Class / Patent application number | Description | Number of patent applications / Date published |
365080000 | MAGNETIC SHIFT REGISTERS | 48 |
20080253161 | SEQUENCE OF CURRENT PULSES FOR DEPINNING MAGNETIC DOMAIN WALLS - A method and structure for depinning a domain wall that is in spatial confinement by a pinning potential to within a local region of a magnetic device. At least one current pulse applied to the domain has a pulse length sufficiently close to a precession period of the domain wall motion and the current pulses are separated by a pulse interval sufficiently close to the precession period such that: the at least one current pulse causes a depinning of the domain wall such that the domain wall escapes the spatial confinement; and each current pulse has an amplitude less than the minimum amplitude of a direct current that would cause the depinning if the direct current were applied to the domain wall instead of the at least one current pulse. The pulse length and pulse interval may be in a range of 25% to 75% of the precession period. | 10-16-2008 |
20090103347 | SEQUENCE OF CURRENT PULSES FOR DEPINNING MAGNETIC DOMAIN WALLS - A method and structure for depinning a domain wall that is in spatial confinement by a pinning potential to within a local region of a magnetic device. At least one current pulse applied to the domain has a pulse length sufficiently close to a precession period of the domain wall motion and the current pulses are separated by a pulse interval sufficiently close to the precession period such that: the at least one current pulse causes a depinning of the domain wall such that the domain wall escapes the spatial confinement; and each current pulse has an amplitude less than the minimum amplitude of a direct current that would cause the depinning if the direct current were applied to the domain wall instead of the at least one current pulse. The pulse length and pulse interval may be in a range of 25% to 75% of the precession period. | 04-23-2009 |
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 |
20100046268 | MAGNETIC RACETRACK WITH CURRENT-CONTROLLED MOTION OF DOMAIN WALLS WITHIN AN UNDULATING ENERGY LANDSCAPE - A method for use with a magnetic racetrack device includes placing domain walls having a first structure and domain walls having a second, different structure along the racetrack at stable positions corresponding to different regions within the device. The domain walls having the first structure and the domain walls having the second structure occupy alternating positions along the racetrack. A current pulse is applied to the racetrack, so that each of the domain walls moves to an adjacent region. This results in a transformation of the domain walls having the first structure into domain walls having the second structure, and vice versa. The first structure may be a vortex structure and the second structure may be a transverse structure. | 02-25-2010 |
20100061135 | MAGNETIC WIRE UNIT AND STORAGE DEVICE - A magnetic wire unit for storing information thereon includes a magnetic wire containing a material having an axis of easy magnetization, and extending in a first direction, the axis being switchable between the first direction and the second direction perpendicular to the first direction, the magnetic wire being capable of holding a plurality of magnetic domains representing information. The magnetic wire unit includes a current supply unit for applying an electric current to the magnetic wire so as to move magnetic domain walls defining the magnetic domains in the magnetic wire. | 03-11-2010 |
20100073984 | MAGNETIC SHIFT REGISTER AS COUNTER AND DATA STORAGE DEVICE - A register having a track with a first electrode is at the first end to supply a current to the track in a first direction and a second electrode at the second end to supply a current to the track in a second direction, the second direction being opposite to the first direction. A first domain wall anchor and a second domain wall anchor are positioned proximate the track between the first electrode and the second electrode. Each of the domain wall anchors has a ferromagnetic pinned layer and a barrier layer proximate the track, with the barrier layer between the track and the ferromagnetic pinned layer. The ferromagnetic layer has a magnetization orientation pinned perpendicular to the magnetization orientation of the track. | 03-25-2010 |
20100080034 | MAGNETIC SHIFT REGISTER AND OPERATION METHOD THEREOF - A magnetic shift register includes at least a magnetic memory track of which several magnetic walls separate the memory track into multiple magnetic domains to serve as magnetic binary memory cells. The magnetic memory track includes multiple data regions. Each data region has multiple of the magnetic binary memory cells for storing bit data at a quiescent state and registering at least one of the bit data shifted from the adjacent data region at a shifting state. Wherein, the bit data of the magnetic binary memory cells is shifted between the adjacent two data region under an operation current. | 04-01-2010 |
20100085793 | Wall Nucleation Propagation for Racetrack Memory - A shift register is provided, the shift register comprising at least one track including a storage region. The storage region comprises a plurality of magnetic domains for storing data. A given first one of the plurality of magnetic domains is adjacent to a given second one of the plurality of magnetic domains. The given first one of the plurality of magnetic domains and the given second one of the plurality of magnetic domains are arranged in a linear configuration. Further, the given first one of the plurality of magnetic domains and the given second one of the plurality of magnetic domains are separated from one another by at least one layer of non-magnetic material. The at least one layer of non-magnetic material preventing a propagation of a nucleated wall from traveling between the given first one of the plurality of magnetic domains and the given second one of the plurality of magnetic domains. The shift register is configured such that an electric current applied to the track is operative to shift data stored within at least one of the plurality of magnetic domains of the storage region, along the track, in a direction of the electric current. The data stored within the at least one of the plurality of magnetic domains is shifted as a function of the direction of the electric current. | 04-08-2010 |
