A semiconductor memory device has a plastic package including an inductor, a first memory chip including a booster circuit that boosts a voltage from a first voltage to a second voltage using the inductor, and a second memory chip having a terminal supplied with the second voltage from the first memory chip.

A data storage circuit for storing data from volatile memory in response to a power loss, the data storage circuit including an input for receiving a power loss signal in response to a power loss from at least one power source, an input configured to receive data from a volatile memory, a single block of non-volatile matrix of memory cells and a driver circuit coupled to said single row of non-volatile matrix of memory cells. The driver circuit is configured to write data to and read data from said single block of non-volatile matrix of memory cells. The single block of non-volatile matrix of memory cells can be provided as a single row electrically erasable programmable read only memory (EEPROM).

A semiconductor device includes a buffer control circuit suitable for generating a buffer control signal in response to a power-down mode signal and a detection pulse, a first buffer circuit suitable for generating a first internal chip select signal by buffering a chip select signal depending on a select signal which is generated in response to the buffer control signal in a power-down mode, and a detection pulse generation circuit suitable for generating the detection pulse in response to the first internal chip select signal.

One embodiment of the present disclosure describes a memory system that may include one or more memory devices that may store data. The memory devices may receive command signals to access the stored data as a loopback signal. The memory devices may operate in a normal operational mode, a loopback operational mode, a retrieval operational mode, a non-inverting pass-through operational sub-mode, and an inverting pass-through operational sub-mode. The operational modes facilitate the transmission of the loopback signal for the purpose of monitoring of memory device operations. A selective inversion technique, which uses the operational modes, may protect the loopback signal integrity during transmission.

According to certain aspects, a memory module is coupled to a memory controller of a host computer system via an interface. The memory module is operable in at least a second mode and a first mode. The memory module in the second mode is configured to perform training related to one or more training sequences initiated by the memory controller while the memory module is not accessed by the memory controller for memory read or write operations. The memory module in the first mode is configured to perform one or more memory read or write operations not associated with the one or more training sequences by communicating data signals with the memory module. The memory module has an open-drain output pin via which the memory module output a signal indicating a parity error having occurred while the memory module is performing a normal memory read or write operation, and via which the memory module output a signal related to the one or more training sequences.

A semiconductor memory having a memory cell structure capable of reducing soft error without complicating a circuit configuration. Specifically, an inverter (I1) consists of a NMOS transistor (N1) and a PMOS transistor (P1), and an inverter (I2) consists of a NMOS transistor (N2) and a PMOS transistor (P2). The inverters (I1, I2) are subjected to cross section. The NMOS transistor (N1) is formed within a P well region (PW0), and the NMOS transistor (N2) is formed within a P well region (PW1). The P well regions (PW0, PW1) are oppositely disposed with an N well region (NW) interposed therebetween.

A system that includes a non-volatile memory subsystem having non-volatile memory. The system also includes a plurality of memory modules that are separate from the non-volatile memory subsystem. Each memory module can include a plurality of random access memory packages where each first random access memory package includes a primary data port and a backup data port. Each memory module can include a storage interface circuit coupled to the backup data ports of the random access memory packages. The storage interface circuit offloads data from the memory module in the event of a power loss by receiving data from the backup data ports of the random access memory packages and transmitting the data to the non-volatile memory subsystem.

According to one embodiment, M (M represents an integer of 2 or larger) semiconductor chips and through electrodes for N (N represents an integer of 2 or larger) channels are provided. The M semiconductor chips are stacked in sequence. The through electrodes are embedded in the semiconductor chips to connect electrically the semiconductor chips in the direction of stacking. The connection destination of the through electrodes are exchanged between one or more upper and lower layers of the semiconductor chips.

According to one embodiment, M (M represents an integer of 2 or larger) semiconductor chips and through electrodes for N (N represents an integer of 2 or larger) channels are provided. The M semiconductor chips are stacked in sequence. The through electrodes are embedded in the semiconductor chips to connect electrically the semiconductor chips in the direction of stacking. The connection destination of the through electrodes are exchanged between one or more upper and lower layers of the semiconductor chips.

Apparatuses and methods for controlling access to a common bus including a plurality of memory devices coupled to a common bus, wherein individual ones of the plurality of memory devices are configured to access the common bus responsive to a strobe signal, and a strobe line driver programmed with a first delay associated with a combination of a first command type and a first one of the plurality of memory devices to provide a first strobe signal to the first one of the plurality of memory devices, and further programmed with a second delay associated with a combination of a second command type and a second one of the plurality of memory devices to provide a second strobe signal to the second one of the plurality of memory devices.