Methods, systems, and devices for circuit partitioning for a memory device are described. In one example, a memory device may include a set of memory tiles that each include a respective array of memory cells (e.g., in an array level or layer). Each of the memory tiles may include a respective circuit level or layer associated with circuitry configured to operate the respective array of memory cells. The memory device may also include circuitry for communicating data between the memory cells of the set of memory tiles and an input/output component. Aspects of the circuitry for communicating the data may be subdivided into repeatable blocks each configured to communicate one or more bits, and the repeatable blocks and other aspects of the circuitry for communicating the data is distributed across the circuit layer of two or more of the set of memory tiles.

Methods, systems, and devices for circuit partitioning for a memory device are described. In one example, a memory device may include a set of memory tiles that each include a respective array of memory cells (e.g., in an array level or layer). Each of the memory tiles may include a respective circuit level or layer associated with circuitry configured to operate the respective array of memory cells. The memory device may also include circuitry for communicating data between the memory cells of the set of memory tiles and an input/output component. Aspects of the circuitry for communicating the data may be subdivided into repeatable blocks each configured to communicate one or more bits, and the repeatable blocks and other aspects of the circuitry for communicating the data is distributed across the circuit layer of two or more of the set of memory tiles.

Different embodiments of local redundancy decoder circuits that can be used in a memory device are disclosed. The different types of local redundancy decoder circuits are operably connected to the columns of memory cells in a memory array.

Different embodiments of local redundancy decoder circuits that can be used in a memory device are disclosed. The different types of local redundancy decoder circuits are operably connected to the columns of memory cells in a memory array.

Methods, systems, and apparatuses for redundancy in a memory array are described. A memory array may include some memory cells that are redundant to other memory cells of the array. Such redundant memory cells may be used if a another memory cell is discovered to be defective in some way; for example, after the array is fabricated and before deployment, defects in portions of the array that affect certain memory cells may be identified. Memory cells may be designated as redundant cells for numerous other memory cells of the array so that a total number of redundant cells in the array is relatively small fraction of the total number of cells of the array. A configuration of switching components may allow redundant cells to be operated in a manner that supports redundancy for numerous other cells and may limit or disturbances to neighboring cells when accessing redundancy cells.

Methods, systems, and devices for circuitry borrowing in memory arrays are described. In one example, a host device may transmit an access command associated with data for a first memory section to a memory device. The first memory section may be located between a second memory section and a third memory section. A first set of circuitry shared by the first memory section and the second memory section may be operated using drivers associated with the first memory section and drivers associated with the second memory section. A second set of circuitry shared by the first memory section and the third memory section may be operated using drivers associated with the first memory section and drivers associated with the third memory section. An access operation may be performed based on operating the first set of circuitry and the second set of circuitry.

Methods, systems, and devices for circuit partitioning for a memory device are described. In one example, a memory device may include a set of memory tiles that each include a respective array of memory cells (e.g., in an array level or layer). Each of the memory tiles may include a respective circuit level or layer associated with circuitry configured to operate the respective array of memory cells. The memory device may also include circuitry for communicating data between the memory cells of the set of memory tiles and an input/output component. Aspects of the circuitry for communicating the data may be subdivided into repeatable blocks each configured to communicate one or more bits, and the repeatable blocks and other aspects of the circuitry for communicating the data is distributed across the circuit layer of two or more of the set of memory tiles.

A memory device and an electronic device are provided. Different embodiments of local redundancy decoder circuits that can be used in the memory device and the electronic device are disclosed.

A redundancy circuit includes a selection control signal generation circuit and a column control circuit. The selection control signal generation circuit drives an internal node, which is initialized, to generate a selection control signal when a logic level of a latched address signal is different from a logic level of a fuse signal. The column control circuit buffers a pre-column selection signal based on the selection control signal to generate a column selection signal for execution of a column operation of cells or to generate a redundancy column selection signal for execution of the column operation of redundancy cells.

A redundancy circuit includes a selection control signal generation circuit and a column control circuit. The selection control signal generation circuit drives an internal node, which is initialized, to generate a selection control signal when a logic level of a latched address signal is different from a logic level of a fuse signal. The column control circuit buffers a pre-column selection signal based on the selection control signal to generate a column selection signal for execution of a column operation of cells or to generate a redundancy column selection signal for execution of the column operation of redundancy cells.