An exemplary memory includes a memory cell array configured to store a plurality of data bits each associated with a respective column plane, and an input/output circuit including a compression circuit configured to provide error data based on a comparison between a bit of the plurality of data bits received from the memory cell array and an expected value and based on a respective column plane of the memory cell array with which the bit is associated. The compression circuit is further configured to encode a column plane error code based on the error data for provision to a data terminal.

An exemplary memory includes a memory cell array configured to store a plurality of data bits each associated with a respective column plane, and an input/output circuit including a compression circuit configured to provide error data based on a comparison between a bit of the plurality of data bits received from the memory cell array and an expected value and based on a respective column plane of the memory cell array with which the bit is associated. The compression circuit is further configured to encode a column plane error code based on the error data for provision to a data terminal.

Embodiments of the disclosure are drawn to apparatuses, systems, and methods for direct access hybrid testing. A memory device, such as a high bandwidth memory (HBM) may include direct access terminals. During a testing procedure, test instructions may be provided to the memory through the direct access terminals. The test instructions include a data pointer which is associated with one of a plurality of test patterns pre-loaded in the memory and an address. The selected test pattern may be written to, and subsequently read from, the memory cells associated with the address. The read test pattern may be compared to the selected test pattern to generate result information. The test patterns may be loaded to the memory, and the result information may be read out from the memory, in an operational mode different than the operational mode in which the test instructions are provided.

Embodiments of the disclosure are drawn to apparatuses, systems, and methods for direct access hybrid testing. A memory device, such as a high bandwidth memory (HBM) may include direct access terminals. During a testing procedure, test instructions may be provided to the memory through the direct access terminals. The test instructions include a data pointer which is associated with one of a plurality of test patterns pre-loaded in the memory and an address. The selected test pattern may be written to, and subsequently read from, the memory cells associated with the address. The read test pattern may be compared to the selected test pattern to generate result information. The test patterns may be loaded to the memory, and the result information may be read out from the memory, in an operational mode different than the operational mode in which the test instructions are provided.

A memory device includes a memory array, a first buffer, a second buffer, a repair logic circuit and an internal memory. The method of operating the memory device includes: the repair logic circuit receiving a bad column table from the internal memory, the bad column table containing information of a bad column in the memory array; the first buffer receiving first data; the repair logic circuit receiving the first data from the first buffer; and the repair logic circuit mapping the first data onto second data according to the bad column table.

A memory device includes a memory array, a first buffer, a second buffer, a repair logic circuit and an internal memory. The method of operating the memory device includes: the repair logic circuit receiving a bad column table from the internal memory, the bad column table containing information of a bad column in the memory array; the first buffer receiving first data; the repair logic circuit receiving the first data from the first buffer; and the repair logic circuit mapping the first data onto second data according to the bad column table.

Disclosed herein is an apparatus that includes a first semiconductor chip including a data I/O terminal, a test terminal, a first data input node, a first data output node, a read circuit, a write circuit, and a test circuit configured to transfer a test data supplied from the test terminal to the read circuit, and a second semiconductor chip including a second data input node connected to the first data output node, a second data output node connected to the first data input node, and a memory cell array. The test circuit is configured to activate the read circuit, the write circuit and the memory cell array so that the test data is written into the memory cell array via the read circuit, the data I/O terminal, the write circuit, the first data output node, and the second data input node.

Disclosed herein is an apparatus that includes a first semiconductor chip including a data I/O terminal, a test terminal, a first data input node, a first data output node, a read circuit, a write circuit, and a test circuit configured to transfer a test data supplied from the test terminal to the read circuit, and a second semiconductor chip including a second data input node connected to the first data output node, a second data output node connected to the first data input node, and a memory cell array. The test circuit is configured to activate the read circuit, the write circuit and the memory cell array so that the test data is written into the memory cell array via the read circuit, the data I/O terminal, the write circuit, the first data output node, and the second data input node.

A storage device includes storage circuitry and multiple memory cells. The memory cells are organized in multiple memory blocks of a nonvolatile memory. The storage circuitry is configured to define a partial verification scheme that specifies testing only a data portion of the data programmed to the memory blocks, to program data to a memory block, calculate redundancy data over the data, and save the calculated redundancy data in a dedicated memory, to verify that the data portion specified for the memory block in the partial verification scheme has been programmed successfully, to check a predefined condition for conditionally performing full verification to the memory block, when the predefined condition is fulfilled, to verify that data programmed to the memory block and not tested using the partial verification scheme has been programmed successfully, and to recover, using the redundancy data, at least part of the data programmed that failed verification.

A test method for a memory device which includes performing a first write operation of writing test data to first regions of a normal cell region and a parity cell region, and storing a parity bit generated based on the test data in a temporary storage circuit, performing a second write operation of writing the parity bit stored in the temporary storage circuit to a second region of the parity cell region, performing a first read operation of reading the parity bit from the second region of the parity cell region, and storing the parity bit into the temporary storage circuit, and performing a second read operation of reading the test data from the first regions of the normal cell region and the parity cell region, correcting an error of the test data using the parity bit stored in the temporary storage circuit, and outputting error-corrected test data.