SU646375A1 - Storage unit monitoring device - Google Patents

Description

(54) DEVICE FOR CONTROL OF MEMORY BLOCKS

The control inputs, control unit, temperature sensor and information inputs of the printing unit are connected to the control inputs and outputs of the counters connected to the outputs and inputs of the second control unit, and the output of the third control unit is connected to the control input of the control signals. block.

The drawing shows a block diagram of a device for monitoring memory blocks. The device contains the first control unit

1, pulse generators 2 and 3, driver of control signals 4, group of counters 5, driver of control signals 6, group of counters 7, power supply 8, group of counters 9, temperature sensor 10, counter 11, second unit at 12, trigger 13, the third control unit 14, the printing unit 15, the control panel 16. The output of the pulse generator

2, the outputs of the driver of the control signals 6, the power supply unit 8 and the temperature sensor 10 are connected respectively to the first input, the second and third outputs of the device, to which the monitored memory block 17 is connected.

The information outputs of the counters 5, 7, 9, 11 are connected respectively to the control inputs of the driver control signals 4 and 6, the power supply unit 8, the temperature sensor 10 and the information inputs of the printing unit 15, the control inputs and outputs of the same meters are connected to the outputs and the inputs of the second control unit 12. The output of the third control unit 14 is connected to the control input of the printing unit 15.

The device works as follows.

The control unit 1, in accordance with the program entered from the control panel 16, generates a set of control signals for pulse generators 2 and 3 and a control signal generator 4. This set of control signals determines the test test program and sets the code number, address and mode operation for the checked memory block 17 in each circulation cycle. The pulse generator 2 generates a reference number code for writing to the checked block 17 and comparing with the number code read from block 17. The result of the comparison of the read and reference numbers goes to control unit 1. Pulse generator 3 generates the address code of the checked block 17. Information about the address counters included in the coctaiB pulses (not shown) is sent to control block 1, setting conditional transitions in the verification test algorithm. The control signal generator 4, depending on the mode specified by the control unit l, generates a timing diagram

scans, write, erase or regenerate. The temporal position and duration of the control signals for the test. the memory block 17 is set by programmable delay lines (not shown in the drawing) of the former in the counters 5. From the outputs of the former 4, the control signals go to the former 6. Ampl. There, the output signals are set by the counter code 7. From the outputs of the imaging unit 6 signals, control signals of a given amplitude are fed to the inputs of the tested block .17. The power supply of the test block 17 is made from the power supply unit 8. The values of the supply voltages of the power supply unit 8 are determined by the codes stored in the counters 9. The test unit 17 is enclosed in a thermostat. The setting of the ambient temperature is made by the temperature sensor 10 in accordance with the counter code 11. Counter groups 5, 7, 9 and counter 11

 serve for - storing and changing (in the process of building the health domain) codes defining the parameters of the control actions for the checked memory block 17. The printing block 15 serves for fixing the boundaries of the health domain. Control unit 12 implements an algorithm for constructing a health region. The actual area of operability of the memory block 17 is multidimensional, but depending on the type of block 17 and the conditions of its operation, the most important parameters can be identified that significantly affect the reliability of its operation. The control unit 12, in accordance with the program entered from the control panel 16, sets the number of parameters to be changed during the construction of the working area, the boundaries and their variation. The control unit 12 changes the state of the selected counters 5, 7, 9, 11 thereby changing the values of the parameters of the control actions. In turn, the selected counters inform the control unit 12 of their current state, forming the transition conditions of the health domain building algorithm. Thus, the control unit 12 sets two rhythms of operation of the device for testing the memory block 17: the test mode of the test of the memory block and the mode of change of the control actions, and the operation of the control unit 1 is blocked for the time of change of the parameters of the control actions. The control unit 1 informs the control unit 12 of the result of this verification test. Depending on this result (there is a failure, no failure), the control unit 12 generates control signals with a trigger 13, which serves to register the boundary of the working area (setting zero if there is a failure or setting one if there is no failure). The control unit 14 determines whether