20100118583 | MAGETIC SHIFT REGISTER AND DATA ACCESSING METHOD - A magnetic shift register memory includes at least a magnetic memory track, in which multiple domain walls separate the memory track into multiple magnetic domains to serve as magnetic memory cells. A fixed number of the magnetic memory cells forms a memory unit to store a burst data. A read/write device is implemented between the memory units to read or write the burst data to the magnetic memory cells passing the read/write device. A flag unit records a flag value for each memory track or each memory unit to indicate whether the burst data is located at a first side or a second side of the read/write device. A current unit provides an operation current to the magnetic memory track according to the flag value to move the domain walls to pass the read/write device. After the read/write device reads or writes the burst data, the flag value is updated. | 05-13-2010 |
20100124091 | Magnetic Data Storage Device and Method - A data storage device comprises an array of parallel magnetic nanowires each having a uniaxial anisotropy with an easy axis substantially perpendicular to the longitudinal axis of the nanowire and which is rotated about the longitudinal axis along the length of the nanowire, and a magnetisation state that follows the easy axis, where each nanowire has a data input element for nucleating magnetic domains separated by domain walls in an end of the nanowire, the sequence of domains and walls representing binary data, and a data read-out element operable to detect the magnetisation at an end of the nanowire, the device also comprising a magnetic field source operable to generate a magnetic field rotating in a plane substantially perpendicular to the longitudinal axes of the nanowires so as to propagate domain walls along the at least one nanowire. Reversal of the direction of rotation of the magnetic field reverses the propagation direction of the domain walls, so that data can be moved in either direction along the nanowires. | 05-20-2010 |
20100128510 | Magnetic Data Storage - The present invention can provide a magnetic memory structure comprising a column comprising a plurality of layers of magnetic material, each sized to adopt a single magnetic domain state, and a plurality of layers of non-magnetic material arranged as spacer layers between adjacent ones of the layers of magnetic material, such that successive magnetic layers in the column are magnetically antiparallel coupled. The column is arranged to maintain therein a plurality of stable transitions of an order parameter of the magnetisations between the magnetic layers, the transitions having a chirality. This enables a single magnetic column structure to store multiple data bits in such a way as to enable the bits to be propagated through the column to enable sequential reading and/or writing of data in the column. | 05-27-2010 |
20100135058 | MAGNETIC MEMORY, DRIVING METHOD THEREOF, AND MANUFACTURING METHOD THEREOF - A magnetic memory, a driving method thereof, and a manufacturing method thereof are provided. The magnetic memory includes a plurality of lead structures, a plurality of first magnetic metal structures, a second magnetic metal structure, and an insulation layer. Each of the first magnetic metal structures is disposed between adjacent two of the lead structures, and the second magnetic metal structure spans over the lead structures. A structure composed of the first magnetic metal structures and the second magnetic metal structure includes a plurality of magnetic memory cells connected with each other. Each of the magnetic memory cells has a magnetic domain and a domain wall adjacent to the magnetic domain, wherein the magnetic domain is suitable for storing a bit data. | 06-03-2010 |
20100135059 | Information storage devices using magnetic domain wall movement and methods of operating the same - Provided are information storage devices using movement of magnetic domain walls and methods of operating information storage devices. An information storage device includes a magnetic track and an operating unit. The magnetic track includes a plurality of magnetic domains separated by magnetic domain walls. The size of the operating unit is sufficient to cover at least two adjacent magnetic domains. And, the operating unit may be configured to write/read information to/from a single magnetic domain as well as a plurality of magnetic domains of the magnetic track. | 06-03-2010 |
20100172169 | Magnetic structures, information storage devices including magnetic structures, methods of manufacturing and methods of operating the same - A magnetic structure includes a first portion and a plurality of second portions. The first portion extends in a first direction. The plurality of second portions extend from ends of the first portion in a second direction. The first and second directions are perpendicular to one another. Two magnetic domains magnetized in directions opposite to each other and a magnetic domain wall between the magnetic domains are formed in the magnetic structure. | 07-08-2010 |
