Provided are a method and apparatus for method and apparatus for encoding registers in a memory module. A mode register command is sent to the memory module over a bus, initialization of the memory module before the bus to the memory module is trained for bus operations, to program one of a plurality of mode registers in the memory module, wherein the mode register command indicates one of the mode registers and includes data for the indicated mode register.

A memory controller including a first transmittal module, a clock pin, a second transmittal module, a first control module and a second control module is disclosed. The first transmittal module includes a specific pin. The clock pin receives a clock signal. The first transmittal module and the clock pin constitute an embedded multimedia card (eMMC) interface. The second transmittal module and the clock pin constitute a universal flash storage (UFS) interface. The first control module communicates with an external host via the first transmittal module according to the clock signal when a level of the specific pin is at a first level. The second control module communicates with the external host via the second transmittal module according to the clock signal when the level of the specific pin is at a second level. The first level exceeds the second level.

A memory module is provided, comprising a connector and a plurality of memory devices. Each memory device includes a memory array and a plurality of data connections, wherein a first subset of the plurality of data connections are configured to communicate data with a first portion of the memory array, and a second subset of the plurality of data connections are configured to communicate data with a second portion of the memory array. The first subset of the plurality of data connections of each of the plurality of memory devices are connected in parallel to first external contacts of the connector in a first addressable pseudo-channel, and the second subset of the plurality of data connections of each of the plurality of memory devices are connected in parallel to second external contacts of the connector in a second addressable pseudo-channel.

Embodiments are generally directed apparatuses, methods, techniques and so forth to select two or more processing units of the plurality of processing units to process a workload, and configure a circuit switch to link the two or more processing units to process the workload, the two or more processing units each linked to each other via paths of communication and the circuit switch.

In one embodiment, a processing device is coupled to memory components to monitor host read operations and host write operations from a host device coupled to the plurality of memory components. The processing device schedules, using a variable size internal command queue, a predetermined proportion of back-end processing device read and write operations as internal management traffic proportional to a number of the host read operations and a number of the host write operations. The processing device then executes a subset of the host read operations and the host write operations. Following execution of the subset of the host read operations and the host write operations, the processing device executes an internal management traffic operation based on the predetermined proportion.

Systems, methods, circuits, devices and computer-readable mediums for configuring serial devices are disclosed. In some implementations, a device comprises: an input for receiving first and second requests from a serial bus; a decoder coupled to the input and configured to determine if either of the first and second requests is a configuration mode request; a controller coupled to the decoder and configured to: in response to a determination that the first request is a configuration mode request, program a configuration block with configuration data obtained from the serial bus and alter a device behavior according to the configuration data; and in response to a determination that the second request is not a configuration mode request, perform one or more actions on the device according to the second request.

According to certain aspects, a memory subsystem is coupled to a memory controller of a host computer system via an interface. The memory subsystem comprises dynamic random access memory elements and a memory subsystem controller. During a normal memory read or write operation, the memory subsystem controller is configured to receive address and command signals associated with the memory read or write operations and to control the dynamic random access memory elements in accordance with the address and command signals. The memory subsystem controller is further configured to output via the open drain output a parity error signal in response to a parity error having occurred during the memory read or write operation. During an initialization operation, the memory subsystem controller is configured to output via the open train output a signal related to one or more parts of initialization operation sequences.

According to some embodiments, for a memory device including a base die and a stack of memory dies including a plurality of memory dies stacked on the base die, the base die including a plurality of first input/output (i/o) terminals that are command/address and data terminals and a plurality of second i/o terminals that are direct access terminals, a method includes receiving at the plurality of first i/o terminals a command/address, a clock signal, and data; first transmitting the command/address, clock signal, and data received by the plurality of first i/o terminals from the base die to the stack of memory dies; and second transmitting at least part of one or more of the command/address, clock signal, and data received by a set of the plurality of first i/o terminals through a circuit of the base die to the plurality of second i/o terminals.

A mass data storage system includes a number of communicatively coupled storage drives powered and controlled by shared control electronics. The shared control electronics are configured to transmit analog read/write signals through an interconnect to each of the multiple individually selectable storage drives. The interconnect bi-directionally couples the control electronics to each of the multiple selectable storage drives.

An electronic device calculates a temperature index value of a temperature of a housing surface by using a temperature sensor and calculates a prediction reached value from change of the temperature index value. The electronic device calculates a rate parameter indicating a target of a decrease rate for decreasing the prediction reached value, on the basis of the prediction reached value calculated at a certain time point and a threshold value. The electronic device controls a clock frequency of a processor on the basis of the calculated rate parameter and correspondence information that associates a plurality of target values of the prediction reached value and a plurality of clock frequencies of the processor.