SU1383366A1 - Device for diagnosing three-machine computing system - Google Patents

Abstract

The invention relates to computing and can be used to create computer systems with increased reliability. The aim of the invention is the expansion of diagnostic capabilities. The goal is achieved by introducing into the device, containing, its two communication units, a mode setting unit, sixteen switches, four triggers and eighteen elements I. The invention provides both diagnostics of all the computers of the complex and diagnostics of any of the means of integration. 3 ill., 1 tab.

Description

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The invention relates to computing and can be used to create computer systems with increased reliability.

The aim of the invention is to expand the diagnostic capabilities of the device.

Three-computer computing complexes (TCEs) are formed from three computers connected by means of complexing (SC) connected to two or three computers of TCEs. The means of complexing TCEs include devices such as a channel-to-channel adapter (ACC), a TCE control device, an interprocessor signaling device or simply a cable connecting two TCE computers via direct control buses or interprocessor signal buses.

Verification of such devices and connection lines is performed at the software level. The result of such a check is only a statement of the fact of the health or malfunction of the device (line).

The reliability of TCEs increases significantly with decreasing SC recovery time. If there is a complete set of spare blocks, the recovery time of the SC is determined by the diagnostic system parameters, namely, the accuracy and localization time.

FIG. 1 shows a block diagram of a device for the diagnosis of TCEs; in fig. 2 is a diagram of the mode setting block; in fig. 3 - communication unit.

The device includes a mode setting unit 1, switches 2-5, first trigger 6, switches 7 and 8, elements AND 9-17, switches 18-27, elements AND 28-36, second trigger 37, first communication unit 38 the third trigger 39, the second communication unit 40, the fourth trigger 41, and the third communication unit 42. In addition, 43-46 mating blocks (BS) and the first 47, the second 48 and third 49 computers, forming the diagnosed complex, are designated, and the mating unit 43 provides for intermachine exchange between computers 48 and 49, and block 44 - for intermachine exchange between Computers 47 and 49., block 45 - between computers 47, 48 and 49, and block 46 - between computers 47 and 48, exits 50-58 for setting the mode of block 1, outputs for the elements of elements 9-17, output 68 for setting the mode of block 1 , the outputs 69-71 of the switches 4, 5 and 7, respectively, the outputs 72 and 73 of the first communication unit 38, the outputs 74 and 75 of the second communication unit 40, the outputs 76 and 77 of the third communication unit 42, outputs 78-83, switches 18-23, respectively, outputs 84 and 85 of the computer diagnostics query 47, 86 and 87 computers 48, 88 and 89, computers 49, inputs 90-93 of the interrogation unit states 45, 46, 43 and 44, inputs 94-97 of the elements And 28-36, inputs 98, 99 and 100 of the switches 24, 25, 26 and 27 (the inputs 98-100 receive the states of the interface blocks with

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responsibly from the computer 47, 48 and 49), the outputs 101-109 of the device are the outputs of the And elements, respectively 28-36 (outputs 101 -109 present the states of the junction blocks), the software input of the test actions and the reference states of the computer 47, output 111 of test results of a computer 47, input 112, similar to input 110, but for computer 48, output 113, similar to output 111, but for computer 49, input 114 and output 115, similar to input 110 and output, but for computer 49.

Block 1 (Fig. 2) includes a code switch 116, a decoder 117, and elements OR 118-126. The outputs 127-138 of the decoder 117 is connected to the inputs of the elements OR 118-126 in accordance with the scheme.

The communication block 38 (blocks 40 and 42) includes (shift fig. 3) shift register 139, AND 140, counter 141, AND 142, synchronization block 143, made on the basis of the shift register, parity control 144, implemented on a trigger with a counting input, decoder 145, diagnostic register 146, decoder 147, comparison circuits 148 and 149, OR 150 element, address register 151, input register 152, switch 153, shift register 154, synchronization unit 155, implemented based on the counter, triggers 156 and 157.

This device provides both mutual diagnostics of all computers of the complex, and diagnostics of any of the IC. The specific diagnostics mode is set by the code switch 116 of block 1 in accordance with the table.

Typically, some ICs, such as, for example, ACCs connected to two computers of the complex, have two sides A and B. When diagnosing such ICs, it is necessary to consider which side of the ICs are connected to each of the computers, therefore the diagnostic mode selection switch has a pair of states 7 and 8, 9 and 10, 11 and 12 for diagnosing such ICs. In cases where CR has symmetrical sides, these pairs of states of switch 116 are equivalent.

