is connected to the inputs of the OR element, the output of which is: under the first input of the AND element, to the second input of which connected to the output of the first edemen Te Ashcher ishy, whose input is connected to the start input of the mask storage unit and is the device start input, the output of the element AND is connected to the control input of the query storage unit and the Vyssod Vysod to the third connection To the control input of the AND elements of the first group, the query storage unit contains the second group of AND elements and pefHUTip requests, the outputs of which are the group of outputs of the query query unit, the installation inputs of the request register are connected to the outputs of the second group of AND elements 0 to the control input of the query storage unit and the control input of the group of AND elements whose inputs are the group of inputs of the query storage unit, a. the mask storage unit contains an input and output mask register, the input mask input group of the mask is a group of mask storage unit inputs, and the input mask register input input is a device recording input, the input mask input registers are connected to the mask output register inputs, is the start-up input of the mask storage unit, wherein the group of outputs of the output register of the mask is the group of outputs of the storage unit of the mask. The drawing shows the logical layout of the trunk control device. The device contains a query storage unit 1, a mask storage unit 2, a priority block 3, an OR 4 element, an AND 5 element, a first delay element 6, a second delay element 7, and a first group of AND 8 elements. The block 1 is executed as follows: and the second group 1 of the elements And 10 and the register 11 of requests connected to the amp; Unit 2 is made in the form of sequentially connected input register 12 of the mask and output register 13 of the mask. The inputs 14 of the query storage unit 1 are the first group of device inputs, the second group of device inputs 15 is designed to receive a mask code from external information sources, followed by a recording signal received at the device record input 16, which is a register recording input 12. Launch input 17 the device is connected to the start input of the register 13 and through the first delay element 6 to the second input of the element And 5. The groups of outputs of block 1 and 2 are connected to the first and second groups of inputs of block 3. The outputs of block 3 are connected to the inputs The first gpVppa of the elements AND 8 through the element AND LI 4 - with the first input of the element 5, the outlet of which is connected to the control input of the query storage unit 1, and through the second delay element 7 - with the control input of the block 8, the exhaust 18 of which are device outputs. The device works as follows. In the initial state, the input 17 is logic, in register 13 there is stored a mask code, in general, 571 does not coincide with the code recorded in register 12. Requests received on; inputs 14, pass through the open second group of elements And 10 and through the reset register 11, which in this case performs the function of inverting, to the inputs of the priority block 3. With at least one of the unmasked requests at the inputs of block 3, at one place of its outputs, namely, at the output corresponding to the preceding one of these requests, a logical one is received, which is accessed through the OR bus 9, causing the second group of elements And 10 to be disconnected and the reset signal removed from register 11, in which a group of requests is remembered by the state at the time of occurrence on the bus 9. Starting from this moment, the device becomes insensitive (M to external requests .Aa. Time equal to the amount of delay to blocks 1 and 3, the signals at the inputs of the first group of elements of And 8 take steady-state values.In other words, the transition processes in blocks 1 and 3, associated with possible races of different priority circuits, arriving at the inputs of the device from independent and the active sources were synchronized with each other, completely finished.At this time, the logical SIGA, which arrived earlier from AND 5 at the input of the second delay element 7, passes through this element and opens the first group of AND 8 elements. At one of the outputs 18 A permission signal is generated to connect the active device to the trunk trunk. After receiving the enable signal, the selected active device generates a request acknowledgment signal on a common bus for all active devices, and removes the request signal. The request confirmation signal in the form of a logical O arrives at the input 17 of the device and, having passed through the first delay element 6 and the element 5, reopens the second group of elements 10 and switches the register 11 to the inverting mode of the input signals without their input. The first group of elements AND 8 is then closed. The final step in the procedure for capturing a trunk with an active device is to wait for the line to be freed from the previous exchange, and this device forms a sign that 706 lines are in charge for all devices of the interface line and remove the signal from the request confirmation line. The logical signal, which arrives at input 17, firstly, with its front, overwrites the new mask code from register 12 to register 13 and, secondly, polls the output of the OR element through the first b element of the delay. 4. If at the time of the polling at the output of the element OR 4, a logical O is generated, then it’s about & it begins that there are no undisclosed requests, and the device switches to the above described condition of waiting for new requests to connect to the trunk. If the polling point at the output of the element OR 4 is logical, this means that there are unmasked requests, for example, due to unmasked requests of active devices that have not been serviced previously prohibited by the old mask. When an atom triggers an element And 5, the signal of the second logical 1 is fed to the control bus 9, causing the second group of elements And 10 to be turned off and the reset signal removed from register 11, in which a group of requests is stored, etc. (in the same way as in the case described above) Thus, in the proposed device, the main line ensures no interference at the outputs when the device is working and the independent of the device according to the time characteristics of the external sources of the maszhv codes that are connected to inputs 15 and 16. Additional an increase in the speed of the device can be achieved by using nonlinear delay elements as elements 6 and 7, KS will delay only the positive edges of the input signals, and negative Rhondda pereaakp s minimum delay. Claims The highway control device comprising a query storage unit, a mask storage unit, a priority block, a group of elements AND, the query storage input group is the first group of device inputs, and the output group of the query storage block is connected to the first input group of the priority block, the input group the storage unit myokn is the second group of device inputs