Methods, systems, and devices related to domain-based access in a memory device are described. In one example, a memory device in accordance with the described techniques may include a memory array, a sense amplifier array, and a signal development cache configured to store signals (e.g., cache signals, signal states) associated with logic states (e.g., memory states) that may be stored at the memory array (e.g., according to various read or write operations). The memory array may be organized according to domains, which may refer to various configurations or collections of access lines, and selections thereof, of different portions of the memory array. In various examples, a memory device may determine a plurality of domains for a received access command, or an order for accessing a plurality of domains for a received access command, or combinations thereof, based on an availability of the signal development cache.

A memory cell includes a thin film transistor over a semiconductor substrate. The thin film transistor comprising: a ferroelectric (FE) material contacting a word line, the FE material being a hafnium-comprising compound, and the hafnium-comprising compound comprising a rare earth metal; and an oxide semiconductor (OS) layer contacting a source line and a bit line, wherein the FE material is disposed between the OS layer and the word line.

A memory is provided which comprises a capacitor including non-linear polar material. The capacitor may have a first terminal coupled to a node (e.g., a storage node) and a second terminal coupled to a plate-line. The capacitors can be a planar capacitor or non-planar capacitor (also known as pillar capacitor). The memory includes a transistor coupled to the node and a bit-line, wherein the transistor is controllable by a word-line, wherein the plate-line is parallel to the bit-line. The memory includes a refresh circuitry to refresh charge on the capacitor periodically or at a predetermined time. The refresh circuit can utilize one or more of the endurance mechanisms. When the plate-line is parallel to the bit-line, a specific read and write scheme may be used to reduce the disturb voltage for unselected bit-cells. A different scheme is used when the plate-line is parallel to the word-line.

To compensate switching of a dielectric component of a non-linear polar material based capacitor, an explicit dielectric capacitor is added to a memory bit-cell and controlled by a signal opposite to the signal driven on a plate-line.

Methods, systems, and devices for power-efficient generation of voltage are described. A driver circuit in a memory device may produce a voltage on an output node for other components in the memory device to use. To produce the voltage, the driver circuit may use a first voltage supply to charge the output node to a first threshold voltage level. The driver may then use a second voltage source to charge the output node to a second threshold voltage level that is different than (e.g., higher than) the first threshold voltage level.

A memory cell includes a thin film transistor over a semiconductor substrate. The thin film transistor comprising: a ferroelectric (FE) material contacting a word line, the FE material being a hafnium-comprising compound, and the hafnium-comprising compound comprising a rare earth metal; and an oxide semiconductor (OS) layer contacting a source line and a bit line, wherein the FE material is disposed between the OS layer and the word line.

Methods, systems, and devices for apparatus for differential memory cells are described. An apparatus may include a pair of memory cells comprising a first memory cell and a second memory cell, a word line coupled with the pair of memory cells and a plate line coupled with the pair of memory cells. The apparatus may further include a first digit line coupled with the first memory cell and a sense amplifier and a second digit line coupled with the second memory cell and the sense amplifier. The apparatus may include a select line configured to couple the first digit line and the second digit line with the sense amplifier.

Methods, systems, and devices for sensing techniques for differential memory cells are described. A method may include selecting a pair of memory cells that comprise a first memory cell coupled with a first digit line and a second memory cell coupled with a second digit line for a read operation, the pair of memory cells storing one bit of information. The method may further include applying a first voltage to a plate line coupled with the first memory cell and the second memory cell and applying a second voltage to a select line to couple the first digit line and the second digit line with a sense amplifier. The amplifier may sense a logic state of the pair of memory cells based on a difference between a third voltage of the first digit line and a fourth voltage of the second digit line.

Methods, systems, and devices for cell data bulk reset are described. In some examples, a logic state (e.g., a first logic state) may be written to one or more memory cells based on an associated memory device transitioning power states. To write the first logic state to the memory cells, a first subset of digit lines may be driven to a first voltage and a plate may be driven to a second voltage. While the digit lines and plate are driven to the respective voltages, one or more word lines may be driven to the second voltage. In some instances, the word lines may be driven to the second voltage based on charge sharing occurring between adjacent word lines.

Systems and methods for confirming the presence of a person or asset for a given purpose, and recording this information in a distributed ledger. The distributed ledger records and confirms presence indicia in connection with a transaction said facilitates remote and/or automated signatures. The systems and methods detect the presence of one or more humans and/or computing devices at a specific location at the time of a transaction, and contemporaneously recording information concerning the transaction in a distributed ledger. Presence can be determined using network presence sensing (NPS), other types of sensors, or the combination of NPS with other sensors.