The operation of the device is explained in two examples: the computer 47 diagnoses the computer 48 and the computer 49 diagnoses the BS 46 connected between the computer 47 and the computer 48.

If the complex 48 computer fails, the latter functions as a two-machine complex with a 47 computer and a 49 computer. To quickly localize the fault location on one of the computers of the operating complex (on the 47 computer), parallel with other work programs, the computer fails to diagnose the computer. sets the mode selection switch 116 in the mode setting unit 1 to position 1, as a result, the output 127 of the decoder 117 is activated and the logs are set at the outputs 50 and 55 of the mode setting unit 1 eska "1. This allows control of trigger 6 from computer 47 through switches 2 and 3. Then computer 47 sends signals (microoperations) to reset triggers 156 and 157 of communication unit 38 and to install trigger 6 to the logical state 1, which due to the resolution the inputs of the switches 2, 5 and 8 from the outputs 50 and 55 of the mode setting unit sets the trigger 6 to the logical state "1, as a result of which the output of the switch 5 is activated, which ensures that the signal passes through the element 14 to the installation of the trigger 39, which translates the computer 48 in diagnostic mode. Logic "1 at the output of switch 5 and at output 50 of block 1 of task | 5 modes sets the state of logic" 1 at output of element 12. And the latter activates the control inputs of switches 19 and 20, due to which the test information from the output of communication block 38 ( The second group of outputs of the communication unit, Fig. 3) passes through the switch 20 to the first group of inputs of the communication unit 40, where it ensures the performance of diagnostic operations. Block 40 on the first two outputs of the third set state is logical "1. This allows control of the trigger 6 from the computer 49 via switches 2 and 3.

Then the computer 49 sends the signals (microoperations) of resetting the triggers 156 and 157 of the communication unit 42 and setting the trigger 6 to the logical state 1, which, by having permission at the input of the switch 2 from the output 52 of the mode setting unit 1, sets the trigger 6 to the logical state "one. In addition, the micro-operation of the installation of the trigger 6 also provides a signal.d on the output of the element 11, which leads to the installation in the state of the logical "1 trigger 37, transfer of the computer 47 to the diagnostics mode.

Logic 1 at the output of trigger 6 and at output 53 of block 1 sets the state of logical 1 at the output of switch 4 and at the output of element 10. The latter activates the control inputs of switches 18 and 23, whereby the test information from the output of communication block 42 (the second group of outputs of the communication unit, Fig. 3) goes through the switch 18 to the first group of inputs of the communication unit 38. The test frost of the group of its outputs is ensured by the formation coming from block 38 to computer 47

loading of micro-instructions into the register of micro-instructions of computer 48, their execution, polling the state and comparing it with the reference one. The state of the computer enters the communication unit through the first two inputs from the third group of inputs to the unit.

The test results from the output of the element 30 or 150 from block 40 (the first group of outputs of the communication unit, fig. 3) are fed to the input of the switch 19 and due to the presence of the resolution from the output of the element I 12 from its output to the input of the block 38 (the second group

through the first two inputs from the third group of outputs of block 38 and ensures the execution of test microcommands that send test actions via computer 47 to BS 46. In order for block 38 to have the opportunity to check the correctness of setting the state of BS 46, it is necessary that control signals of the computer 47 and information about the status of the BS 46 also entered the system state interrogation system 47. The signals controlling the interrogation of the communications unit couplings. The computer 47 analyzes 35 then neither the BS 46 comes from the computer 47 and, the testing results obtained by block 38, and issues a message about the malfunction of the computer 48.

Consider the case when the computer 49 diagnoses the BS 46 connected between the computer 47 and the computer 48 of the complex. Let BS 46 be connected by side A to computer 47, and side B to computer 48. During diagnostics of BS 46, TCE is transferred to single-machine mode and on computer 49 in parallel with another

The gift of permission from the output of switch 4 passes to the output of switch 25 and then to input of BS 46. BS 46 enters from output of BS 46 through element I 31 to input of computer 47. Comparison of the state of BS 46 circuits on the A side with the expected performs communication unit 38. The state of the circuits of the BS 46 is polled through the switch 153 by setting in the register 151 the addresses of the code of the address of the polled circuits. Circuit condition

In these work programs, it is started and is received in the input register 152 and the BS diagnostics program. Test actions from the side A (B) on the BS come through the computer 47 (48), and the responses on the side A (B) of the BS are also interrogated through the computer 47 (48). Possibility of filing

It is expected in Comparison 149. If the comparison circuit 149 output does not match, an error signal is sent through the OR 150 element to the computer 49, which from the output of the communication unit 38 is fed to the input of commuting effects at the level of the microoperator 23 and, thanks to its resolution

ting and polling the status of any trigger ensures high accuracy of fault location.

