Apparatuses and methods can be related to implementing a Bayesian neural network in a memory. A Bayesian neural network can be implemented utilizing a resistive memory array. The memory array can comprise programmable memory cells that can be programed and used to store weights of the Bayesian neural network and perform operations consistent with the Bayesian neural network.

Disclosed is an inverter which includes a first P-MOS transistor connected between a node receiving a drain voltage and a first path node and operated based on an input voltage, a first N-MOS transistor connected between the first path node and an output terminal outputting an output voltage and operated based on the drain voltage, a second P-MOS transistor connected between the output terminal and a second path node and operated based on a ground voltage, a second N-MOS transistor connected between the second path node and a node receiving the ground voltage and operated based on the input voltage, a third P-MOS transistor connected between the first path node and the second path node and operated based on the input voltage, and a third N-MOS transistor connected between the first path node and the second path node and operated based on the input voltage.

Disclosed is an inverter which includes a first P-MOS transistor connected between a node receiving a drain voltage and a first path node and operated based on an input voltage, a first N-MOS transistor connected between the first path node and an output terminal outputting an output voltage and operated based on the drain voltage, a second P-MOS transistor connected between the output terminal and a second path node and operated based on a ground voltage, a second N-MOS transistor connected between the second path node and a node receiving the ground voltage and operated based on the input voltage, a third P-MOS transistor connected between the first path node and the second path node and operated based on the input voltage, and a third N-MOS transistor connected between the first path node and the second path node and operated based on the input voltage.

A semiconductor device includes a SRAM circuit. The SRAM circuit includes: a memory array having a plurality of memory cells arranged in a matrix; a ground interconnection commonly connected to each of the memory cells; and a first potential control circuit for controlling a potential of the ground interconnection depending on an operation mode. The first potential control circuit includes a first NMOS transistor and a first PMOS transistor connected in parallel to each other between a around node providing a ground potential and the ground interconnection.

A memory device having a memory cell comprising NMOS only transistors. An SRAM bit cell comprises a first pass gate (PG) NMOS transistor coupled to a first bit line signal and a word line signal; a second PG NMOS transistor coupled to a second bit line signal and the word line signal; a first pull down (PD) NMOS transistor operatively coupled to the first PG NMOS transistor; a second PD NMOS transistor operatively coupled to the second PG NMOS transistor; a first pull up (PU) NMOS transistor operatively coupled to the first PD NMOS transistor; and a second PU NMOS transistor operatively coupled to the second PD NMOS transistor. Each of the back gates of the first and second PU NMOS transistors are coupled to a predetermined voltage signal for biasing the first and second PU NMOS transistors.

A gain cell includes a write bit line input, a read bit line output, a write trigger input and a read trigger input. The write element writes a data level from the write bit line input to the gain cell when triggered by the write trigger input. The retention element buffers between an internal buffer node and an internal storage node during data retention. The retention element also connects or disconnects the buffer node to a first constant voltage according to the data level being retained in the gain cell. The read element decouples the storage node from the read bit line output during data read. The read element also connects and disconnects the read bit line output to a second constant voltage according to the data level being read from the gain cell.

A gain cell includes a write bit line input, a read bit line output, a write trigger input and a read trigger input. The write element writes a data level from the write bit line input to the gain cell when triggered by the write trigger input. The retention element buffers between an internal buffer node and an internal storage node during data retention. The retention element also connects or disconnects the buffer node to a first constant voltage according to the data level being retained in the gain cell. The read element decouples the storage node from the read bit line output during data read. The read element also connects and disconnects the read bit line output to a second constant voltage according to the data level being read from the gain cell.

The present disclosure includes apparatuses and methods for acceleration of data queries in memory. An example apparatus includes an array of memory cells and processing circuitry. The processing circuitry is configured to receive, from a host, a query for particular data in the array of memory cells, wherein the particular data corresponds to a search key generated by the host, search portions of the array of memory cells for the particular data corresponding to the search key generated by the host, search portions of the array of memory cells for the particular data corresponding to the search key, determine data stored in the portions of the array of memory cells that corresponds more closely to the search key than other data stored in the portions of the array of memory cells, and transfer the data that corresponds more closely to the search key than the other data to the host.

A potted electronic device comprises an electronic device at least partially encapsulated by an energetic potting material. The energetic potting material comprises a halogenated urethane binder and a metal fuel dispersed within the halogenated urethane binder. Related energetic potting materials and methods of forming electronic devices at least partially encapsulated with the energetic potting materials are also disclosed.

A six-transistor memory cell based upon a thyristor for an SRAM integrated circuit is described together with methods of operation. Methods of increasing the operational speed in reading the contents of a selected memory cell in an array of such memory cells while lowering power consumption, and of avoiding an indeterminate memory cell state when a memory cell is “awakened” from Standby are described.