A signal detection system and a memory detection method are provided. The system includes a signal generator, generating a reference test signal based on an external parameter, the reference test signal being a clock signal satisfying a preset duty cycle, where a duty cycle test is performed on the reference test signal based on a test circuit, to determine whether a function of the test circuit is normal. If the function of the test circuit is normal, different portions under test are sequentially selected based on a test control signal, and the duty cycle test is performed, based on the test circuit, on a signal outputted by each of the selected portions under test. The portions under test include a signal converter and a write clock path.

An apparatus includes a host and a memory device connected to the host through a bus. The bus is used to communicate a data clock controlling data write timing during a write operation executed by the memory device and a read clock controlling data read timing during a read operation executed by the memory device. The memory device performs first duty cycle monitoring that monitors a duty cycle of the data clock, generates a first result, and provides a timing-adjusted data clock, performs second duty cycle monitoring that monitors a duty cycle of the read clock, generates a second result, and provides a timing-adjusted read clock, calculates an offset of the read clock based on the timing-adjusted data clock, the result and the second result, and corrects a duty error of the read clock using a read clock offset code derived from the offset of the read clock.

A method of operating a memory device includes receiving a duty training request, performing first training for a write path in a first period, storing a result value of the first training, performing second training for a write path in a second period, storing a result value of the second training, transmitting the result value of the first training to an external device, and receiving a duty cycle adjuster (DCA) code value corresponding to the first training result value from the external device.

A method includes requesting, by a component of a memory sub-system controller, control of a data path associated with a memory device coupleable to the controller. The method can include generating, by the component, data corresponding to an operation to test the memory device and causing, by the component, the data to be injected to the data path such that the data is written to the memory device. The method can further include reading, by the component, the data written to the memory device and determining, by the component, whether the data read by the component from the memory device matches the data written to the memory device.

A bit line is pre-charged based on a clock signal internal to a bit line pre-charge circuit when a bit line pre-charge window is within a margin of a predetermined pre-charge window. A bit line is pre-charged based on a clock signal external to the bit line pre-charge circuit when the bit line pre-charge window is outside the margin of the predetermined pre-charge window.

A system and method for measuring the degradation of one or more memory devices of a memory sub-system. An example system including a memory controller operatively coupled with a memory device and configured to perform operations comprising: testing different values for a setting of the memory device, wherein the setting of the memory device affects a duty cycle of a signal internal to the memory device; selecting an optimum value for the setting based on access errors during the testing, wherein the optimum value minimizes access errors; determining a degradation measurement for the memory device based on the optimum value; and providing a notification to a host system based on the degradation measurement.

In a chip-to-chip signaling system includes at least one signaling link coupled between first and second ICs, the first IC has an interface coupled to the signaling link and timed by a first interface timing signal. The second IC has an interface coupled to the signaling link and timed by a second interface timing signal that is mesochronous with respect to the first interface timing signal. The second IC further has phase adjustment circuitry that adjusts a phase of the second interface timing signal using a digital counter implemented with Josephson-junction circuit elements.

Methods, systems, and devices for timing chains for accessing memory cells are described to implement some delays at logic circuitry under an array of memory cells. The memory array logic may represent CMOS under array logic circuitry. A bank group logic may generate a first memory operation and a longer delay corresponding to a timing between the first operation and a second operation. The first operation may represent an access operation, a precharging operation, or the like. The memory array logic may be signaled regarding the first operation and may generate one or more smaller delays associated with one or more sub-operations of the first operation. The smaller delays may be tunable, which may support a memory device or controller to implement operations or sub-operations with different timings based on different processes, different memory cell characteristics, or different temperatures, among other examples.

A device and method of clock synchronization for external memory interface. The device, and method, generating a clock output from a phase lock loop block via a sub-module clocking component; multiplexing the clock output through a global clock into different clock domains; clocking the data and an address or a command path by each clock domain; clocking the phase compensation FIFO by clock domain and clock phase alignment clock; generating the pointer for the phase compensation FIFO from central pointer generator block; and synchronizing the pointer of the adjacent intellectual property module with a parent intellectual property module.

A memory device includes a first rank having first memory banks and a first quad skew adjustment circuit and a second rank having second memory banks and a second quad skew adjustment circuit, wherein each of the first quad skew adjustment circuit and the second quad skew adjustment circuit is configured to: receive a 4-phase clock through first channels; detect internal quad skew of the 4-phase clock; correct skew of the 4-phase clock according to the detected quad skew; and output mode register information corresponding to the detected quad skew through a second channel.