SU879654A1 - Device for rotation shift register control - Google Patents

Description

The invention relates to computer technology, in particular to devices for monitoring the functional components of computers.

A device for detecting errors in shift registers [1J. ⁵

The closest known technical essence to the invention is the device [2D, containing a convolution modulo 2 of all bits of the shift register, an auxiliary trigger for storing convolution results, a convolution modulo module 2 of the state of this trigger and input information, and a circuit for comparing the result of the last convolution with a new result convolutions after ¹³ receiving information.

The disadvantages of the known device is the inability to detect even errors, as well as, due to the multi-stage control circuit, large time delays and the associated increase in control time. It is impossible to apply the circuit _f if the shifting pulses travel at a high frequency (from 6 MHz and higher).

However, when using an annular shear register as a pulse distributor, one and only one unit circulates in it, which makes it possible to use a circuit for its control without such drawbacks.

The aim of the invention is to increase the speed of the device and expand the scope of its application due to the possibility of detecting errors of any multiplicity.

This goal is achieved by the fact that in the device for monitoring the annular shift register containing the main element AND, the output of which is connected to the output of the device, and the shift bus, an additional element And, the element OR-HE and the element NOT, the input of which is connected to the shift bus, are introduced . The output of the element is NOT connected to the first input of the main element

And, the second input of which is connected! With the output of the element OR NOT. The inputs of the element are NOT connected to the outputs of the additional element AND, the inputs of which are connected to the information inputs of the device.

The drawing shows a functional diagram of the proposed device.

It contains an additional element AND 1, element OR NOT 2, the main element AND 3, element NOT 4 and shift bus 5.

The device operates as follows.

If there is one and only one unit on the circular shift register (not shown in the drawing), then. At each moment of time between the shift pulses on one of the 'outputs of element 1 is present "1. Therefore, the output of the OR-NOT 2 element is in the state 0 * '. Moreover, the .3 element is closed by this zero. At the output of element 3, there is 0, which corresponds to the absence of an error.

If as a result of the failure in the ring shift register at least one more unit appears or the ring shift register is in the zero state, then all outputs of element 1 are in state 0, therefore, at the output of element 2 there is 1, which will allow the passage of the shift pulses to the output of element 3 The presence of signals at the output of element 3 corresponds to the presence of errors.

In order to exclude the influence of transients occurring when switching the shift register

879654 4 'and control circuits, element And 3 is interrogated by the reverse phase of the shift pulses.

Using the proposed device allows one to detect errors of any multiplicity and to monitor at a high frequency of shear pulses.

Claims (2)

The invention relates to a computing technique, in particular, to devices for monitoring functional units of a computer. A device for detecting errors in shift registers is known. The closest known technical entity to the invention is a device 2} containing a convolution modulo 2 of all the shift register bits, an auxiliary trigger for storing the results of convolution, a convolution circuit modulo 2, the state of this trigger and the input information and comparison schemes for the last result convolutions with new convolution results after receiving information. The disadvantages of the known device are the impossibility of detecting even errors, as well as, due to the multi-stage control circuit, large time delays and the associated increase in the monitoring time. The circuit cannot be used if the shift pulses go with a high frequency (from 6 MHz or higher). However, when using an annular shift register as a pulse distributor, one and only one unit circulates in it, which makes it possible to use a circuit to control it, without such drawbacks. The aim of the invention is to improve the speed of the device and expand the scope of its application due to the possibility of detecting errors of any multiplicity. The goal is achieved by the fact that an additional AND element, an OR-NOT element, and an NOT element whose input is connected to the shear bus are entered into the device for controlling the annular shift register, which contains the main element AND whose output is connected to the output of the device. . The output of the element is NOT connected to the first input of the main element 3 AND, the second input of which is connected to the k output of the element OR NOT. The inputs of the element OR are NOT connected to the outputs of the additional element AND, the inputs of which are connected to the information inputs of the device. The drawing shows a functional diagram of the proposed device. It contains an additional element AND 1, the element OR NOT 2, the main element AND 3, the element NOT 4 and the shear bus 5. The device operates as follows. If there is one and only one unit in the annular shift register (not shown), then iB every time between shifts of one of the pulses at one of the outputs of element 1 is present 1. Therefore, the output of the element OR NOT 2 is in state 0. In this case, the element 3 is closed by this zero. The output of element 3 is 0, which corresponds to the absence of error. If, as a result of a failure in the Ring Shift Register, at least one more unit or ring shift register turns out to be in the zero state of the SRI, then all outputs of element 1 are in state O, therefore element 2 is present at output 1, which will allow the passage of shifting pulses to output element 3. The presence of signals on the input element 3 corresponds to errors. In order to eliminate the effect of transients that occur when switching the shift register 4 AND of the control circuit, the And 3 element is interrogated by the reverse phase of the shift pulses. The use of the proposed device makes it possible to detect errors of any multiplicity and to perform control at high frequency shift pulses. Apparatus for controlling an annular shift register containing a main element I, the output of which is connected to the output of the device, and a shear bus, characterized in that, in order to increase the speed of the device and expand its application area due to the possibility of detecting errors of any multiplicity, an additional element is introduced AND the element OR NOT and the element NOT whose input is connected to the shear bus, the output of the element is NOT connected to the first input of the main element AND, the second input of which is connected to the output of the element nta OR OR NOT inputs of the element OR NOT connected to the outputs of the additional element AND, the inputs of which are connected to the information inputs of the device. Sources of information taken into account during the examination 1. USSR author's certificate No. 529488, cl. G P S 29/00, 1976. 2. USSR author's certificate No. 529489, cl. 8 11 С 29/00, 1976 (prototype).