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.

The present disclosure includes apparatuses, methods, and systems for charge separation for memory sensing. An embodiment includes applying a sensing voltage to a memory cell, and determining a data state of the memory cell based, at least in part, on a comparison of an amount of charge discharged by the memory cell while the sensing voltage is being applied to the memory cell before a particular reference time and an amount of charge discharged by the memory cell while the sensing voltage is being applied to the memory cell after the particular reference time.

Apparatus and method for managing data in a non-volatile memory (NVM) having an array of ferroelectric memory cells (FMEs). A data set received from an external client device is programmed to a group of the FMEs at a target location in the NVM using a selected profile. The selected profile provides different program characteristics, such as applied voltage magnitude and pulse duration, to achieve desired levels of power used during the program operation, endurance of the data set, and latency effects associated with a subsequent read operation to retrieve the data set. The profile may be selected from among a plurality of profiles for different operational conditions. The ferroelectric NVM may form a portion of a solid-state drive (SSD) storage device. Different types of FMEs may be utilized including ferroelectric tunneling junctions (FTJs), ferroelectric random access memory (FeRAM), and ferroelectric field effect transistors (FeFETs).

A data storage system can employ a read destructive memory configured to fill a first cache with a first data set from a data repository prior to populating a second cache with a second data set describing the first data set with the first and second cache each having non-volatile ferroelectric memory cells. An entirety of the first cache may be read in response to a cache hit in the second cache with the cache hit responsive to a data read command from a host and with the first cache being read without a refresh operation restoring the data of the first cache.

Methods, systems, and apparatuses for self-referencing sensing schemes are described. A cell having two transistors, or other switching components, and one capacitor, such as a ferroelectric capacitor, may be sensed using a reference value that is specific to the cell. The cell may be read and sampled via one access line, and the cell may be used to generate a reference voltage and sampled via another access line. For instance, a first access line of a cell may be connected to one read voltage while a second access line of the cell is isolated from a voltage source; then the second access line may be connected to another read voltage while the first access line is isolate from a voltage source. The resulting voltages on the respective access lines may be compared to each other and a logic value of the cell determined from the comparison.

A ferroelectric field-effect transistor (FeFET) configured as a multi-bit storage device, the FeFET including: a semiconductor substrate that has a source region in the semiconductor substrate, and a drain region in the semiconductor substrate; a gate stack over the semiconductor substrate, with the source region and the drain region extending to opposite sides of the gate stack, the gate stack including a ferroelectric layer over the semiconductor substrate, and a gate region over the ferroelectric layer. The transistor also includes first and second ends of the ferroelectric layer which are proximal correspondingly to the source and drain regions. The ferroelectric layer includes dipoles. A first set of dipoles at the first end of the ferroelectric layer has a first polarization. A second set of dipoles at the second end of the ferroelectric layer has a second polarization, the second polarization being substantially opposite of the first polarization.

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.

Memories, memory controllers, and computing systems and their methods of operation are disclosed. In some embodiments, a method of accessing a memory includes accessing a first bit line corresponding to a sense amplifier and accessing a second bit line corresponding to the sense amplifier. In some embodiments, a memory controller includes a second memory configured to store data of a second data type. In some embodiments, a method includes operating a memory in a second mode in response to receiving an input to change the operation of the memory from a first mode to the second mode.

A standard potential used for reading is set flexibly according to the state of a storage device. A data memory cell group stores data. A reference memory cell group stores a plurality of reference potentials. A standard potential generating section selects a prescribed number of reference potentials from among the plurality of reference potentials stored in the reference memory cell group and generates the standard potential. A reference potential selection control section controls the selection by the standard potential generating section according to prescribed conditions. A sense amplifier amplifies data read out from the data memory cell group, by using the standard potential as a standard.

The present disclosure provides a memory device, which includes a plurality of electrically bipolar variable memory devices and a storage transistor. The electrically bipolar variable memory devices are electrically connected to a plurality of word lines respectively, the storage transistor is electrically connected to the electrically bipolar variable memory devices, where one end of each of the electrically bipolar variable memory devices is electrically connected to a corresponding one of the word lines, and another end of each of the electrically bipolar variable memory devices is electrically connected to the gate of the storage transistor.