A DRAM circuit includes an array having a normal word line, a first redundant word line and a second redundant word line immediately adjacent to the first redundant word line. The second redundant word line is activated if the normal word line is assigned, by a memory controller external to the DRAM circuit, to be activated. A redundant refresh circuit is configured to determine that the first redundant word line is required to be refreshed in response to the second redundant word line being activated; and a row decoder is configured to, according to the determination of the redundant refresh circuit, refresh the first redundant word line.

A buffer circuit is disclosed. The buffer circuit includes a command address (C/A) interface to receive an incoming activate (ACT) command and an incoming column address strobe (CAS) command. A first match circuit includes first storage to store failure row address information associated with the memory, and first compare logic. The first compare logic is responsive to the ACT command, to compare incoming row address information to the stored failure row address information. A second match circuit includes second storage to store failure column address information associated with the memory, and second compare logic. The second compare logic is responsive to the CAS command, to compare the incoming column address information to the stored failure column address information. Gating logic maintains a state of a matching row address identified by the first compare logic during the comparison carried out by the second compare logic.

A semiconductor device according to an aspect of the present invention has: a plurality of memory cells MC; a plurality of word lines WL each coupled to a corresponding one of the plurality of memory cells MC; and a control circuit that intermittently monitors accesses to the plurality of word lines WL, stores/erases some captured row-addresses in a first number of registers, and detects, by comparison with stored addresses, in response to a first number of accesses to one of the word lines WL in a first period of time. According to the present invention, access histories can be precisely analyzed by a small-scale circuit configuration, and measures against, for example, the Row Hammer problem, etc. can be taken.

A semiconductor memory device includes a command buffering unit suitable for receiving and buffering a command signal based on an enable control signal, a fuse array suitable for programming data based on the command signal, and an enable control unit suitable for generating the enable control signal, wherein an activation operation on the command buffering unit by the enable control signal is controlled during a programming operation period of the fuse array.

The invention pertains to semiconductor memories, and more particularly to enhancing the reliability of stacked memory devices. Apparatuses and methods are described for implementing RAID-style error correction to increase the reliability of the stacked memory devices.

Apparatuses and methods for targeted row refreshes are disclosed herein. In an example apparatus, a predecoder receives a target row address and determines whether a target row of memory associated with the target row address is a primary or a redundant row of memory. The predecoder is further configured to cause one or more rows of memory physically adjacent the primary row of memory to be refreshed if the primary row is the target row or one or more rows of memory physically adjacent the redundant row of memory to be refreshed if the redundant row of memory is the target row of memory.

The present disclosure includes apparatuses and methods related to refresh circuitry. An example apparatus can include a memory array including a main portion and a redundant portion. The apparatus can include refresh circuitry configured to, responsive to a determination of a hammering event, refresh at least a portion of the redundant portion.

An electronic device includes an error correction circuit configured to detect an error included in internal data, to generate a failure detection signal during a read operation, and to correct the error included in the internal data during a refresh operation, and a core circuit configured to store an address signal for activating a word line in which the internal data including the error is stored through as a failure address signal when the failure detection signal is input to the core circuit, and store the error-corrected internal data in the core circuit through a word line activated by the failure address signal during the refresh operation.

A semiconductor apparatus including a semiconductor chip is disclosed. The semiconductor chip includes a modular region and a test circuit. The modular region includes a plurality of modular areas each including a memory cell array with redundant bit lines and a peripheral memory area storing at least redundant addresses. The test circuit retrieves the redundant addresses intrinsic to the semiconductor chip. The distribution of the redundant addresses are randomly formed related to a part or a whole of the modular area of the modular region. The test circuit outputs a random number generated from physical properties intrinsic to the semiconductor chip according to a specification code received from a physical-chip-identification measuring device.

A refresh circuit includes signal selector configured to select one of normal and redundant word line logical addresses as output, output signal of which is designated as first logical address; row address latch connected to output terminal of signal selector and configured to output row hammer address and row hammer flag signal according to first logical address; seed arithmetic unit connected to output terminal of row address latch and configured to generate seed address according to row hammer address; logical arithmetic unit connected to output terminal of seed arithmetic unit and configured to obtain row hammer refresh address according to seed address, row hammer refresh address is adjacent physical address of seed address; and pre-decode unit connected to output terminal of logical arithmetic unit and configured to receive row hammer refresh address, and convert it into physical address to be used by memory array of memory to perform refresh operation.