A memory device includes a spin-orbit-transfer (SOT) bottom electrode, an SOT ferromagnetic free layer, a first tunnel barrier layer, a spin-transfer-torque (STT) ferromagnetic free layer, a second tunnel barrier layer and a reference layer. The SOT ferromagnetic free layer is over the SOT bottom electrode. The SOT ferromagnetic free layer has a magnetic orientation switchable by the SOT bottom electrode using a spin Hall effect or Rashba effect. The first tunnel barrier layer is over the SOT ferromagnetic free layer. The STT ferromagnetic free layer is over the first tunnel barrier layer and has a magnetic orientation switchable using an STT effect. The second tunnel barrier layer is over the STT ferromagnetic free layer. The second tunnel barrier layer has a thickness different from a thickness of the first tunnel barrier layer. The reference layer is over the second tunnel barrier layer and has a fixed magnetic orientation.

A processing apparatus includes a bit-cell array including at least one bit-cell line including a plurality of bit-cells electrically connected to each other in series, wherein each of the plurality of bit-cells includes: a first magnetic resistor that is configured to store a first resistance value based on a movement of a location of a magnetic domain-wall; a second magnetic resistor that is configured to store a second resistance value, wherein the second resistance value is equal to or less than the first resistance value; a first switching element configured to switch an electrical signal applied to the first magnetic resistor; and a second switching element configured to switch an electrical signal applied to the second magnetic resistor.

A circuit includes a sense amplifier, a first clamping circuit, a second clamping circuit, and a feedback circuit. The first clamping circuit includes first clamping branches coupled in parallel between the sense amplifier and a memory array. The second clamping circuit includes second clamping branches coupled in parallel between the sense amplifier and a reference array. The feedback circuit is configured to selectively enable or disable one or more of the first clamping branches or one or more of the second clamping branches in response to an output data outputted by the sense amplifier.

A nonvolatile memory device includes an array of magnetic memory cells, and control logic circuit having a voltage generator therein, which is configured to generate a gate voltage. A row decoder is provided, which is connected by word lines to the array of magnetic memory cells, and has a word line driver driven therein, which is responsive to the gate voltage. A column decoder is provided, which is connected by bit lines and source lines to the array of magnetic memory cells. A write driver is provided, which has a write voltage generating circuit therein that is configured to output a write voltage, in response to: (i) a reference voltage generated using a replica magnetic memory cell, and (ii) a feedback voltage generated using a magnetic memory cell in which a write operation is to be performed.

Provided is a storage apparatus that reduces the power needed to write corrected data back to a memory.

The storage apparatus includes a memory and a write control section. The memory stores data in units of multiple cells each representing a predetermined value. The write control section receives write-back data having a specific value in a position corresponding to at least one of the multiple cells, as well as a write-back command regarding the specific value. The write control section performs control to write the specific value only to the cell corresponding to the position indicative of the specific value in the write-back data.

A magnetic memory device includes a magnetic tunnel junction (MTJ) stack, a spin-orbit torque (SOT) induction wiring disposed over the MTJ stack, a first terminal coupled to a first end of the SOT induction wiring, a second terminal coupled to a second end of the SOT induction wiring, and a shared selector layer coupled to the first terminal.

In an embodiment, a device includes: a magnetoresistive random access memory cell including: a bottom electrode; a reference layer over the bottom electrode; a tunnel barrier layer over the reference layer, the tunnel barrier layer including a first composition of magnesium and oxygen; a free layer over the tunnel barrier layer, the free layer having a lesser coercivity than the reference layer; a cap layer over the free layer, the cap layer including a second composition of magnesium and oxygen, the second composition of magnesium and oxygen having a greater atomic concentration of oxygen and a lesser atomic concentration of magnesium than the first composition of magnesium and oxygen; and a top electrode over the cap layer.

A magnetoresistance effect element includes a wiring that extends in a first direction, a laminate that includes a first ferromagnetic layer connected to the wiring, a first conductive part and a second conductive part that sandwich the first ferromagnetic layer therebetween in a plan view in a lamination direction, and a resistor that has a geometrical center overlapping a geometrical center of the first conductive part or farther away from the laminate than the geometrical center of the first conductive part in the first direction when viewed in a plan view in the lamination direction.

A read reference current generator includes a temperature coefficient (TC) controller configured to adjust a temperature coefficient in response to a first control signal and generate a read reference current having an adjusted temperature coefficient, a plurality of replica circuits configured to receive the read reference current and adjust an absolute value of the read reference current with different scale factors to generate a plurality of branch currents, and a plurality of switches configured to control connection of the TC controller and the plurality of replica circuits in response to a second control signal, wherein an equivalent resistance value of each of the plurality of replica circuits corresponds to a multiple of an equivalent resistance value of a data read path, and the data read path includes a selected memory cell and a clamping circuit clamping a voltage level of a selected bit line to a determined value.

A memory device has a plurality of bit cells, each of which includes an SRAM cell having a storage node selectively connectable to a first bit line in response to a control signal received on a first word line. Each bit cell further includes an MRAM cell selectively connectable to the storage node of the SRAM cell in response to a control signal received on a second word line.