SU436351A1 - POSSIBLE DEVICE - Google Patents

Description

one

The invention relates to the field of computer technology and can be used, for example, in specialized computers for statistical data processing.

The known multiplying devices, containing probabilistic binary alimony, coincidence schemes and counters, have the disadvantage that the result recorded in the final counter is characterized by high dispersion, as a result of which the computation accuracy is low for a given time or, on the contrary, the computation time is large.

In order to increase accuracy and speed in the proposed multiplying device, one of the probabilistic elements is replaced by a number-pulse coding scheme of the multiplier, thereby dispersing the output pulse stream is reduced by an average of one and a half, and the error, or the computation time, is reduced more than twice . This device also allows you to multiply the pulse flow by a number, i.e., reduce the flux density by a specified number of times. The drawing shows a functional diagram of the multiplying device.

It contains the schemes “AND 1, 2, 3, the schemes“ OR 4, 5, 6, a probabilistic binary element 7, to the input of which through the bus 8 the code of the first somnol is received; counters 9, 10, 11, generator 12 clock pulses. The multiplying device has outputs 13, 14 and inputs 15, 16, 17. The multiplying device operates as follows.

Bus 8 is fed to one of the factors, and input 16 is another factor, which is recorded in counter 9 in the additional code. After the trigger pulse is applied, input 17 opens the circuit "AND 2" and signals from the generator 12 clock pulses arrive at the clock pulse input of the probabilistic binary element 7. The number of pulses fed to the binary element 7

is equal to the number b, however, not all excitation pulses arrive at the input of counter 10 from the output of element 7, they will on average be ab, since each of the excitation pulses passes to counter 10 with a probability equal to a.

A counter 9 delivers exactly b excitation pulses. After its overflow, the pulse on the feedback circuit again writes the number b in the additional code to counter 9 and simultaneously enters the test number 11 at the same time. The division factor of the AND counter may vary depending on the required accuracy of the calculation. After the counter 11 is full, the calculation process ends, the pulses from the generator

clock pulses overlap circuit

"And 2 and from counter 10 through the scheme" And 3 is written off to output 14 the result of multiplication. The multiplier device allows reducing the pulse flux density by a specified number of times (a times), where a can take any value, i.e., multiply the pulse flow by a (a). In this case, a number-pulse converter consisting of AND schemes 1, 2, OR schemes 5, 6, counters 9, 11 and generator 12 can be excluded from the multiplying device circuit. In this case, the pulse flow is fed to input 15, the rarefied flow removed from exit 13, and its density in numerical form - from the output of the counter 10.

Subject invention

A multiplying device containing a probabilistic binary element whose tuning and clock inputs are connected respectively to the first input of the device and through the first OR circuit to the information input of the device and the output of the first AND circuit, and the output of the probabilistic binary element is connected to the first counter and the first the output of the device, characterized in that, in order to increase the accuracy and speed of the device, its second input is connected through the second circuit "And to the installation inputs of the second counter, the input is complex and which is connected to the output of the first circuit "AND, whose inputs are connected to the clock generator and the output of the third counter, the input of which is connected via the second circuit" OR to the output of the second counter, the input of the first circuit

5 "OR and the input of the third circuit" OR, the other input of which is connected to the reset input of the third counter and the control input of the device, the output of the third circuit "OR is connected to the second input of the second circuit" AND

0 and the output of the first and second output of the second counter are connected to the inputs of the third AND circuit, the output of which is connected to the second output of the device.

/ J