An integrated circuit (IC) includes a non-volatile memory and boot circuitry. The boot circuitry is configured to boot the IC, including reading from the non-volatile memory one or more values indicative of whether production testing of the IC was completed successfully, and initiating a responsive action if the one or more values indicate that the production testing was not completed successfully.

A memory test method includes: testing a first memory to acquire defect information of the first memory; acquiring repair information of the first memory according to the defect information of the first memory; and storing the repair information of the first memory in a second memory. In the technical solutions provided in the embodiments of the present disclosure, other memories may be used to store the repair information of the currently tested memory, so that the storage space can be increased and the test efficiency can be improved.

A failure pattern obtaining method and apparatus are provided. The method includes that: a chip test result picture for a wafer is obtained, the chip test result picture being marked with a plurality of failure test points; a vector for every two points among all failure test points is calculated; a plurality of failure test points having a same vector are designated as a same group; a plurality of pending failure patterns are separated from each of groups; a failure pattern is obtained based on the plurality of the pending failure patterns.

A memory device includes; a memory cell array including a first memory cell region and a second memory cell region, a voltage generator configured to generate a code corresponding to a write voltage, and a write driver configured to store data in the first memory cell region in response to the code. The second memory cell region stores a value defining the write voltage, and the write voltage is determined in relation to a reference resistance distinguishing a parallel state and an anti-parallel state for the memory cells, and further in relation to an initial write voltage applied to a magnetic tunnel junction element of at least one of the memory cells.

An apparatus including a test validation circuit and associated systems and methods are disclosed herein. The apparatus may include a self-test circuit configured to implement at least a portion of a self-test process that determines operating conditions of the apparatus. The test validation circuit may be configured to generate a flag based on comparing (1) an input stream or a portion thereof associated with the self-test to (2) test data associated with the self-test. The flag may represent a validity associated with the implementation of the self-test process or the portion thereof.

A processing-in-memory (PIM) device includes a multiplication/accumulation (MAC) operator. The MAC operator includes a multiplying block and an adding block. The multiplying block includes a first multiplier and a second multiplier. The first multiplier performs a first multiplying calculation of first half data of first data and first half data of second data. The second multiplier performs a second multiplying calculation of second half data of the first data and second half data of the second data. The adding block performs an adding calculation of first multiplication result data outputted from the first multiplier and second multiplication result data outputted from the second multiplier. The MAC operator receives a test mode signal having a first level to perform a test operation for the multiplying block.

A storage device includes a memory, a write circuit, a read circuit, and a debug information register. The memory includes a data area and a redundant area that corresponds to the data area. The write circuit writes first data specified in a write command to the data area, and first information about a transmission source which has transmitted the write command, to the redundant area. The read circuit reads the first data as second data from the data area, and reads the first information as second information from the redundant area, in response to a read command. The debug information register stores the second information read by the read circuit.

Disclosed is a memory device including a magnetic storage element. The memory device includes a memory cell array, a voltage generator, and a write driver. The memory cell array includes a first region and a second region. The memory device is configured to store a value of a first read current determined based on a value of a reference resistance for distinguishing a parallel state and an anti-parallel state of a programmed memory cell. The sensing circuit is configured to generate the first read current based on the value of the first read current and to perform a read operation on the first region based on the first read current.

A memory device includes: a memory cell array comprising a plurality of memory cells; a temperature sensor configured to detect a temperature of the memory cell array; a write circuit configured to write data into the plurality of memory cells; and a controller coupled to the temperature sensor and the write circuit, wherein the controller is configured to determine a target write pulse width used by the write circuit based on the detected temperature of the memory device.

A method for bit error rate testing a processing unit using a bit error rate tester (BERT) includes transmitting a signal pair to a receiver of the processing unit, the signal pair having jitter levels complying with a jitter threshold, tuning the signal pair to obtain a first stressed eye measurement for the receiver, wherein the first stressed eye measurement complies with a stressed eye mask, placing the processing unit into a loop-back mode, wherein data transmitted to the processing unit by the BERT is transmitted back to the BERT, transmitting a data pattern to the processing unit, receiving a looped back version of the data pattern from the processing unit, and calculating a bit error rate in accordance with the data pattern and the looped back version of the data pattern.