Methods, systems, and devices for monitoring and adjusting access operations at a memory device are described to support integrating monitors or sensors for detecting memory device health issues, such as those resulting from device access or wear. The monitoring may include traffic monitoring of access operations performed at various components of the memory device, or may include sensors that may measure parameters of components of the memory device to detect wear. The traffic monitoring or the parameters measured by the sensors may be represented by a metric related to access operations for the memory device. The memory device may use the metric (e.g., along with a threshold) to determine whether to adjust a parameter associated with performing access operations received by the memory device, in order to implement a corrective action.

Systems, methods and apparatus to determine a programming mode of a set of memory cells without having bit values stored in the memory cells to include an identifier of the programming mode. During the test of which of the memory cells in the set is in a lowest voltage region, which is a common operation for reading the memory cells programmed in different mode, the statistics of the memory cells found to be in the lowest voltage region can be compared to the known, different behaviors of the memory cell set programmed in different modes. A match with the behavior of one of the modes can be used to identify the matching mode as the programming mode of the set of memory cells.

Methods, systems, and devices for drive strength calibration for multi-level signaling are described. A driver may be configured to have an initial drive strength and to drive an output pin of a transmitting device toward an intermediate voltage level of a multi-level modulation scheme, where the output pin is coupled with a receiving device via a channel. The receiving device may generate, and the transmitting device may receive, a feedback signal indicating a relationship between the resulting voltage of the channel and an value for the intermediate voltage level. The transmitting device may determine and configure the driver to use an adjusted drive strength for the intermediate voltage level based on the feedback signal. The driver may be calibrated (e.g., independently) for each intermediate voltage level of the multi-level modulation scheme. Further, the driver may be calibrated for the associated channel.

Methods, systems, and devices for memory operations are described. A codeword may be associated with a set of data and stored in a memory device may be detected as having a plurality of bit errors. Based on detecting the plurality of bit errors in the codeword, an address of the codeword may be stored and an indication that at least one codeword stored in the memory device has a plurality of bit errors may be indicated. Based on indicating that at least one codeword in the memory device has a plurality of bit errors, a write command for writing, to the memory device, a second codeword associated with the set of data may be received. Additionally, or alternatively, a command that triggers an error correction operation at an address range of the memory device may be received at a memory device.

An electrical circuit device includes a signal bus comprising a plurality of parallel signal paths and a calibration circuit, operatively coupled with the signal bus. The calibration circuit can perform operations including determining a representative duty cycle for a plurality of signals transferred via the plurality of parallel signal paths, the plurality of signals comprising a plurality of duty cycles and comparing the representative duty cycle for the plurality of signals transferred via the plurality of parallel signal paths to a reference value to determine a comparison result. The calibration circuit can perform further operations including adjusting, based on the comparison result, a trim value associated with the plurality of duty cycles of the plurality of signals to compensate for distortion in the plurality of duty cycles and calibrating the plurality of duty cycles of the plurality of signals using the adjusted trim value.

A resistance variable memory apparatus may include a memory cell array and a controller. The memory cell array may include a plurality of resistance variable memory cells. The controller may control a current path flowing through any one memory cell and a current path flowing through the other memory cell to be formed differently from each other in response to at least two address signals.

An integrated circuit includes a memory and peripheral circuits with a temperature sensor used to automatically adjust operating voltages. The temperature sensor includes a first circuit to generate a temperature-dependent voltage (TDV) that is dependent on an operating temperature of the integrated circuit, and a second circuit to generate a plurality of temperature reference voltages, based on or more codes. One or more comparator circuits compare individual ones of the plurality of reference voltages with the TDV, to generate one or more comparison signals that are indicative of the operating temperature of the integrated circuit.

A semiconductor device including an SRAM capable of sensing a defective memory cell that does not satisfy desired characteristics is provided. The semiconductor device includes a memory cell, a bit line pair being coupled to the memory cell and having a voltage changed towards a power-supply voltage and a ground voltage in accordance with data of the memory cell in a read mode, and a specifying circuit for specifying a bit line out of the bit line pair. In the semiconductor device, a wiring capacitance is coupled to the bit line specified by the specifying circuit and a voltage of the specified bit line is set to a voltage between a power voltage and a ground voltage in a test mode.

A defect detecting method for a Word Line (WL) driving circuit includes: m WLs correspondingly connected to m different WL driving circuits are selected from a memory cell array and corresponding WL driving circuit arrays to serve as m WLs to be tested, one of which is set as a first WL and the remaining m-1 ones are set as second WLs; first potential is written into memory cells correspondingly connected to the m WLs to be tested; second potential is written into memory cells correspondingly connected to the first WL; real-time potentials of the memory cells connected to respective second WLs are sequentially read, and when difference value between the real-time potential of one target memory cell and the first potential is greater than first pre-set value, it is determined that the WL driving circuit connected to the second WL corresponding to the target memory cell has a defect.

An amplification-based read disturb information determination system includes a storage device coupled to a global read temperature identification system. The storage device amplifies data errors in a first row in its storage subsystem by shifting a first value voltage reference level associated with the first row to provide a second value voltage reference level, reads data stored in bits provided in the first row and error correction information associated with the data, and uses the error correction information to identify a number of the bits that store portions of the data with errors. For the first row and based on the number of bits that store portions of the data with errors, the storage device determines read disturb information and uses it to generate a read temperature for a second row in its storage subsystem that it provides to the global read temperature identification system.