A word line control method, a word line control circuit device, and a semiconductor memory are provided. The method includes: acquiring a row address input signal; acquiring a test mode signal; performing logical and decoding operations on the row address input signal and the test mode signal to generate a row address control signal, wherein the row address control signal includes at least two valid activation signals; and simultaneously activating at least two non-adjacent word lines based on the at least two valid activation signals. The row address control signal obtained allows simultaneous activation of at least two non-adjacent word lines. Since none of any two non-adjacent word lines share a common contact area, a test will not be affected by the disconnection of a contact area or the presence of high impedance, thus improving test accuracy.

A word line control method, a word line control circuit device, and a semiconductor memory are provided. The method includes: acquiring a row address input signal; acquiring a test mode signal; performing logical and decoding operations on the row address input signal and the test mode signal to generate a row address control signal, wherein the row address control signal includes at least two valid activation signals; and simultaneously activating at least two non-adjacent word lines based on the at least two valid activation signals. The row address control signal obtained allows simultaneous activation of at least two non-adjacent word lines. Since none of any two non-adjacent word lines share a common contact area, a test will not be affected by the disconnection of a contact area or the presence of high impedance, thus improving test accuracy.

A semiconductor memory device includes a buffer die and a plurality of memory dies. Each of the memory dies includes a memory cell array, an error correction code (ECC) engine and a test circuit. The memory cell array includes a plurality of memory cell rows, each including a plurality of volatile memory cells. The test circuit, in a test mode, generates a test syndrome and an expected decoding status flag indicating error status of the test syndrome, receives test parity data generated by the ECC engine based on the test syndrome and a decoding status flag indicating error status of the test parity data, and determines whether the ECC engine has a defect based on comparison of the test syndrome and the test parity data and a comparison of the expected decoding status flag and the decoding status flag.

An example method for restricting read access to content in the component circuitry and securing data in the supply item is disclosed. The method identifies the status of a read command, and depending upon whether the status disabled or enabled, either blocks the accessing of encrypted data stored in the supply chip, or allows the accessing of the encrypted data stored in the supply chip.

An example method for restricting read access to content in the component circuitry and securing data in the supply item is disclosed. The method identifies the status of a read command, and depending upon whether the status disabled or enabled, either blocks the accessing of encrypted data stored in the supply chip, or allows the accessing of the encrypted data stored in the supply chip.

The disclosure relates to a method and system for memory testing to detect memory errors during operation of a memory module. Example embodiments include a method of detecting an error in a memory module (101), the method comprising the sequential steps of: i) receiving (302) a request from a processor executing an application for a read or write operation at a location of the memory module (101) identified by an address; ii) outputting data (304) from, or writing to, the location of the memory module (101); iii) generating (306) by an error detection module (102) a further read request for the location of the memory module (101) identified by the address; iv) receiving (307) at the error detection module (102) an error correction code from the memory module (101) for the location identified by the address; and vi) providing (311) by the error detection module (102) an alert output for the address if the error correction code indicates an error.

The disclosure relates to a method and system for memory testing to detect memory errors during operation of a memory module. Example embodiments include a method of detecting an error in a memory module (101), the method comprising the sequential steps of: i) receiving (302) a request from a processor executing an application for a read or write operation at a location of the memory module (101) identified by an address; ii) outputting data (304) from, or writing to, the location of the memory module (101); iii) generating (306) by an error detection module (102) a further read request for the location of the memory module (101) identified by the address; iv) receiving (307) at the error detection module (102) an error correction code from the memory module (101) for the location identified by the address; and vi) providing (311) by the error detection module (102) an alert output for the address if the error correction code indicates an error.

Disclosed herein is a semiconductor device including a non-volatile memory unit. The non-volatile memory unit has a subject current path disposed in a semiconductor integrated circuit and a fuse element inserted in series on the subject current path, and changes output data according to a voltage between both ends of the fuse element when supply of a subject current to the subject current path is intended. A current supply part that switches the subject current between a plurality of stages is disposed in the non-volatile memory unit.

Disclosed herein is a semiconductor device including a non-volatile memory unit. The non-volatile memory unit has a subject current path disposed in a semiconductor integrated circuit and a fuse element inserted in series on the subject current path, and changes output data according to a voltage between both ends of the fuse element when supply of a subject current to the subject current path is intended. A current supply part that switches the subject current between a plurality of stages is disposed in the non-volatile memory unit.

The embodiments provide a method for reading and writing and a memory device. The method includes: applying a read command to the memory device, the read command pointing to address information; reading data to be read out from a memory cell corresponding to the address information pointed to by the read command; storing the address information pointed to by the read command into a memory bit of a preset memory space if an error occurs in the data to be read out, wherein the preset memory space is provided with a plurality of the memory bits, each of the plurality of memory bits being associated with a spare memory cell; and backing up the address information stored in the preset memory space into a non-volatile memory cell according to a preset rule.