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.

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.

Memory devices and systems with automatic background precondition upon powerup, and associated methods, are disclosed herein. In one embodiment, a memory device includes a memory array having a plurality of memory cells and a fuse array configured to store precondition data. The precondition data can identify a portion of the memory array, specify a predetermined precondition state, or a combination thereof. When the memory device powers on, the memory device can be configured to automatically retrieve the precondition data from the fuse array and/or to write memory cells in the portion of the memory array to the predetermined precondition state before executing an access command.

Memory devices and systems with automatic background precondition upon powerup, and associated methods, are disclosed herein. In one embodiment, a memory device includes a memory array having a plurality of memory cells and a fuse array configured to store precondition data. The precondition data can identify a portion of the memory array, specify a predetermined precondition state, or a combination thereof. When the memory device powers on, the memory device can be configured to automatically retrieve the precondition data from the fuse array and/or to write memory cells in the portion of the memory array to the predetermined precondition state before executing an access command.

Logical memory is divided into two regions. Data in the first region is always retained. The first region of memory is designated online (or powered on) and is not offlined during standby or low power mode. The second region is the rest of the memory which can be potentially placed in non-self-refresh mode during standby by offlining the memory region. Content in the second region can be moved to the first region or can be flushed to another memory managed by the operating system. When the first region does not have enough space to accommodate data from the second region, the operating system can increase the logical size of the first region. Retaining the content of the first region by putting that region in self-refresh and saving power in the second region by not putting it in self-refresh is performed by an improved Partial Array Self Refresh scheme.

A comparison circuit includes a reference adjustment module, a signal receiving module, and a control module. The reference adjustment module is configured to receive a first reference signal and output a second reference signal. The reference adjustment module is further configured to receive an adjustment signal, and unidirectionally adjust the equivalent coefficient within a preset value interval when the adjustment signal is received. The signal receiving module is configured to receive the second reference signal and an external signal. The second reference signal after experiencing a mismatch of the signal receiving module is equivalent to a third reference signal. The control module is configured to: receive an enable signal and the comparison signal; and during a period of continuously receiving the enable signal, when the comparison signal jumps, terminate the output of the adjustment signal.

A comparison circuit includes a reference adjustment module, a signal receiving module, and a control module. The reference adjustment module is configured to receive a first reference signal and output a second reference signal. The reference adjustment module is further configured to receive an adjustment signal, and unidirectionally adjust the equivalent coefficient within a preset value interval when the adjustment signal is received. The signal receiving module is configured to receive the second reference signal and an external signal. The second reference signal after experiencing a mismatch of the signal receiving module is equivalent to a third reference signal. The control module is configured to: receive an enable signal and the comparison signal; and during a period of continuously receiving the enable signal, when the comparison signal jumps, terminate the output of the adjustment signal.

The present disclosure provides a method for detecting a memory and a device for detecting a memory. The memory includes first memory cells, second memory cells, bit lines, complementary bit lines, word lines, and a plurality of sense amplifiers, where each of the sense amplifiers is electrically coupled to a bit line and a complementary bit line; and the method includes: writing storage data into each of the first memory cells and each of the second memory cells; performing a read operation; obtaining a test result based on a difference between real data and the storage data; and obtaining a leakage position of the bit line and the word line or a leakage position the complementary bit line and the word line based on the test result.

The present disclosure provides a method for detecting a memory and a device for detecting a memory. The memory includes first memory cells, second memory cells, bit lines, complementary bit lines, word lines, and a plurality of sense amplifiers, where each of the sense amplifiers is electrically coupled to a bit line and a complementary bit line; and the method includes: writing storage data into each of the first memory cells and each of the second memory cells; performing a read operation; obtaining a test result based on a difference between real data and the storage data; and obtaining a leakage position of the bit line and the word line or a leakage position the complementary bit line and the word line based on the test result.

An integrated circuit includes a physical layer interface having a control timing domain and a data timing domain, and circuits that enable the control timing domain during a change in power conservation mode in response to a first event, and that enable the data timing domain in response to a second event. The control timing domain can include interface circuits coupled to a command and address path, and the data timing domain can include interface circuits coupled to a data path.