Prior to launching the diagnostics program, the operator sets the mode selection switch 116 in block 1 of mode setting 55 to position 11, as a result of which the output 137 of the decoder 117 is activated and on outputs 52, 53 and 56 of mode setting 1

the input from the output of the element 10, through the switch 23, is fed to the input of the communication unit 42, in which the trigger 157 is installed, and in the computer 49 to analyze and report a fault.

If, when submitting test actions to BS 46 on side A, no errors were detected, then a survey of the reaction of BS 46 on side B connected to computer 48 begins. From this

The logical state is set to "1. This allows control of the trigger 6 from the computer 49 via switches 2 and 3.

Then the computer 49 sends the signals (microoperations) of resetting the triggers 156 and 157 of the communication unit 42 and setting the trigger 6 to the logical state 1, which, by having permission at the input of the switch 2 from the output 52 of the mode setting unit 1, sets the trigger 6 to the logical state "one. In addition, the micro-operation of the installation of the trigger 6 also provides a signal.d on the output of the element 11, which leads to the installation in the state of the logical "1 trigger 37, transfer of the computer 47 to the diagnostics mode.

Logic 1 at the output of trigger 6 and at output 53 of block 1 sets the state of logical 1 at the output of switch 4 and at the output of element 10. The latter activates the control inputs of switches 18 and 23, whereby the test information from the output of communication block 42 (the second group of outputs of the communication unit, Fig. 3) goes through the switch 18 to the first group of inputs of the communication unit 38. Test information comes from block 38 to computer 47

 the formation comes from block 38 to computer 47

through the first two inputs from the third group of outputs of block 38 and ensures the execution of test microcommands that send test actions via computer 47 to BS 46. In order for block 38 to have the opportunity to check the correctness of setting the state of BS 46, it is necessary that control signals of the computer 47 and information about the state of the BS 46 also entered the system state polling system 47.

The gift of permission from the output of switch 4 passes to the output of switch 25 and then to input of BS 46. BS 46 enters from output of BS 46 through element I 31 to input of computer 47. Comparison of the state of BS 46 circuits on the A side with the expected performs communication unit 38. The state of the circuits of the BS 46 is polled through the switch 153 by setting in the register 151 the addresses of the code of the address of the polled circuits. Circuit condition

is received into input register 152 and compared to input register 152 and compared with what is expected in comparison circuit 149. If the output of the comparison circuit 149 does not match, an error signal is sent to the computer 49 through the OR 150 element, which is sent from the output of the communication unit 38 to the input of the switch 23 and, thanks to its resolution

 tator 23 and thanks to the resolution on his

the input from the output of the element 10, through the switch 23, is fed to the input of the communication unit 42, in which the trigger 157 is installed, and in the computer 49 to analyze and report a fault.

If, when submitting test actions to BS 46 on side A, no errors were detected, then a survey of the reaction of BS 46 on side B connected to computer 48 begins. From this

the target computer 49 sends to the device a reset signal of the trigger 6, which enters the input of the switch 3 and, due to the permission at the output 52 of the mode setting unit 1, passes through the switch 3 to reset the trigger 6. Logic "1" at the inverse output of the trigger 6 provides a logical state "1 at the output of the switch 5 and the activation of the element And 13, which provides permission to the inputs of the switches 20 and 23. At the same time, the reset signal

the trigger 6 through the switch 8 and the AND element 14 sets the trigger 39, which translates the computer 48 into the diagnostics mode. In this case, the test actions with the computer 49 through the register 154 of the communication block 42 and the switch 20 are received in the register 139 of the communication block 40 and further on the transfer of micro-commands to the computer 48, Last, under the control of the communication block 40, performs operations on the B side of BS 46. Interrogation of the state of the circuits BS 46 on the B side

 computer analysis 48.

"1 at the output of the switch 7 and at the output 51 of the mode setting unit 1 sets the state of the logical" 1 at the output of the element 16. The latter activates the control input of the switch 21. The state of the BS 43 arriving at the input of the element 34 is transmitted through the computer 49 to communication unit 42. The results of the comparison of the state with the reference from the output of the communication block 42 through the switch 21 arrive in the block 40 and further on

 computer analysis 48.

Diagnosing a BS that connects all three computers of a complex (BS 45, Fig. 1) is similar to diagnosing other BSs, but test actions on BS 45 come from all three computers.

