Systems and methods for repairing a memory. A method includes performing a repair analysis of the embedded memories to produce repair information. The method includes storing the repair information in the registers, where the registers are organized into groups having chains of identical length. The method includes performing collision detection between the repair information in each of the groups. The method includes merging the repair information in each of the groups. The method includes repairing the embedded memories using the merged repair information.

A data compression method includes obtaining N to-be-compressed data blocks and N pieces of protection information (PI), where the N to-be-compressed data blocks are in a one-to-one correspondence with the N pieces of PI, and N is a positive integer greater than or equal to 2, compressing the N to-be-compressed data blocks to obtain a compressed data block, and compressing the N pieces of PI to obtain compressed PI.

A memory apparatus and a memory testing method are provided. The memory testing method includes: generating a plurality of testing patterns; writing each of the testing patterns to a plurality of selected memory blocks of the memory according to a setting address; reading out a plurality of pieces of readout data from the selected memory blocks according to the setting address; and comparing the plurality of pieces of readout data to generate a testing result.

According to one embodiment, a memory system includes a nonvolatile memory including a plurality of cell units, each of the plurality of cell units including a plurality of memory cells, and a memory controller. The memory controller is configured to: read first data from a first cell unit, using a first correction amount of a read voltage; identify an address of an error bit in the first data; update the first correction amount to a second correction amount, based on the first data and the address of the error bit of the first data; and read second data from a second cell unit different from the first cell unit, using a third correction amount based on the second correction amount.

According to one embodiment, a memory system includes a nonvolatile memory including a plurality of cell units, each of the plurality of cell units including a plurality of memory cells, and a memory controller. The memory controller is configured to: read first data from a first cell unit, using a first correction amount of a read voltage; identify an address of an error bit in the first data; update the first correction amount to a second correction amount, based on the first data and the address of the error bit of the first data; and read second data from a second cell unit different from the first cell unit, using a third correction amount based on the second correction amount.

One example includes an integrated circuit (IC). The IC includes non-volatile memory and logic. The logic is configured to receive repair code associated with a memory instance and assign a compression parameter to the repair code based on a configuration of the memory instance. The logic is also configured to compress the repair code based on the compression parameter to produce compressed repair code and to provide compressed repair data that includes the compressed repair code and compression control data that identifies the compression parameter. A non-volatile memory controller is coupled between the non-volatile memory and the logic. The non-volatile memory controller is configured to transfer the compressed repair data to and/or from the non-volatile memory.

A processor unit includes a memory and an ALU coupled with the memory. The processor unit also comprises a test controller, a test control register, and a signature register. The test controller manages a series of steps to test the processor unit. It overrides an ALU control signal with a replacement ALU control signal, stored in the test control register. It generates a test pattern and writes it to a memory address. It reads memory output data from the memory address, and forwards it to the ALU. The ALU executes an operation on the memory output data based on the replacement ALU control signal. The ALU output provides a test result, which is compressed to obtain a test signature, and stored in the signature register.

A memory system includes a memory device and a memory controller. The memory device includes a plurality of memory cells. The memory controller includes an error correction code (ECC) circuit. The ECC circuit is configured to determine data rows of first write data that are not all zeros and store the determined data rows in buffer rows of a buffer along with corresponding row indexes. The memory controller is configured to write second data based on the buffer to the memory device.

A memory system includes a memory device and a memory controller. The memory device includes a plurality of memory cells. The memory controller includes an error correction code (ECC) circuit. The ECC circuit is configured to determine data rows of first write data that are not all zeros and store the determined data rows in buffer rows of a buffer along with corresponding row indexes. The memory controller is configured to write second data based on the buffer to the memory device.

A BIST engine configured to store a per pattern based fail status during memory BIST run and related processes thereof are provided. The method includes testing a plurality of patterns in at least one memory device and determining which of the plurality of patterns has detected a fail during execution of each pattern. The method further includes storing a per pattern based fail status of each of the detected failed patterns.