A digital system includes a non-volatile calculating register having a set of latches configured to perform a calculation. A set of non-volatile storage cells is coupled to the set of latches. Access detection logic is coupled to the calculating register and is operable to initiate a calculation of a next value by the calculating register each time the calculating register is accessed by an accessing module. The access detection logic is operable to cause the next value to be stored in the set of non-volatile storage cells at the completion of the calculation as an atomic transaction. After a power loss or other restore event, the contents of the calculating register may be restored from the non-volatile storage cells.

An apparatus includes a selection data generation circuit configured to generate selection data from fuse data or generate the selection data having a preset test input pattern, depending on whether a failure test is entered; and a failure flag generation circuit configured to generate latch data by latching the selection data, and generate a failure flag by detecting whether the latch data has a preset test pattern.

An apparatus includes a selection data generation circuit configured to generate selection data from fuse data or generate the selection data having a preset test input pattern, depending on whether a failure test is entered; and a failure flag generation circuit configured to generate latch data by latching the selection data, and generate a failure flag by detecting whether the latch data has a preset test pattern.

A test method for a memory device including a plurality of memory cells includes generating a first test pattern, performing a first pattern write operation of writing the first test pattern in the plurality of memory cells, reading first data from the plurality of memory cells in which the first test pattern was written, generating a second test pattern based on the first data, and performing a second pattern write operation of writing the second test pattern in the plurality of memory cells. The second test pattern is generated such that a write operation is skipped with regard to failure cells from among the plurality of memory cells at which a write failure occurs, during the second pattern write operation.

A memory device includes a data storage circuit configured to store, when a write operation is performed, a first internal write data and a second internal write data in a memory cell array which is accessed by an internal address, and output, when a read operation is performed, data stored in a memory cell array which is accessed by the internal address, as internal read data; and a flag generation circuit configured to generate a flag for controlling generation of a data strobe signal, based on the internal read data.

The disclosure provides a memory device which includes a plurality of word lines grouped into a plurality of WL sets; and a plurality of redundant word lines grouped into M RWL sets; and a memory control circuit connected to the WL sets and the RWL sets and configured to replace a plurality of defective WL sets of the plurality WL sets by selecting from the RWL sets, wherein each of the plurality of defective WL sets comprises at least a defective word line, all of the M RWL sets are available for repairing the WL sets during a wafer stage, where M is an integer greater than 2, and N of M RWL sets is available for repairing the WL sets during the wafer stage, during a package stage and during a post package stage, where N is an integer less than M.

The disclosure provides a memory device which includes a plurality of word lines grouped into a plurality of WL sets; and a plurality of redundant word lines grouped into M RWL sets; and a memory control circuit connected to the WL sets and the RWL sets and configured to replace a plurality of defective WL sets of the plurality WL sets by selecting from the RWL sets, wherein each of the plurality of defective WL sets comprises at least a defective word line, all of the M RWL sets are available for repairing the WL sets during a wafer stage, where M is an integer greater than 2, and N of M RWL sets is available for repairing the WL sets during the wafer stage, during a package stage and during a post package stage, where N is an integer less than M.

A processing system includes an error detection circuit configured to receive data bits and ECC bits, calculate further ECC bits as a function of the data bits, and generate a syndrome by comparing the calculated ECC bits with the received ECC bits. When the syndrome corresponds to one of N+K single bit-flip reference syndromes, the error detection circuit asserts a first error signal, and asserts one bit of a bit-flip signature corresponding to a single bit-flip error indicated by the respective single bit-flip reference syndrome.

A processing system includes an error detection circuit configured to receive data bits and ECC bits, calculate further ECC bits as a function of the data bits, and generate a syndrome by comparing the calculated ECC bits with the received ECC bits. When the syndrome corresponds to one of N+K single bit-flip reference syndromes, the error detection circuit asserts a first error signal, and asserts one bit of a bit-flip signature corresponding to a single bit-flip error indicated by the respective single bit-flip reference syndrome.

A semiconductor device is provided, which contains a memory bank including M primary word lines and R replacement word lines, a row/column decoder, and an array of redundancy fuse elements. A sorted primary failed bit count list is generated in a descending order for the bit fail counts per word line. A sorted replacement failed bit count list is generated in an ascending order of the M primary word lines in an ascending order. The primary word lines are replaced with the replacement word lines from top to bottom on the lists until a primary failed bit count equals a replacement failed bit count or until all of the replacement word lines are used up. Optionally, the sorted primary failed bit count list may be re-sorted in an ascending or descending order of the word line address prior to the replacement process.