SU553617A1 - Peripheral device - Google Patents

Description

(54) PERIPHERAL DEVICE

Peripheral equipment is by volume a significant proportion of the total computing system.

The central processor communicates with the peripheral devices through an exchange device or channel. Whether one channel connection is usually connected to several peripheral devices. For the exchange, the channel transmits an address word containing the code of the device number to all peripheral devices of this line. All devices compare the numbers obtained with the numbers assigned to each peripheral device. Only in one of them the numbers are the same, and the device sends a Sgnal-response to the channel. A malfunction in the receiving, shifting, resetting, and controlling days of the peripheral device causes the signal-response not to be generated. The device-logging stops and the exchange becomes impossible.

To increase operational reliability, computing systems are equipped with a complex of diagiostotic programs that facilitate troubleshooting. Diagnostic programs are designed in such a way that they can localize the fault to the exactness of the plug-in unit. With the considered malfunctions, the diagnostic program can only make an unacceptably rough diagnosis.

The aim of the invention is to build a peripheral device, which, in the presence of a malfunction in the receiving depot, brought the exchange to an end and transferred to the processor information about its state, according to which the diagnostic program can make a fairly accurate diagnosis.

For this purpose, the proposed peripheral device contains a test mode trigger, the first and second AND elements, the second decoder, the fourth OR element, the delay line and the encoder, whose input is connected to the fifth output of the control unit, and the output to the third input of the shift register. The fourth input of the inbound key block is connected to the word end bus, and the fourth output is connected to the first inputs of the first and second I elements, the control inputs of which are connected to the zero and 1 output outputs of the test mode trigger, respectively, the single input of which is connected to the catalytic tire signal. The output of the first element I is connected to the third input of the first decoder, and the output of the second element I to the zero input of the test mode trigger via the delay line and to the third BxojiOM of the second 1 Humidifier directly, riepubiii and the second input 1 1 of the second DSfr connected to the same input the first dec1frato |); 1, nopMi iii vykhol, - with the second input of the third jjiOMOHia OR, luopoii BI.IXOJI - with the fifth input of the Control Glock and the pern (scrap of the fourth Elsmonk OR, luopnii moho.h Koiopoio is connected

with the second output of the control unit, and the output with the signal bus response.

This allows automatic diagnostics of malfunctions in the receiving circuits of a high-resolution peripheral device.

In the computing system, a special mode is organized when the channel sends to all peripheral devices connected to a given direction an address word containing a special code that is different from all device numbers with a silent code51. Peripherals in this mode change the logic of their work to the opposite. If the device has recognized the code of silence, then it does not respond to any signals and drops the received address word. If the device does not recognize the incoming code in this mode, then it generates a response signal, writes a code of alternating zeros and one-to-half into the register, and issues a recorded code.

The scheme of the peripheral device is shown in the drawing.

The control information signals are received by the peripheral device via the input keys block 1, controlled by the ready trigger 2. The start control signal arriving on the bus 3 clears the shift register 4 and goes to the control block 5 where it prepares for the receive mode address word. The information coming in to the streams 6, 7 is recorded in the first bit of the shift register 4, the contents of which is shifted by pulses passed through the element OR 8 and formed on the element OR 9 from the information pulses. In addition, the shift pulses arrive at the control unit 5, where they are calculated. At the same time, information pulses arrive at the control unit 10. The reception end signal received via uiHHell polls the trigger state of test mode 12. If it is in the zero state, then the end reception signal passes through the AND 13 element and enters the device number decoder 14, controlled by certain outputs of the shift register 4. If the code in the shift register does not correspond to the device number, then the shift register 4 is reset by the OR 15 element. Otherwise, the control unit 10 is polled. occurs, transmitted to the channel. If the control unit 10 does not detect errors, then it generates a signal-response, which enters the channel through the element OR 16 and the signal spike of the response 17, and starts the control unit 5, which, working with the operating equipment unit 18, performs mode testing.

In order to diagnose malfunctions in the absence of communication with a certain 1M peripheral device, a channel with a special signal establishes a single influenza virus in the ctoHiuie 12. Pnsm of the address word. b. The end of reception signal, declaring trigger status 12, passes through AND 19 and polls the second decoder 20 (silence code), controlled by some outputs of shift register 4, and resets trigger 12 via pin 21, if the contents of shift register 4 correspond to silence code then the shift register 4 is reset through the OR element 15 and no response signals are output to the channel. If the contents of shift register 4 do not match the latch code, the signal from the output of the decoder 20 enters the channel through the OR element 16 and the response signal bus 17. The response signal arrives at the control unit 5, which by this signal enters the shift register 4 through the encoder 22 a code of alternating zeros and ones and sequentially outputs to the channel the state of the shift register 4. According to the received code, the diagnostic program can distinguish faults. Depending on the required localization depth and permissible complications of the control device, various modes of outputting information about the state of the faulty device are possible. It is possible to issue a register state after entering the address word, and then entering a code from alternating zeros and ones and issuing this code. It is possible to issue one code from alternating zeroes and ones. So, for example, if there is a fault of the type of the constant G of the n-th bit of the eight-bit arrays of the shift register, in which the shift to the right is carried out, and the code 10 10 10 10 is entered, then the code 11 11 10 10 is received. Constants O codes have the form 10 10 10 10 00 00 10 10 Obtaining such a code allows localizing faults resulting in the absence of a shift in some part of the register bits. The issuance of the state of the register after receiving the address word makes it possible to localize faults in the information transfer chains. In order to increase the depth of localization, the bits of the silence code should go to the extreme right bits of the register when shifted to the right and contain codes O and 1. In some cases, the test mode trigger can be abolished and its function is performed by one of the left-most bits shift register. Formula of the invention 11p)), an idle device containing a shift register, input keys, readiness trigger, first, second and third elements OR, first deishfrarator, control unit, operational equipment unit and control unit, the first and second inputs of the input unit the keys are connected to the information buses, the third input is connected to the start signal bus, and the control input with the output of the ready trigger, the single and zero inputs of which are connected to the first and second outputs of the control unit; the first and second outputs of the input key block are connected to the same inputs of the shift register, the control block and the first OR element, the output of which is connected to the first input of the second OR element, the second input of which is connected to the third output of the control unit; the third output of the block of input Keys is connected to the first inputs of the control block and the third element OR; the outputs of the second and third elements OR are connected to the shift and reset tires of the shift register, respectively; the outputs of the shift register are connected to the first and second inputs of the first decoder, the first and second outputs of which are connected to the third input of the control unit and the second input of the control unit, respectively; The first and second outputs of the control unit are connected to the fault signal bus and the third input of the control unit, respectively, the fourth input and output of which are connected to the operational equipment block, characterized in that, in order to increase the resolution during the automatic diagnostics of malfunctions, a trigger is added to it the test mode, the first and second elements And, the second decoder, the fourth delay element and the encoder, the input of which is connected to the fifth output of the control unit, and the output to the third input of the control Stra shear; the fourth input of the input key block is connected with the word end bus, and the fourth output is with the first inputs of the first and second elements AND, the control inputs of which are connected respectively to the zero and single outputs of the test mode trigger, the single input of which is connected to the bus channel signal; the output of the first element AND is connected to the third input of the first de-diffirator, and the output of the second element I is connected to the zero input of the test mode trigger via the delay line and to the third input of the second disinfector directly; the first and second inputs of the second deshfratore are connected to the same inputs of the first non-shfrator, the first output is connected to the second input of the third OR element, the second output is connected to the fifth input of the control unit and the first input of the fourth OR element, the second input of which is connected to the second output of the control unit, and Bi.iyou - with uninoii signal response.