The present disclosure includes apparatuses and methods for cache operations. An example apparatus includes a memory device including a plurality of subarrays of memory cells, where the plurality of subarrays includes a first subset of the respective plurality of subarrays and a second subset of the respective plurality of subarrays. The memory device includes sensing circuitry coupled to the first subset, the sensing circuitry including a sense amplifier and a compute component. The first subset is configured as a cache to perform operations on data moved from the second subset. The apparatus also includes a cache controller configured to direct a first movement of a data value from a subarray in the second subset to a subarray in the first subset.

A content addressable memory cell includes a first floating body transistor and a second floating body transistor. The first floating body transistor and the second floating body transistor are electrically connected in series through a common node. The first floating body transistor and the second floating body transistor store complementary data.

The present disclosure includes apparatuses and methods to change data category values. An example is a memory device that includes an array having a plurality of sequences of memory cells, where each of the respective sequences of memory cells includes a plurality of designated subsets of memory cells, and the array includes a counter corresponding to one of the plurality of designated subsets of memory cells. The memory device is configured to receive input corresponding to a data batch, where the input includes a designation that corresponds to the one of the plurality of designated subsets of memory cells to be conditionally updated, and to change a numerical value stored by the counter corresponding to the one of the plurality of designated subsets of memory cells.

A CDMR memory cell, includes a first bitcell which is used to store a current data level and a second bitcell which is used to store the complementary data level. When a read operation is performed, a comparator compares the data levels read from the two bitcells. If these two levels are not complementary, the comparator outputs an indicator. This indicator serves as an alert that a storage error has, or may have, occurred.

The present disclosure includes apparatuses and methods to change data category values. An example is a memory device that includes an array having a plurality of sequences of memory cells, where each of the respective sequences of memory cells includes a plurality of designated subsets of memory cells, and the array includes a counter corresponding to one of the plurality of designated subsets of memory cells. The memory device is configured to receive input corresponding to a data batch, where the input includes a designation that corresponds to the one of the plurality of designated subsets of memory cells to be conditionally updated, and to change a numerical value stored by the counter corresponding to the one of the plurality of designated subsets of memory cells.

A memory device comprises a memory cell array with memory cells arranged in a cell string coupled to a metal bit line, a sense amplifier for providing a sensing current to the memory cell array, and a memory controller for controlling the sense amplifier to provide the sensing current to access data during a memory access cycle. The memory controller performs operations comprising: during a pre-charging stage of the memory access cycle, providing a pre-charging voltage to the sense amplifier to drive the sense amplifier such that a particular voltage is provided to the memory cell array; during a first sensing stage, providing the pre-charging voltage to the sense amplifier; and during a second sensing stage, providing a sensing voltage to drive the sense amplifier such that the particular voltage provided to the memory cell array is maintained.

A content addressable memory cell includes a first floating body transistor and a second floating body transistor. The first floating body transistor and the second floating body transistor are electrically connected in series through a common node. The first floating body transistor and the second floating body transistor store complementary data.

Apparatuses and methods for concentrated arrangement of amplifiers. An example apparatus may include a first amplifier circuit including a first and second transistors. The first width different from the second width, the first length different from the second length. The apparatus further including a second amplifier circuit including a third and fourth transistors. The first transistor including a first gate electrode and the third transistor having a third gate electrode each having a first length and a first diffusion region and a third diffusion region, respectively, each having a first width, and the second transistor including a second gate electrode and the fourth transistor having a fourth gate electrode each with a fourth length and a second diffusion region and a fourth diffusion region, respectively, each having a second width. The first and third transistors are collectively arranged and the second and fourth transistors are collectively arranged.

Apparatuses and methods related to implementing refresh and access modes for memory. The refresh and access modes can be used to configure a portion of memory. The portions of memory can correspond to protected regions of memory. The refresh and access modes can influence the security level of data stored in the protected regions of memory.

A content addressable memory cell includes a first floating body transistor and a second floating body transistor. The first floating body transistor and the second floating body transistor are electrically connected in series through a common node. The first floating body transistor and the second floating body transistor store complementary data.