A memory system comprises an SRAM array and a NVM array. The SRAM array and NVM array are both organized in rows and columns. The NVM array is directly coupled to the SRAM array. The memory system may also be coupled to a system bus of a data processing system. The number of columns of the NVM array is an integer multiple of the number of columns of the SRAM array, where the integer multiple is greater than one. Column logic is coupled to the SRAM array and to the NVM array. The column logic controls accesses to the SRAM and to the NVM array, and the column logic controls direct data transfers between the SRAM array and the NVM array.

A layout pattern of a static random access memory includes a pull-up device, a first pull-down device, a second pull-up device, a second pull-down device, a first pass gate device and a second pass gate device disposed on a substrate. A plurality of fin structures are disposed on the substrate, and the fin structures include at least one first fin structure and at least one second fin structure. A J-shaped gate structure is disposed on the substrate, including a long part, a short part and a bridge part. At least one first extending contact structure crosses over the at least one first fin structure and the at least one second fin structure, wherein the at least one first extending contact structure does not overlap with the bridge part of the J-shaped gate structure.

To provide a semiconductor device having a novel configuration, in which a malfunction and power consumption are reduced. A data holding circuit which includes a flipflop including first and second latch circuits and a shadow register including a nonvolatile memory portion; and a control signal generation circuit which generates a first control signal supplied to the first latch circuit and a second control signal supplied to the second latch circuit are included. The shadow register is a circuit which controls data saving or data restoring between the first and second latch circuits on the basis of a saving control signal or a restore control signal. The control signal generation circuit is a circuit which generates the first and second control signals at L level in a period during which data is saved or restored, on the basis of a clock signal, the saving control signal, and the restore control signal.

A semiconductor device that writes data to, instead of a defective memory cell, another memory cell is provided. The semiconductor device includes a first circuit and a second circuit over the first circuit; the first circuit corresponds to a memory portion and includes a memory cell and a redundant memory cell; a second circuit corresponds to a control portion and includes a third circuit and a fourth circuit. The memory cell is electrically connected to the third circuit, the redundant memory cell is electrically connected to the third circuit, and the third circuit is electrically connected to the fourth circuit. The fourth circuit has a function of sending data to be written to the memory cell or the redundant memory cell to the third circuit, and the third circuit has a function of bringing the memory cell and the fourth circuit into a non-conduction state and the redundant memory cell and the fourth circuit into a conduction state to send the data to the redundant memory cell when the memory cell is a defective cell.

To reduce the area of a memory cell having a backup function. A storage device includes a cell array, and a row circuit and a column circuit that drive the cell array. The cell array includes a first power supply line, a second power supply line, a word line, a pair of bit lines, a memory cell, and a backup circuit. The cell array is located in a power domain where power gating can be performed. In the power gating sequence of the cell array, data in the memory cell is backed up to the backup circuit. The backup circuit is stacked over a region where the memory cell is formed. A plurality of wiring layers are provided between the backup circuit and the memory cell. The first power supply line, the second power supply line, the word line, and the pair of bit lines are located in different wiring layers.

An exemplary memory bit cell circuit, including a bit line coupled to an SRAM bit cell circuit and an NVM bit cell circuit, with reduced area and reduced power consumption, included in a memory bit cell array circuit, is disclosed. The SRAM bit cell circuit includes cross-coupled true and complement inverters and a first access circuit coupled to the bit line. The NVM bit cell circuit includes an NVM device coupled to the bit line by a second access circuit and is coupled to the SRAM bit cell circuit. Data stored in the SRAM bit cell circuit and the NVM bit cell circuit are accessed based on voltages on the bit line. A true SRAM data is determined by an SRAM read voltage on the bit line, and an NVM data in the NVM bit cell circuit is determined by a first NVM read voltage on the bit line.

An example apparatus according to an embodiment of the disclosure includes first and second voltage terminals, and first, second, and third circuit nodes. A potential of the first circuit node is changed based on an input signal. A flip-flop circuit includes first and second inverters cross-coupled to each other. The first inverter is coupled between the first voltage terminal and the second circuit node. A first transistor is coupled between the second and third circuit nodes, and the first transistor has a control electrode coupled to the first circuit node. A first current control circuit is coupled between the third circuit node and the second voltage terminal, and an amount of current flowing through the first current control circuit being controlled based on a first code signal.

Systems and methods for finite time counting period counting of infinite data streams is presented. In particular example systems and methods enable counting row accesses to a memory media device over predetermined time intervals in order to deterministically detect row hammer attacks on the memory media device. Example embodiments use two identical tables that are reset at times offset in relation to each other in a ping-pong manner in order to ensure that there exists no false negative detections. The counting techniques described in this disclosure can be used in various types of row hammer mitigation techniques and can be implemented in content addressable memory or another type of memory. The mitigation may be implemented on a per-bank basis, per-channel basis or per-memory media device basis. The memory media device may be a dynamic random access memory type device.

An exemplary memory bit cell circuit, including a bit line coupled to an SRAM bit cell circuit and an NVM bit cell circuit, with reduced area and reduced power consumption, included in a memory bit cell array circuit, is disclosed. The SRAM bit cell circuit includes cross-coupled true and complement inverters and a first access circuit coupled to the bit line. The NVM bit cell circuit includes an NVM device coupled to the bit line by a second access circuit and is coupled to the SRAM bit cell circuit. Data stored in the SRAM bit cell circuit and the NVM bit cell circuit are accessed based on voltages on the bit line. A true SRAM data is determined by an SRAM read voltage on the bit line, and an NVM data in the NVM bit cell circuit is determined by a first NVM read voltage on the bit line.

A semiconductor device is provided. The device includes a memory that stores data in a non-volatile and volatile manner and a memory controller configured to control the memory. The memory includes a word line pair including a first and second word line, a first bit line pair orthogonal to the first and the second word line and including a first bit line and a first complementary bit line, and a memory cell pair including first and second memory cells adjacent to the first memory cell in a word line direction. A left node of the first memory cell, and a right node of the first memory cell and a left node of the second memory cell, are all connected to the first word line, and a value of the data stored in the memory cell pair in the non-volatile manner is determined according to the selected first word line.