Patent application number | Description | Published |
20080239784 | HIGH DENSITY PLANAR MAGNETIC DOMAIN WALL MEMORY APPARATUS - A magnetic domain wall memory apparatus with write/read capability includes a plurality of coplanar shift register structures each comprising an elongated track formed from a ferromagnetic material having a plurality of magnetic domains therein, the shift register structures further having a plurality of discontinuities therein to facilitate domain wall location; a magnetic read element associated with each of the shift register structures; and a magnetic write element associated with each of the shift register structures, the magnetic write element further comprising a single write wire having a longitudinal axis substantially orthogonal to a longitudinal axis of each of the coplanar shift register structures. | 10-02-2008 |
20080239785 | HIGH DENSITY PLANAR MAGNETIC DOMAIN WALL MEMORY APPARATUS - A magnetic domain wall memory apparatus with write/read capability includes a plurality of coplanar shift register structures each comprising an elongated track formed from a ferromagnetic material having a plurality of magnetic domains therein, the shift register structures further having a plurality of discontinuities therein to facilitate domain wall location; a magnetic read element associated with each of the shift register structures; and a magnetic write element associated with each of the shift register structures, the magnetic write element further comprising a write wire having a constriction therein, the constriction located at a point corresponding to the location of the plurality of discontinuities in the associated shift register structure. | 10-02-2008 |
20080243972 | HIGH DENSITY PLANAR MAGNETIC DOMAIN WALL MEMORY APPARATUS AND METHOD OF FORMING THE SAME - A magnetic domain wall memory apparatus with write/read capability includes a plurality of coplanar shift register structures each comprising an elongated track formed from a ferromagnetic material having a plurality of magnetic domains therein, the shift register structures further having a plurality of discontinuities therein to facilitate domain wall location; a magnetic read element associated with each of the shift register structures; and a magnetic write element associated with each of the shift register structures, the magnetic write element further comprising a single write wire having a longitudinal axis substantially orthogonal to a longitudinal axis of each of the coplanar shift register structures. | 10-02-2008 |
20090086534 | APPARATUS AND METHOD FOR IMPLEMENTING PRECISE SENSING OF PCRAM DEVICES - A precision sense amplifier apparatus includes a current source configured to introduce an adjustable reference current through a reference leg; a current mirror configured to mirror the reference current to a data leg, the data leg selectively coupled to a programmable resistance memory element; an active clamping device coupled to the data leg, and configured to clamp a fixed voltage across the memory element, thereby establishing a fixed current sinking capability thereof; and a differential sense amplifier having a first input thereof coupled to the data leg and a second input thereof coupled to the reference leg; wherein an output of the differential sense amplifier assumes a first logic state whenever the reference current is less than the fixed current sinking capability of the memory element, and assumes a second logic state whenever the reference current exceeds the fixed current sinking capability. | 04-02-2009 |
20090109735 | DESIGN STRUCTURE FOR INITIALIZING REFERENCE CELLS OF A TOGGLE SWITCHED MRAM DEVICE - A design structure embodied in a machine readable medium used in a design process includes an apparatus for initializing a reference cell in a toggle switched MRAM device, with a first sense amplifier configured for performing a first read operation of the reference cell by comparing current through the reference cell with the average current passing through a pair of data cells; a first latch for storing the result of the first read operation; a second latch for storing the result of a second read operation by the first sense amplifier, wherein the second read operation is performed following the first read operation and the inversion of the value of one of the pair of the data cells; a third latch for storing the result of a third read operation by the first sense amplifier, wherein the third read operation is performed following the second read operation and the inversion of the value of the other of the pair of the data cells; and a majority compare device configured to compare of the results of the first, second and third operations respectively stored in the first, second and third latches, wherein an output of the majority compare operation is the initial state of the reference cell. | 04-30-2009 |
20100002486 | MAGNETIC SHIFT REGISTER MEMORY DEVICE - In one embodiment, the invention is a magnetic shift register memory device. One embodiment of a memory cell includes a magnetic column including a plurality of magnetic domains, a reader coupled to the magnetic column, for reading data from the magnetic domains, a temporary memory for storing data read from the magnetic domains, and a writer coupled to the magnetic column, for writing data in the temporary memory to the magnetic domains. | 01-07-2010 |
20120044754 | Spin-Torque Transfer Magneto-Resistive Memory Architecture - A memory array device comprising a first memory cell comprising a first magnetic tunnel junction device having a first terminal connected to a first bit line (BLT | 02-23-2012 |
20120182781 | MAGNETIC SHIFT REGISTER MEMORY DEVICE - In one embodiment, the invention is a magnetic shift register memory device. One embodiment of a memory cell includes a magnetic column including a plurality of magnetic domains, a reader coupled to the magnetic column, for reading data from the magnetic domains, a temporary memory for storing data read from the magnetic domains, and a writer coupled to the magnetic column, for writing data in the temporary memory to the magnetic domains. | 07-19-2012 |
20120287705 | Spin-Torque Transfer Magneto-Resistive Memory Architecture - A method for operating a memory array device, includes initiating a write “0” state in the device, wherein the initiating the write “0” state includes inducing a first voltage in a word line of the device; and inducing a second voltage in a first bit line (BLT | 11-15-2012 |
20120294071 | Spin-Torque Transfer Magneto-Resistive Memory Architecture - A system includes a processor and a memory array connected to the processor comprising a first memory cell comprising a first magnetic tunnel junction device having a first terminal connected to a first bit line and a second terminal, and a first field effect transistor having a source terminal connected to a second bit line, a gate terminal connected to a word line, and a drain terminal connected to the second terminal of the first magnetic tunnel junction device, and a second memory cell comprising a second magnetic tunnel junction device having a first terminal connected to a third bit line and a second terminal, and a second field effect transistor having a source terminal connected to the second bit line, a gate terminal connected to the word line, and a drain terminal connected to the second terminal of the second magnetic tunnel junction device. | 11-22-2012 |
