SU1383360A1 - Signature analyzer - Google Patents

Abstract

The invention relates to computing and can be used to monitor and diagnose digital devices using signature analysis. The aim of the invention is to increase the reliability of the control. The signature analyzer contains a multiplexer 8, an active front selector 9, a measuring gate generator 10, an AND modulo two, two And 12 and 13 elements, a controlled shift-counter register 14, a display unit 15. The analyzer has two modes of operation. In the first mode, the controlled shift-counter register, together with the modulo two adder, form the signature generator of the input information sequence. In the second mode, the controlled shift-counter register operates in the mode of counting clock pulses arriving at its clock input. The time limits of the clock sequence to be counted are determined either by the corresponding level differences at the information input, or by the external control signals Start and Stop. 2 Il. about

Description

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The invention relates to computing and can be used to monitor and diagnose digital devices using signature analysis.

The aim of the invention is to increase the reliability of the control.

FIG. 1 shows a signature diagram of the signature analyzer; in fig. 2 is an example of a specific implementation of a counter.

The signature analyzer has informational 1 and clock 2 inputs, inputs “Start 3 and Stop 4, first 5 and second 6 inputs of operating mode control, reset input 7, multiplexer 8, active front selector 9, measuring gate generator 10, modulo 11 two, the first 12 and the second 13 elements And, the counter 14, the display unit 15, as well as the information 16 and clock 17 inputs, the inputs of the record 18 and the reset of the counter 19, a group of 20 bits of outputs.

The counter (Fig. 2) 14 contains two successively connected four-bit synchronous counters with a preset of 21.1 and 21.2 (in this case, as a particular example, the counter size of counter 14 is chosen to be eight).

The signature analyzer operates in two modes: the formation of a signature, and the determination of the period of pulse sequences and the duration of the measuring gate.

In the first mode a, both inputs 5 and 6 control the analyzer's operating mode receive high-level signals, while the output of multiplexer 8 receives control signals from the inputs of Start 3 and Stop 4 of the analyzer, and counter 14 operates in the shift register mode.

At the inputs of the active edge selector 9, the signal “Tact from the analyzer input 2 and the Start and Stop signals from the output of the multiplexer 8.

The active front selector 9 allows you to select the transition polarity that affects the circuit of the generator 10 of the measuring gate, individually for each of the control signals.

Signals "Start and Stop with synchronization signal" Pulse from the driver of the measuring gate produces a measuring gate (measurement window), which from the output of the gate of the driver 10 enters the second input of the And 12 element, the first input of which receives the signal "Pulse from the corresponding selector output 9 active front. At the output of the element 12, a packet of pulses of the signal "Tact" is formed, the number of which is determined by the duration of the measuring gate.

The packet of pulses from the output of the element And 12 is fed to the clock input of the counter 14, operating in the shift register mode, which, together with the adder 11 mod

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Liu forms in this mode a pseudo-random sequence generator — a signature generator. At the first input of the adder 11 modulo two receives a signal from the information input 1 of the analyzer. The other inputs of the adder And receive signals from the outputs of the counter 14, corresponding to the type of the generating polynomial (for example, from the outputs of 7, 9, 12 and 16 bits with a 16-bit counter 14).

On the falling edge of the measuring strobe, a strobe end signal is generated, which from the second output of the imaging unit 10 through the element 13 arrives at the synchronous input of the display unit 15 and at the reset input 19 of the counter 14. Thus, the code (signature) from the output of the counter 14 is copied to the display unit 15 and then the counter 14 is reset and is thus prepared for a new measurement. In block 15, the code indication (signature) is displayed, for example, by a four-digit hexadecimal display.

The counter 14 and the display unit 15 can also be reset by a signal from the analyzer reset input 7.

To switch to the pulse period determination mode or the duration of the measuring strobe, a low level signal is applied to the input 6 of the analyzer. Depending on the state of input 5 of the analyzer, it is possible to determine the pulse period at the information input 1 of the analyzer (at a low potential level at input 5) or the duration of the measuring gate (at a high potential level at input 5). Let input 6 present a low signal. In this case, the output of the multiplexer 8 passes the signal from the information input 1 of the signature analyzer. This signal as control signals Start and Stop is fed to the input of the selector 9 of the active front, and then to the corresponding inputs of the former 10 of the measuring gate.

By varying the choice of active fronts of the “Start and Stop” signals, it is possible to ensure the formation of a measuring gate duration equal to the duration of the pulses (when choosing dissimilar differences) or the period of pulses (when choosing the same differences).

The number of clock pulses in the packet at the output of the And 12 element is determined by the duration of the selected time interval.

Under the influence of the unit potential of the signal at the input 6 of the analyzer, the counter 14 is in the mode of counting the number of pulses arriving at its clock input. The information on the information input of the counter does not affect its operation.

To determine the duration of the measuring strobe, i.e., the duration of the time interval between the selected signal drops at the Start 3 and Stop 4 analyzers, the high level signal must be applied to the input 5 of the analyzer. In this case, the control signals "Start and Stop" from the inputs 3 and 4 of the analyzer, respectively, are passed to the output of the multiplexer 8.

At the output of the element 12, as in the measurement mode of the signature, a burst of sync pulses are received from the input of the analyzer Tact, the number of which is determined by the duration of the measuring strobe. The packet of clock pulses arrives at the clock input of the counter 14 in the counter mode. The result of counting the number of clock pulses in a packet, as in all other cases, is fed to the input of the display unit 15.

Claims (1)

Invention Formula Signature analyzer containing active edge selector, measuring gate driver, modulo two adder, display unit and two AND elements, the clock input of the active front selector being the clock input of the analyzer, the clock output of the active front selector is connected to the measuring gate and the first input of the first element, And, the “Start and Out” stops of the active front selector are connected to the inputs of the measuring gate generator of the same name, the strobe and end outputs measure a personal gate to second, respectively, with the second input of the first element I and the first input of the second element I, the output of which is connected to the synchronous input of the display unit, the information input of the analyzer is connected to the input of the adder by mode two, the reset input of the analyzer is connected to the reset inputs of the measuring gate forming unit and the display unit and the second input of the second element AND, characterized in that, in order to increase the reliability of the control, it contains a multiplexer and a counter, the group of bit outputs of which is connected to the information group of the display module inputs, a group of digit outputs of the counter, corresponding to the type of the generating polynomial, is connected to a group of modulo-two inputs, the output of which is connected to the information input of the counter, a clock input, a recording input and a reset input of which are connected respectively to the output of the first element And, the first control input of the analyzer mode and the output of the second element, And, the two inputs of the first group of information inputs of the multiplexer are combined and connected to the information input of the analyzer, two inputs Torah group of information inputs of the multiplexer are respectively connected to the inputs of "Start" Stop analyzer, two outputs of the multiplexer are respectively connected to the inputs of "Start" Stop selector 0 of the active edge, the control input of the multiplexer is the second control input of the analyzer mode. five