Methods, systems and devices for configuring access to a memory device are disclosed. The configuration of the memory device may be carried out by creating a plurality of access profiles that are adapted to optimize access to the memory device in accordance with a type of access. For example, when an application with specific memory access needs is initiated, the memory access profile that is designed for that particular access need may be utilized to configure access to the memory device. The configuration may apply to a portion of the memory device, a partition of the memory device, a single access location on the memory device, or any combination thereof.

A system for computing. In some embodiments, the system includes: a memory, the memory including one or more function-in-memory circuits; and a cache coherent protocol interface circuit having a first interface and a second interface. A function-in-memory circuit of the one or more function-in-memory circuits may be configured to perform an operation on operands including a first operand retrieved from the memory, to form a result. The first interface of the cache coherent protocol interface circuit may be connected to the memory, and the second interface of the cache coherent protocol interface circuit may be configured as a cache coherent protocol interface on a bus interface.

The memory banks of a memory device are arranged and operated in groups and the groups are further arranged and operated as clusters of these groups. Successive accesses to banks that are within different bank group clusters may be issued at a first time interval. Successive accesses to banks that are within different bank groups within the same cluster can be issued no faster than a second time interval. And, successive accesses to banks that are within the same bank group may be issued no faster than a third time interval. The memory banks of a memory device may have multiple rows open at the same time. The rows that can be open at the same time is determined by the rows that are already open. These memory banks are also arranged and operated in groups that have three different minimum time intervals.

A semiconductor device includes: various types of memories; an interface configured to transmit memory characteristic information of the memories to a host, receive information needed to control operations of the memories from the host, and perform interfacing between the host and the memories; and a controller configured to control operations of the memories in response to information received from the host, and control an operation of the interface.

Transferring data between memories may include reading data associated with a memory transfer transaction from a first memory, determining whether a bypass indication associated with the memory transfer transaction is asserted, and transferring the data from the first memory to a second memory. The transferring may include bypassing the first-processing if the bypass indication is asserted. The transferring may further include bypassing second-processing the data if the bypass indication is asserted. Following bypassing the second-processing, the data may be stored in the second memory.

Methods, systems and devices for configuring access to a memory device are disclosed. The configuration of the memory device may be carried out by creating a plurality of access profiles that are adapted to optimize access to the memory device in accordance with a type of access. For example, when an application with specific memory access needs is initiated, the memory access profile that is designed for that particular access need may be utilized to configure access to the memory device. The configuration may apply to a portion of the memory device, a partition of the memory device, a single access location on the memory device, or any combination thereof.

Memory devices are provided that include special operating modes accessible upon receipt of a particular message from a host. One device includes a memory array, a special mode enable register, and a controller. When the controller receives a register write command to write first data into the special mode enable register and the memory device does so, the memory device operates in a first mode. When the controller receives a register write command to write second data into the special mode enable register and the memory device does so, the memory device operates in a second mode.

Semiconductor devices with controllers under stacks of semiconductor packages and associated systems and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate, a controller attached to the package substrate, and at least two semiconductor packages disposed over the controller. Each semiconductor package includes a plurality of semiconductor dies. The semiconductor device further includes an encapsulant material encapsulating the controller and the at least two semiconductor packages.

Memory module, computing device, and methods of reading and writing data to the memory module are disclosed. A memory module, comprises one or more dynamic random-access memories (DRAMs); and a processor configured to select a Central Processing Unit (CPU) or the processor to communicate with the one or more DRAMs via a memory interface.

The present disclosure generally relates to a non-volatile memory express (NVMe) dual port controller occupying less real estate on an application specific integrated circuit (ASIC). Rather than utilizing separate NVMe modules in the controller, with each module dedicated to a single port, the dual ports can share the same module. The host device believes that there are dedicated module resources because the module has two NVMe registers to provide the host device with the feeling that there are dedicated modules. Additionally, an interconnect between the ports and the registers contributes to providing the host device the feeling that there are dedicated modules. Furthermore, the rather than losing the capabilities of a second module when operating in single port mode, all of the capabilities of the only module are available when operating in either single port mode or dual port mode.