A memory system having a set of media, a plurality of inter-process communication channels, and a controller configured to run a plurality of processes that communicate with each other using inter-process communication messages transmitted via the plurality of inter-process communication channels, in response to requests from a host system to store data in the media or retrieve data from the media. The memory system has a message manager that examines requests from the host system, identifies a plurality of combinable requests, generates a combined request, and provides the combined request to the plurality of processes as a substitute of the plurality of combinable requests.

A device includes an input processing unit and an output processing unit. The input processing unit dispatches first data to one of a group of processing engines, records an identity of the one processing engine in a location in a first memory, reserves one or more corresponding locations in a second memory, causes the first data to be processed by the one processing engine, and stores the processed first data in one of the locations in the second memory. The output processing unit receives second data, assigns an entry address corresponding to a location in an output memory to the second data, transfers the second data and the entry address to one of a group of second processing engines, causes the second data to be processed by the second processing engine, and stores the processed second data to the location in the output memory.

A processor includes a plurality of storage modules and an arbiter, where the storage modules are arranged for storing a plurality of read/write commands, respectively, and the read/write commands are arranged to read/write a memory external to the processor; and the arbiter is coupled to the storage modules, and is arranged to receive the read/write commands from the storage modules, and arrange a sequence of the read/write commands for transmitting to a memory controller.

The present disclosure includes apparatuses and methods related to a non-deterministic memory protocol. An example apparatus can perform operations on the memory device based on commands received from a host according to a protocol, wherein the protocol includes non-deterministic timing of the operations. The memory device can be a non-volatile dual in-line memory module (NVDIMM) device.

A memory module has data buffers coupled to a registered clock driver (RCD) via buffer communication (BCOM) bus. The memory module includes memory devices managed as a first pseudo channel and a second pseudo channel. The data buffers manage data transmission between the memory devices and a host based on commands received over the BCOM bus. The RCD can send a first BCOM command on the BCOM bus to the data buffer, the first BCOM command to specify a rank and a burst length for the first pseudo channel. The RCD can send a second BCOM command on the BCOM bus to the data buffer, the second BCOM command to specify a rank and a burst length for the second pseudo channel, and a timing offset relative to the first BCOM command.

Methods, systems, and devices for reduced pin status register are described. An apparatus may include a first memory die and a second memory die each coupled with a data bus. The apparatus may further include a controller coupled with the first memory die and the second memory die via the data bus that is configured to transmit a first command associated with a first operation to the first memory die and a second command associated with a second operation to the second memory die. The controller may further transmit a third command concurrently to the first memory die and the second memory die, the third command requesting a first status of the first operation and a second status of the second operation. The controller may receive the first status and the second status concurrently via the data bus from the first memory die and the second memory die.

A host controller interface configured to provide interfacing between a host device and a storage device includes processing circuitry; a doorbell register configured to store a head pointer and a tail pointer of one or more first queues; and an entry buffer configured to store a first command from one of the one or more first queues in the entry buffer, wherein the processing circuitry is configured to, determine an order in which the commands of the one or more first queues are to be processed, route the first command to be stored in the entry buffer according to the determined order, and route a first response to be stored in one of one or more second queues.

Technologies are provided for supporting storage device write barriers. A storage device can be configured to associate a data access command with a write barrier. The write barrier can be used to indicate that one or more data access commands should be processed before one or more other data access commands are processed. For example, a host computer can transmit one or more data access commands to a storage device. The storage device can determine that the one or more data access commands are associated with a write barrier. The host computer can continue to transmit additional data access commands to the storage device. However, the storage device will not process the additional data access commands until after the one or more data access commands associated with the write barrier have been processed.

A memory system having a set of media, a plurality of inter-process communication channels, and a controller configured to run a plurality of processes that communicate with each other using inter-process communication messages transmitted via the plurality of inter-process communication channels, in response to requests from a host system to store data in the media or retrieve data from the media. The memory system has a message manager that examines requests from the host system, identifies a plurality of combinable requests, generates a combined request, and provides the combined request to the plurality of processes as a substitute of the plurality of combinable requests.

A method of a memory device, a storage system, and a memory device are provided. The method includes receiving a set of entries, where the set of entries includes a first entry from a source queue and addressed to a first destination and a second entry addressed to a second destination, determining to add a third entry associated with the first entry and addressed to the first destination to the set of entries, selecting one of the first entry and the third entry as a restock entry and the other of the first entry and the third entry as a pass-through entry, sending the restock entry to the source queue, and sending the second entry and the pass-through entry to a serial link connected to the first destination and the second destination.