The position 13 of the code switch 116 provides the state of the logical "1 at the output 68 of the block 1 of the setting of the modes, due to which the triggers 37, 39, 41 and the diagnosis of the computer and BS of the TCEs are reset

vyschenie reliability of the complex.

Claims (1)

Invention Formula performed by connecting the control circuits - 20 is prohibited. They are polled by BS 46 to the computer 48. These signals, thanks to the control of the devices by the output of the computer 48, are fed to the input of the communi- cation at the microcommand level and the ostator 25 and, due to the availability of resolution of all its circuits, Neither at its input, which comes from the output, the proposed device provides the high-switch 5, the output accuracy, short localization time Tatar 25 to BS 46. Information about so-25 malfunctions and, as a result of this, the circuit circuits BS 46 comes from the output of BS 46 through element 32 in computer 48 and further to communication block 40. The comparison of the state of the BS 46 with the reference is performed by the comparison circuit 149. When an error is detected, the signal from the output of the device for diagnostics of the three-site comparison circuit 149 through the OR 150 element of the computing complex logo, contains the output of the communication unit 40 and the next first and second communication units, and through the switch 23 to the input of the communication unit 42, the first and second groups of information in which it establishes a trigger 157, and the inputs of the device are connected to the first in-computer 49 to analyze and report non-information inputs, respectively, of the rightness of the first and second communication units, the first diagnostics of "simple BSs (such as formation outputs of the first and second machine cables) may be performed by communication units connected respectively to in the two-machine operation mode of the complex, the first and second informational positions of the 1-6 code switch devices, characterized in that, l 116. With the aim of expanding diagnostic methods, as an example, consider the case, 40 possibilities, the third block is entered into the device when the computer 47 and computer 48 function as a two-machine complex and on computer 48, in parallel with other programs, a diagnostics program is run on a simple BS 43 (position 4 of the code switch, mode setting unit, sixteen switches, eighteen And elements, and four triggers, the mode of the mode setting block is connected to the first control inputs Chatel 116). The computer 48 sets up a test information on the BS 43 through its working tracks 5 of the first, second and third switches, and sets the triggers 156 and 157 of the communication block 40 to the zero state and the second output of the mode setting of the mode setting block is connected to the second control inputs of the first, second and third switches and to the first inputs sends the setup signal to the logical state of trigger 6, which, thanks to And the second output of the mode setting of the mode setting block is connected to the second control inputs of the first, second and third switches and the first inputs unit values at the outputs 51 and 57 of the third and fourth elements I, the third of the mode setting unit 1, sets the output of the mode setting of the rectifier unit 6 to the logical state "1. As a result, at the output of the switch 7, the state of the logic is set to the third control inputs of the first, second, and third switches and the first inputs of the fifth and third switches, and the signal from the outputs of the switch of that element The second, the torus, the torus 8 and the element And 17 enters the setup of the seventh, eighth and ninth outputs of the installation of the trigger 41, which switches the computer of the mode set mode unit 49 connected to the diagnostics mode. Logically, respectively, with the first and second control of the reliability of the complex.  faults and as a result Invention Formula stey and as a result connection, a mode setting unit, sixteen switches, eighteen And elements, and four flip-flops, the first mode setting mode output of the mode setting unit being connected to the first control inputs the first, second and third switches and with the first inputs of the first and second elec the first, second and third switches and with the first inputs of the first and second elec And the second output of the mode setting of the mode setting block is connected to the second control inputs of the first, second and third switches and the first inputs the third and fourth elements And, the third output setting mode block The first inputs of the fourth switch, with the first and second control inputs of the fifth switch, the first and second control inputs of the switch, the outputs of the first and second switches are connected to the single and zero setting inputs of the first trigger, the forward output of which is connected to the first information inputs of the fourth, fifth, and sixth switches, the inverse trigger output is connected to the second information inputs of the fourth, fifth, and sixth switches, the output of the third switch with The first input of the device diagnostic diagnostics is connected to the first information inputs of the first and third switches, the second input of the device diagnostic request is connected to the first information input of the second switch and the second information input of the third switch, the third input the device diagnostic request is connected to the second information input of the first switch and the third information input of the third switch; the fourth input of the request is diagnosed The device is connected to the second information input of the second switch and the fourth information input of the third switch, the fifth input of the device diagnostic request is connected to the third information input of the first switch and the fifth information input of the third switch, and the third information