A memory having a delayed write-back to the array of data corresponding to a previously opened page allows delays associated with write-back operations to be avoided. After an initial activation opens a first page and the read/write operations for that page are complete, write-back of the open page to the array of memory cells is delayed until after completion of a subsequent activate operation that opens a new page. Techniques to force a write-back in the absence of another activate operation are also disclosed.

An information processing apparatus includes a storage device configured to have a first storage area disposed on a first memory, a second storage area disposed on a second memory being slower in speed than the first memory to be cached by using a capacity of a cache area exclusive of the first storage area on the first memory, and a third storage area disposed on the second memory without being cached, and a processor configured to increase a capacity of the third storage area while decreasing a capacity of the second storage area corresponding to the capacity of the cache area upon an increase of the capacity of the first storage area and a decrease of the capacity of the cache area.

Systems, apparatuses, and methods for performing efficient memory accesses for a computing system are disclosed. External system memory is used as a last-level cache and includes one of a variety of types of dynamic random access memory (DRAM). A memory controller generates a tag request and a separate data request based on a same, single received memory request. The sending of the tag request is prioritized over sending the data request. A partial tag comparison is performed during processing of the tag request. If a tag miss is detected for the partial tag comparison, then the data request is cancelled, and the memory request is sent to main memory. If one or more tag hits are detected for the partial tag comparison, then processing of the data request is dependent upon the result of the full tag comparison.

A device may include an interconnect interface, a memory system including one or more first type memory devices to receive first data, one or more second type memory devices to receive second data, and an accelerator configured to perform an operation using the first data and the second data. The memory system may further include a cache configured to cache the second data for the one or more second type memory devices. A device may include an interconnect interface, a memory system coupled to the interconnect interface to receive data, an accelerator coupled to the memory system, and virtualization logic configured to partition one or more resources of the accelerator into one or more virtual accelerators, wherein a first one of the one or more virtual accelerators may be configured to perform a first operation on a first portion of the data.

The present disclosure includes apparatuses and methods for a cache architecture. An example apparatus that includes a cache architecture according to the present disclosure can include an array of memory cells configured to store multiple cache entries per page of memory cells; and sense circuitry configured to determine whether cache data corresponding to a request from a cache controller is located at a location in the array corresponding to the request, and return a response to the cache controller indicating whether cache data is located at the location in the array corresponding to the request.

A nonvolatile memory device includes a nonvolatile memory, a volatile memory being a cache memory of the nonvolatile memory, and a first controller configured to control the nonvolatile memory. The nonvolatile memory device further includes a second controller configured to receive a device write command and an address, and transmit, to the volatile memory through a first bus, a first read command and the address and a first write command and the address sequentially, and transmit a second write command and the address to the first controller through a second bus, in response to the reception of the device write command and the address.

A three-dimensional stacked (3DS) memory module includes multiple memory chips and a data I/O chip physically integrated into the 3D stack. The data I/O chip includes multiple data interfaces and multiple respectively corresponding data buffers. A memory controller routes data traffic through all available data interfaces for maximum bandwidth. In some circumstances, the memory controller directs the data I/O chip to shut down (de-activate) one or more of the data interfaces (for example, to reduce power consumption of the memory module). All subsequent data traffic to and from the memory module is routed through the remaining active interfaces. All physical addresses in the 3DS memory module are addressable through the remaining active interfaces. In some circumstances, the memory controller directs the data I/O chip to re-activate some or all of the de-activated data interfaces. Once re-activated, subsequent data traffic to and from the memory module can again be routed through all active interfaces.

A processing device includes a first memory interface for accessing a first memory device of a main memory. Each first memory interface is compatible with Low-Power Double-Data-Rate (LPDDR) signaling. The processing device further includes a second memory interface, which has different signaling characteristics from the first memory interface, for accessing a second memory device of the main memory. The second memory device has an access latency higher than the first memory device and lower than a secondary storage device. The first memory device and the second memory device may be used as a dual memory or a two-tiered memory.

Caching data in a redundant array of independent disks (RAID) storage system including receiving an operation instruction targeting a location in an attached memory of the RAID storage system, wherein the attached memory temporarily stores data for storage on RAID storage devices, and wherein the operation instruction is one selected from a group consisting of a read instruction and a write instruction; redirecting, based on a content of the operation instruction, the operation instruction from the attached memory to the embedded memory on the RAID storage system; and servicing the operation instruction by accessing a portion of the embedded memory corresponding to the location in the attached memory of the RAID storage system.

A memory having a delayed write-back to the array of data corresponding to a previously opened page allows delays associated with write-back operations to be avoided. After an initial activation opens a first page and the read/write operations for that page are complete, write-back of the open page to the array of memory cells is delayed until after completion of a subsequent activate operation that opens a new page. Techniques to force a write-back in the absence of another activate operation are also disclosed.