SU911536A1 - Device for analysis of time intervals - Google Patents

Description

The invention relates to computer technology and can be used to analyze the distribution of time intervals between the occurrences of random events simulated by pulses standardized in amplitude and duration for physical modeling of queuing theory and random stream theory problems.

A device for determining time intervals containing a pulse counter, a unit for allocating a first pulse; last pulse extraction unit, trigger, memory, shaper, digital meter and indication unit [Ί

The disadvantage of this device is the hardware complexity.

Closest to the proposed technical solution is a device for analyzing time intervals containing a control trigger, a single input of which is the first input of the device, and a single output is connected to the first input of the first element And, the output of which is connected to the input of the first counter, the second input of the device is connected with the first input of the second AND element, the output of which is connected to the input of the second counter, the potential outputs of which are connected to the input of the end time reference switch, the output otorrhea connected to the zero input of the first flip-flop, a third input device coupled to the second input of the first AND gate, the third counter and the second flip-flop £ .2

The disadvantages of the device include the low accuracy of determining the time interval between any given pulses of a random sequence within the selection zone.

The purpose of the invention is to improve the accuracy of the device.

This goal is achieved by the fact that in the device for the analysis of time intervals introduced switch. a timer of the beginning of the countdown of the time interval, blocks for forming the beginning and end of the selection zone, the third and fourth elements AND, while the counting input of the third counter is connected to the output of the third element And, the first input of which is the third input of the device, the second input is combined with. the second input of the second element And is connected to the single output of the second trigger, the zero output of which is connected to the first input of the fourth element And, the second input of which is combined with the third input of the third element And and connected to the single output of the first trigger, the single input of which is connected to the output of the start switch the reference time interval, the inputs of which are connected to the potential outputs of the second counter, the output of the fourth element And is connected to the installation input at zero of the third counter, the potential outputs of the first of the second counter are connected to the inputs of the units for forming the beginning and end of the selection zone, the outputs of which are connected respectively to the unit and zero inputs of the second trigger, and the zero input of the control trigger is connected to the output of the unit for forming the end of the selection zone.

In the drawing, the ma device is time catch.

The time catch device comprises an alignment trigger, a first element And a chip 3, formers 4 and 5 of the selection zone and the end of the zone, and a second trigger 6, the second

And 7, counter 8, switches 9 start and end 10 of the countdown time interval and the first trigger 11, the third element And 12, the third counter 13 and the fourth element And 14.

A device for analyzing time intervals works as follows.

In the initial state in the counters

3.8 and 13 set zeros, and triggers 1, bi 11 are in the zero state. Shapers 4 and 5 set the selection zone on the time axis, with the selected counter bit 3 and the frequency of the reference pulse sequence ^P ET · Switches 9 and 10 further narrow the zo. in the selection so that the time count is presented block-for-analysis of the interval35 for the analysis of interval1 up2, from the beginning of the selection, the element is provided between the pulses from the bus of a random sequence of pulses from i-th to ί + η-th set in order of sequence.

Under the influence of the Start signal, trigger I is brought into a single state, from its single output, the recording resolution potential enters the input of element And 2, through element And 2, the reference pulse sequence F ^ -j · enters the counting input of counter 3, the counter counts the pulses of the reference sequence to form a time interval. Upon reaching the point in time (pulse number) specified by the driver 4, through the last counter 3 sets the trigger 6 to a single state, the output unit potential of which is permissible for the elements And 12 and 7. A random sequence of pulses through the And 7 element enters the counting input of the counter 8 , which, starting from the random pulse number specified by switch 9 of the input pulse, through the latter translates trigger 11 into a single state, the output unit potential of which is allowed it has potential for element And 12. If there are enable potentials from triggers 6 and 11, element And 12 from the input of the reference sequence to the counting input of the arrival of a given pulse by random counter 8 through switch 10 sets trigger 11 to its initial zero state, the unit potential from the output of trigger 11 and from the input of the element And 12 is removed, the counter 13 is stopped, and upon reaching the end of the selection zone (upon arrival of a given pulse of the reference sequence) counter 3 through block 5 transfers the triggers 1 and 6 to the initial state ie, single elements with control potentials input AND 2, 7 and 12 are removed, and the elements 2, 7 and 12 are locked, the counters 3, 8 and 13 are stopped (Counter 13 operates at a mandatory set condition of flip-flops 6 and 11). Element And 14 is designed to eliminate errors in the analysis. If the pulse of a random sequence specified by switch 10 is outside the pulses, it supplies counter 13. By switch 10 of the sequence of the selection zone, i.e. if trigger 6 is brought to the zero state earlier than trigger 11, unit potentials from the single output of trigger 11 and from the zero output 5 of trigger 6 through element And 14 will set counter 13 to zero.

After the experiment on the content of the counter 13 or the ratio of the contents of the counter 13 to the difference in the contents of the switches 10 and 9, an estimate of the probability of random times falling into the selected selection zone can be obtained. ⁴⁵

Using the proposed device for analysis compares favorably with the prototype, since it allows you to vary the selection zone over a wider range, the channels of the reference Yu and random sequences in it are completely identical and are assembled on standard logic elements. The proposed device for the analysis of time intervals is much simpler 25 in a structural respect and in its maintenance, and therefore, more reliable.

