A computing system having memory components of different tiers. The computing system further includes a controller, operatively coupled between a processing device and the memory components, to: receive from the processing device first data access requests that cause first data movements across the tiers in the memory components; service the first data access requests after the first data movements; predict, by applying data usage information received from the processing device in a prediction model trained via machine learning, second data movements across the tiers in the memory components; and perform the second data movements before receiving second data access requests, where the second data movements reduce third data movements across the tiers caused by the second data access requests.

A resistance of configurable termination circuitry located at an interface between a memory component and a processing device is adjusted. The configurable termination circuitry includes a plurality of transistors, a plurality of switches coupled to the plurality of transistors, and a plurality of resistors coupled to the plurality of switches. The resistance of the configurable termination circuitry is adjusted based on a mode of the configurable termination circuitry.

The present disclosure provides method for controlling a message signal within a timing controller integrated circuit, the timing controller integrated circuit and a display panel. The method includes: receiving a low voltage differential signaling signal; decoding the low voltage differential signaling signal to obtain a transistor-transistor logic RGB data signal and a control signal, wherein the control signal comprises: a start signal, a horizontal synchronization and a vertical synchronization; processing the transistor-transistor logic RGB data signal to obtain an input RGB data; controlling a timing of the start signal before a timing of the input RGB data; and processing the input RGB data to obtain a mini-low voltage differential signaling data. Therefore, the technical scheme provided by the present disclosure has an advantage of the low cost.

Technology for a system is described. The system can include one or more processors. The system can include a memory associated with the one or more processors. The system can include a memory controller comprising logic to create a reserved memory region in a system physical address (SPA) map. The memory controller can comprise logic to detect when the one or more processors are brought online. The memory controller can comprise logic to map the memory associated with the one or more processors that are brought online to the reserved memory region in the SPA map.

Methods and apparatus for impedance adjustment operations in memory devices are disclosed. One such method includes adjusting an impedance of a particular driver circuit of a particular memory device to a desired impedance, determining configuration information corresponding to a configuration of the particular driver circuit adjusted to the desired impedance, transferring the configuration information to a different memory device and configuring an impedance of a driver circuit of the different memory device responsive to the configuration information.

Methods of operating a memory include performing a memory access operation, obtaining an address corresponding to a subsequent memory access operation prior to stopping the memory access operation, stopping the memory access operation, sharing charge between access lines used for the memory access operation and access lines to be used for the subsequent memory access operation, and performing the subsequent memory access operation.

A method of implementations includes receiving, by a processing device executing a unified storage manager (USM), an update package comprising a configuration file for a storage service to add to the USM, adding, by the processing device, the configuration file to a set of configuration files maintained by the USM, responsive to detecting the addition of the configuration file, causing, by the processing device, a re-load of the set of configuration files at the USM without a shutdown and re-start of the USM, loading, by the processing device, the configuration file in the USM, and initializing, by the processing device, an adaptor component for the storage service at the USM, the adaptor component comprising a set of application programming interface (API) methods for the USM to communicate with the storage service.

Embodiments may be generally direct to apparatuses, systems, method, and techniques to determine a configuration for a plurality of connectors, the configuration to associate a first interconnect protocol with a first subset of the plurality of connectors and a second interconnect protocol with a second subset of the plurality of connectors, the first interconnect protocol and the second interconnect protocol are different interconnect protocols and each comprising one of a serial link protocol, a coherent link protocol, and an accelerator link protocol, cause processing of data for communication via the first subset of the plurality of connectors in accordance with the first interconnect protocol, and cause processing of data for communication via the second subset of the plurality of connector in accordance with the second interconnect protocol.

Systems and methods presented herein provide for simulated NVDRAM operations. In a host system, a host memory is sectioned into pages. An HBA in the host system comprises a DRAM and an SSD for cache operations. The DRAM and the SSD are sectioned into pages and mapped to pages of the host memory. The SSD is further sectioned into regions comprising one or more pages of the SSD. AnHBA driver is operable to load a page of data from the SSD into a page of the DRAM when directed by a host processor, to determine that the page of the DRAM is occupied with other data, to determine a priority of the region of the page of other data occupying the page of the DRAM, and to flush the other data from the DRAM to the SSD based on the determined priority.

A memory system and memory controller for interleaving volatile and non-volatile memory accesses are described. In the memory system, the memory controller is coupled to the volatile and non-volatile memories using a shared address bus. Activate latencies for the volatile and non-volatile memories are different, and registers are included on the memory controller for storing latency values. Additional registers on the memory controller store precharge latencies for the memories as well as page size for the non-volatile memory. A memory access sequencer on the memory controller asserts appropriate chip select signals to the memories to initiate operations therein.