20130223125 | DECODING SCHEME FOR BIPOLAR-BASED DIODE THREE-DIMENSIONAL MEMORY REQUIRING BIPOLAR PROGRAMMING - A system and method for operating a bipolar memory cell array including a bidirectional access diode. The system includes a column voltage. The column voltage switch includes column voltages and an output electrically coupled to the bidirectional access diode. The column voltages include at least one write-one column voltage and at least one write-zero column voltage. The system also includes a row voltage switch. The row voltage switch includes row voltages and an output electrically coupled to the bidirectional access diode. The row voltages include at least one write-one row voltage and at least one write-zero row voltage. The system further includes a column decoder and a row decoder electrically coupled to a select line of the column voltage switch and row voltage switch, respectively. The system includes a write driver electrically coupled to the select lines of the row and column switches. | 08-29-2013 |
20140211550 | READ CIRCUIT FOR MEMORY - Embodiments are directed to detecting a state of a memory element in a memory device, comprising: applying a pulse of a predetermined magnitude and duration to the memory element to induce a transition in the state of the memory element when a polarity of the pulse is opposite to the state, monitoring, by a device, a signal associated with the memory element to detect a presence or absence of a transition in the signal in an amount greater than a threshold, and determining the state of the memory element based on said monitoring. | 07-31-2014 |
20140264510 | MEMORY ARRAY WITH SELF-ALIGNED EPITAXIALLY GROWN MEMORY ELEMENTS AND ANNULAR FET - A system and method for fabricating a memory array device. An example memory array device includes a plurality of memory cells, each including a FET over a substrate and a memory element over the FET. Each memory element includes a plurality of epitaxially grown memory element layers. The memory array device includes a plurality of gate conductors configured a first axis, in parallel. Each gate conductor laterally surrounds a plurality of FETs of the memory cells along the first axis. The memory array device includes a plurality of bit lines configured along a second axis, in parallel, and electrically coupled to a plurality of memory elements along the second axis. Embodiments of the memory array preserve alignment of crystal lattices beginning from the bottom layers in the FET up to the top active layers in memory element, thus preserving crystal lattice alignment between transistor and memory element. | 09-18-2014 |
20140264512 | STRUCTURE AND FABRICATION OF MEMORY ARRAY WITH EPITAXIALLY GROWN MEMORY ELEMENTS AND LINE-SPACE PATTERNS - A system and method for fabricating a memory array device. An example memory array device includes a plurality of memory cells, each including a FET over a substrate and a memory element over the FET. Each memory element includes a plurality of epitaxially grown memory element layers. The memory elements formed utilizing two etches through all epitaxially grown layers. Each of these etches can be split to two separate processes specific to CMOS transistor etch and to memory element etch. The memory array device includes a plurality of gate conductors configured along a first axis, in parallel. Each FET of the memory cells adjacent to two gate conductors. The memory array device includes a plurality of bit lines configured along a second axis, in parallel, and electrically coupled to a plurality of memory elements along the second axis. | 09-18-2014 |
20140264670 | CELL DESIGN FOR EMBEDDED THERMALLY-ASSISTED MRAM - A thermally assisted magnetoresistive random access memory cell, a corresponding array, and a method for fabricating the array. An example cell includes a first metal layer, a second metal layer, an interlayer, a first magnetic stack, and a first non-magnetic via. The first metal layer includes a pad and a first metal line, with the pad not in direct contact with the first metal line. The second metal layer includes a second metal line and a metal strap. The second metal line is perpendicular to the first metal line and not in contact with the metal strap. The interlayer is located between the first and second metal layers. The first metal line is not in direct contact with the interlayer. The first magnetic stack is in direct contact with the interlayer and the metal strap. The first non-magnetic via is in direct contact with the pad and the metal strap. | 09-18-2014 |
20140273285 | MEMORY ARRAY WITH SELF-ALIGNED EPITAXIALLY GROWN MEMORY ELEMENTS AND ANNULAR FET - A system and method for fabricating a memory array device. An example memory array device includes a plurality of memory cells, each including a FET over a substrate and a memory element over the FET. Each memory element includes a plurality of epitaxially grown memory element layers. The memory array device includes a plurality of gate conductors configured a first axis, in parallel. Each gate conductor laterally surrounds a plurality of FETs of the memory cells along the first axis. The memory array device includes a plurality of bit lines configured along a second axis, in parallel, and electrically coupled to a plurality of memory elements along the second axis. Embodiments of the memory array preserve alignment of crystal lattices beginning from the bottom layers in the FET up to the top active layers in memory element, thus preserving crystal lattice alignment between transistor and memory element. | 09-18-2014 |
20140273286 | STRUCTURE AND FABRICATION OF MEMORY ARRAY WITH EPITAXIALLY GROWN MEMORY ELEMENTS AND LINE-SPACE PATTERNS - A system and method for fabricating a memory array device. An example memory array device includes a plurality of memory cells, each including a FET over a substrate and a memory element over the FET. Each memory element includes a plurality of epitaxially grown memory element layers. The memory elements formed utilizing two etches through all epitaxially grown layers. Each of these etches can be split to two separate processes specific to CMOS transistor etch and to memory element etch. The memory array device includes a plurality of gate conductors configured along a first axis, in parallel. Each FET of the memory cells adjacent to two gate conductors. The memory array device includes a plurality of bit lines configured along a second axis, in parallel, and electrically coupled to a plurality of memory elements along the second axis. | 09-18-2014 |