Claims (2)

time internals are introduced by the time interval reference selector, the blocks forming the beginning and end of the selection zone, the third and fourth elements I, the counter input) the 1st input of the third counter connected to the output of the third element I, the first input of which is the third input of the device, the second input merged with. the second input of the second element And is connected to the unit output of the second trigger, zero output of which is connected to the first input of the fourth element And, the second input of which is combined with the third input of the third element And and connected to the unit output of the first trigger, the single input of which is connected to the output of the switch the beginning of the interval of time, the inputs of which are connected to the potential outputs of the second counter, the output of the fourth element I is connected to the input of setting the third counter to zero, the potential outputs are first This counter is connected to the inputs of the formation blocks of the beginning and end of the selection zone, the outputs of which are connected respectively to the single and zero inputs of the second trigger, and the zero input of the control trigger is connected to the output of the formation block of the end of the selection zone. The drawing shows a block diagram of a device for analyzing time intervals. The device for analyzing time intervals contains control trigger 1, first element AND 2, counter 3, shapers 4 and 5 of the beginning of the selection zone and the end of the selection zone and the second trigger 6, the second element AND 7, counter 8, switches 9 of the beginning and the frame 10 of the interval count time and the first trigger 11, the third. the element And 12, the third counter 13 and the fourth element And 1A. The device for analyzing time intervals works as follows. In the initial state, the counters 3.8 and 13 are set to zero, and the triggers 1, 6, and 11 are in the zero state. The formers 4 and 5 set the selection zone on the time axis at the selected bit size of the counter 3 and the frequency of the reference sequence of the pulses of the RE type. Switches 9 and 10 are further restricted. zo in the selection, so that the counting times are provided between the pulses from the bus of a random sequence of pulses from i-th to i + n-ro, set in order of succession. When the signal is triggered, the trigger I triggers to a single state, from its single output the recording resolution potential enters the input element AND 2, through the element 2 the reference pulse sequence arrives at the count input of counter 3, the counter counts the pulse in the reference sequence to form an interval of time. Upon reaching the time point (pulse number) specified by the shaper 4, the last counter 3 sets the trigger 6 to a single state, the output unit potential of which is resolving for elements 12 and 7. The random sequence of pulses through the element 7 enters the counting input the counter 8, which, starting with the number of the input-pulse of a random sequence given by the switch 9, translates the trigger I 1 into a single state through the latter, the output unit potential of which is resolved If there are resolving potentials from triggers 6 and 1I, element 12 from the reference pulse sequence feeds them to the counting input of counter 13. Upon arrival of a random sequence pulse specified by switch 10, counter 8 sets trigger 11 to initial the zero state, the unit potential from the output of the trigger P and from the input of the element I 12 is removed, the counter 13 stops, and upon reaching the end of the selection zone (upon the arrival of a predetermined pulse of the reference sequence the counter 3, through block 5, transfers the triggers I and 6 to the initial state, the unit potentials from the control inputs of the elements 2, 7 and 12 are removed, the elements 2, 7 and 12 are locked, the counters 3, 8 and 13 stop (counter 13 operates in the mandatory single state of the triggers 6 and P), Element I 14 is designed to eliminate the error resulting from the analysis. If the random sequence pulse given by switch 10 is outside the selection zone, i.e. if trigger 6 is transferred to the zero state earlier than trigger 11, the unit potentials from the single output of trigger 11 and from the zero output of trigger 6 through the element 14 have set the counter 13 to zero. After the end of the experiment, the content of the counter 13 or relative content The score of 13 for the difference in the contents of switches 10 and 9 can be used to estimate the probability of random time intervals falling into a selected selection zone. The use of the proposed device for analysis differs favorably from the prototype, since it allows the selection zone to vary over wide limits, the channels of the reference AND random sequences in n are completely identical and are assembled on standard logic elements. The proposed device for analyzing time intervals is significantly more constructive and maintainable, and therefore more reliable. Apparatus of the Invention A device for analyzing time intervals, comprising a control trigger, the single input of which is the first input of the device, and the single output connected to the first input of the first element And whose output is connected to the input of the first counter, the second input of the device connected to the first input of the second element And The output of which is connected to the input of the second counter, the potentials of the outputs of which are connected to the input of the switch of the interval end of the interval, the time of the output of which is connected to the zero input of the first igger, and the third input of the device is connected to the second input of the first element, And, the third counter and the second trigger, characterized in that, in order to improve accuracy, a reference switch of the interval of time, blocks of formation of the beginning and end of the selection zone, the third and fourth elements And, while the counting input of the third counter is connected to the output of the third element And, the first input of which is the third input of the device, the second input is combined with the second input of the second element And and connected to the single output of the second t igger, the zero output of which is connected to the first input of the fourth element And, the second input of which is combined with the third input of the third element And and connected to the single output of the first trigger, the single input of which is connected to the output of the reference switch of the time interval, the inputs of which are connected to the potential outputs of the second the counter, the output of the fourth element I is connected to the input of the setting of the third counter to zero; the potential outputs of the first counter are connected to the inputs of the formation blocks of the beginning and end of the s selection, the outputs of which are connected respectively with unit and zero inputs of the second flip-flop, and triggeraupravleni zero input connected to the output end of the block forming zone selection. Sources of information taken into account during the examination 1. USSR author's certificate No. 390529, cl. G 06 F 15/46, 1971. 2. USSR author's certificate {413486, cl. G 06 F 15/34, 1972.