A memory device of a memory module includes a CA buffer that receives a command/address (CA) signal through a bus shared by a memory device different from the memory device of the memory module, and a calibration logic circuit that identifies location information of the memory device on the bus. The memory device recognizes its own location on a bus in a memory module to perform self-calibration, and thus, the memory device appropriately operates even under an operation condition varying depending on a location in the memory module.

In described examples, a memory module includes a memory array with a primary access port coupled to the memory array. Error correction logic is coupled to the memory array. A statistics register is coupled to the error correction logic. A secondary access port is coupled to the statistics register to allow access to the statistics register by an external device without using the primary interface.

In described examples, a memory module includes a memory array with a primary access port coupled to the memory array. Error correction logic is coupled to the memory array. A statistics register is coupled to the error correction logic. A secondary access port is coupled to the statistics register to allow access to the statistics register by an external device without using the primary interface.

The present disclosure relates to a memory component for a System-on-Chip (SoC) structure including at least a memory array and at least a logic portion for interacting with the memory array and with the SoC structure wherein the memory component is a structurally independent semiconductor device coupled to and partially overlapping the SoC structure.

The present disclosure relates to a memory component for a System-on-Chip (SoC) structure including at least a memory array and at least a logic portion for interacting with the memory array and with the SoC structure wherein the memory component is a structurally independent semiconductor device coupled to and partially overlapping the SoC structure.

In some embodiments, an integrated circuit (IC) device includes an active semiconductor layer, a circuitry formed within the active semiconductor layer, a region including conductive layers formed above the active semiconductor layer, and a memory module formed in the region. The memory device includes a three-dimensional array of memory cells, each adapted to store a weight value, and adapted to generate at each memory cell a signal indicative of a product between the stored weight value and an input signal applied to the memory cell. The memory module is further adapted to transmit the product signals from the memory cell simultaneously in the direction of the active semiconductor layer.

In some embodiments, an integrated circuit (IC) device includes an active semiconductor layer, a circuitry formed within the active semiconductor layer, a region including conductive layers formed above the active semiconductor layer, and a memory module formed in the region. The memory device includes a three-dimensional array of memory cells, each adapted to store a weight value, and adapted to generate at each memory cell a signal indicative of a product between the stored weight value and an input signal applied to the memory cell. The memory module is further adapted to transmit the product signals from the memory cell simultaneously in the direction of the active semiconductor layer.

According to one embodiment, a memory system includes a first plate, an intermediate member, and a substrate. The intermediate member includes a second plate and a pair of side walls. The second plate includes a first opening, and is arranged to have a gap with respect to the first plate. The second plate includes a first face facing the first plate and a second face located on a side opposite to the first face. The pair of side walls is arranged on the second face. The substrate is placed between the pair of side walls. The substrate includes a third face on which a first non-volatile memory package and a controller package are mounted. The third face faces the second plate. The first non-volatile memory package is thermally connected to the second plate. The controller package is thermally connected to the first plate through the first opening.

According to one embodiment, a memory system includes a first plate, an intermediate member, and a substrate. The intermediate member includes a second plate and a pair of side walls. The second plate includes a first opening, and is arranged to have a gap with respect to the first plate. The second plate includes a first face facing the first plate and a second face located on a side opposite to the first face. The pair of side walls is arranged on the second face. The substrate is placed between the pair of side walls. The substrate includes a third face on which a first non-volatile memory package and a controller package are mounted. The third face faces the second plate. The first non-volatile memory package is thermally connected to the second plate. The controller package is thermally connected to the first plate through the first opening.

A serial data buffer integrated circuit comprises unidirectional host-side input and output ports, and unidirectional memory-side input and output ports. Scheduling logic generates memory device commands for writing to and reading from a memory device based on a set of host-side input packets received from a memory controller. A unidirectional serial host side input port receives host-side input packets from the memory controller. A unidirectional serial memory side output port transmits the memory device commands and the write data to the memory device based on the scheduled timing. A unidirectional serial memory side input port receives read data from the memory device in response to a read command, and a unidirectional serial host side output port transmits the read data to the memory controller within the timing constraints of the memory device.