input of the second switch and the third information switch with the third switch, the output of the first element I is connected to the first control inputs of the seventh and eighth switches, the output of the second element I is connected to the second control input of the seventh and first control input of the ninth switch, the output of the third element I is connected to the first control inputs of the tenth and eleventh switches, the output of the fourth element I is connected to the second control inputs of the ninth and the eleventh switch, the output of the fifth element I is connected to the second control input of the tenth and the first control input of the twelfth switch, the output of the sixth element I is connected to the second control input vh) s of the eighth and twelfth switches, the tenth output of the mode setting of the mode setting block is connected to the inputs of the zero setting of the second, third and fourth triggers, the outputs of the seventh, eighth and ninth elements I are connected to the single inputs of the second, third and fourth triggers, respectively, the fourth the switch is connected to the second inputs of the third, fifth and seventh elements of And and with the first the thirteenth, fourteenth, and fifteenth switch's control inputs, the output of the fifth switch is connected to the second inputs of the first, sixth, eighth I elements, to the second control inputs of the thirteenth, fourteenth, and first control inputs of the sixteenth switch, the output of the sixth switch is connected to the second the inputs of the second, fourth, ninth And elements, with the second control inputs of the fifteenth and sixteenth and the third control input of the thirteenth switch, the output of the parity error of the first a communication unit connected with the first information vho5 rows eleventh and twelfth switches, the second communication unit dosing errors output parity connected to the first data input of the seventh and the second data input of the twelfth switch, dosing errors output by the third parity 0 of the communication unit is connected to the second information inputs of the seventh and eleventh switches, the second information output of the first communication unit is connected to the first information inputs of the eighth and ninth switches, the second information output of the second communication unit is connected to the first information input of the tenth and second information the input of the ninth switch, the second information output of the third communication unit is connected 0 with the second information inputs of the eighth and tenth switches, the outputs of the seventh, eighth, ninth, tenth, eleventh and twelfth switches are connected respectively to the third information input of the first communication unit, the second information input of the second communication unit, the second information input of the third the communication unit, the second information input of the first and third information inputs of the second and third communication units, the output of the fourth switch is connected to the first inputs of the tenth, eleventh and twelve And, the output of the p of the switch is connected to the first inputs of the thirteenth, fourteenth and fifteenth elements of the AND, the output of the sixth The switch is connected to the first inputs of the sixteenth, seventeenth, and eighteenth elements. And, the outputs of the thirteenth, fourteenth, fifteenth, and sixteenth switches are the device status polling outputs. The first input 0 state of the device is connected to the second inputs of the tenth, thirteenth and sixteenth And elements, the second input of the state of the device is connected to the second inputs of the eleventh and fourteenth elements And, the third input of the state of the device is connected five It is connected with the second inputs of the fifteenth and seventeenth elements And, the first input of the output of the device state is connected to the first information inputs of the thirteenth. the fourteenth and fifteen switches; the fourth input of the device state is connected to the second inputs of the twelfth and eighteenth elements And; the second output output of the device state is connected to the second information inputs of the thirteenth, fourteenth and first information input of the sixteenth switch; the third output output of the device state is connected to the second information inputs of the fifteenth, sixteenth .and the third information input of the thirteenth switches, the outputs of the tenth 127 128 129 130 131 132 133 134 135 136 137 138 13 68 eleventh, twelfth, thirteenth, fourteenth, fifteenth, sixteenth, seventeenth and eighteenth elements And are the output states of the device, the forward outputs of the second, third and fourth triggers are the device diagnostics installation outputs, the third group of information inputs of the device are connected to the first information the input of the third communication unit, the first output which is the third information output device. Computer 47 diagnoses computer 48 computer 47 diagnoses a computer 49 computer 48 diagnoses a computer 47 computer 48 diagnoses a computer 49 computer 49 diagnoses a computer 47 computer 49 diagnoses a computer 48 Computer 47 diagnoses the BS connected by side A to computer 48 and side B to computer 49 Computer 47 diagnoses the BS connected by side B to computer 48 and side A to computer 49 The computer 48 diagnoses the BS connected by side A to the computer 47 and side B to the computer 49 The computer 48 diagnoses the BS connected by side B to the computer 47 and side A to the computer 49 The computer 49 diagnoses the BS ,. connected by side A to computer 47 and side B to computer 48 Computer 49 diagnoses BS connected by side B to computer 49 and side A to computer 48 Neutral state (prohibition of diagnostics of computers and BS TCEs) 50 5/52 53 54 FIG. 2 | 78.1180.1,82.1 I 7S.2 {80.2,82.2) - / 7J 12. 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