20100208504 | Identification of data positions in magnetic packet memory storage devices, memory systems including such devices, and methods of controlling such devices - In a memory device and in a method for controlling a memory device, the memory device comprises a magnetic structure that stores information in a plurality of domains of the magnetic structure. A read unit reads information from at least one of the plurality of domains of the magnetic structure by applying a read current to the magnetic structure. A position detector unit compares the information read by a read current from the read unit from multiple domains of the plurality of domains of the magnetic structure to identify the presence of an expected information pattern at select domains of the plurality of domains. | 08-19-2010 |
20100238698 | Data writing and reading method for memory device employing magnetic domain wall movement - A method of data recording and reading for a memory device employing magnetic domain wall movement. The memory device includes a writing track, an interconnecting layer formed on the writing track, and a recording track formed on the interconnecting layer | 09-23-2010 |
20100284209 | INTEGRATED CIRCUIT MEMORY SYSTEMS AND PROGRAM METHODS THEREOF INCLUDING A MAGNETIC TRACK MEMORY ARRAY USING MAGNETIC DOMAIN WALL MOVEMENT - Provided are nonvolatile memory devices and program methods thereof. an integrated circuit memory system includes a memory array comprising at least one magnetic track, each of the at least one magnetic track including a plurality of magnetic domains and at least one read/write unit coupled thereto, decoding circuitry coupled to the memory array that is operable to select at least one of the magnetic domains, a read/write controller coupled to the memory array that is operable to read data from at least one of the plurality of magnetic domains and to write data to at least one of the plurality of magnetic domains via the at least one read/write unit coupled to each of the at least one magnetic track, and a domain controller coupled to memory array that is operable to move data between the magnetic domains on each of the at least one magnetic track. | 11-11-2010 |
20100302832 | NON-VOLATILE LOGIC DEVICES USING MAGNETIC TUNNEL JUNCTIONS - The present disclosures concerns a register cell comprising a differential amplifying portion containing a first inverter coupled to a second inverter such as to form an unbalanced flip-flop circuit; a first and second bit line connected to one end of the first and second inverter, respectively; and a first and second source line connected to the other end of the first and second inverter, respectively; characterized by the register cell further comprising a first and second magnetic tunnel junction electrically connected to the other end of the first and second inverter, respectively. The shift register disclosed herein can be made smaller than conventional shift registers and power consumption during the write and read operation of the shift registers can be low. The shift register disclosed herein can be made smaller than conventional shift registers and power consumption during the write and read operation of the shift registers can be low. | 12-02-2010 |
20100321974 | MAGNETIC SHIFT REGISTER AND READING METHOD - A magnetic shift register including at least one magnetic track is provided. Each magnetic track has at least one set of burst data formed by a plurality of consecutive magnetic domains. Each magnetic domain has a magnetization direction corresponding to a stored data. A head magnetic domain having a given magnetization direction corresponding to a given stored data is set at a most front of the set of burst data, and the head magnetic domain and the set of burst data form a data storage unit. A method for reading a magnetic shift register is provided. | 12-23-2010 |
20100328986 | MAGNETIC SHIFT REGISTER MEMORY IN STACK STRUCTURE - A magnetic shift register memory in stack structure includes magnetic shift registering layers for forming an unit of stack structure. Each registering layer has multiple magnetic domains and each domain has a magnetization direction corresponding to a stored data. The two adjacent magnetic shift registering layers respectively have an upper magnetic domain and a lower magnetic domain forming a coupling region. By a coupling structure, the lower magnetic domain and the upper magnetic domain have the same stored data. A driving current unit is coupled to the magnetic shift registering layers for respectively providing a driving current in a predetermined direction to the magnetic shift registering layers. As a result, the stored data in the magnetic domains of the magnetic shift registering layers is shifted in a direction from a foremost registering layer to a last registering layer of the magnetic shift registering layers via the coupling structure. | 12-30-2010 |
20110051490 | ARRAY ARCHITECTURE AND OPERATION FOR MAGNETIC RACETRACK MEMORY - A high density memory architecture comprising magnetic racetrack memory and a method of operation. The memory architecture comprises a plurality of magnetic memory structures, each the structure formed of magnetic material; a sensing device associated with each magnetic memory structure; first decoder device initiating a track select signal for activating a single magnetic memory structure from among the plurality to perform a bit read or bit storage operation; a bit drive device for applying a first signal to form a new magnetic memory domain associated with a bit value to be stored in the activated magnetic memory structure at a first position thereof during a bit storage operation; and, a second decoder applying a second signal for advancing each the formed magnetic memory domain toward a second position of the activated memory structure. The sensing device reads a memory bit value stored at a magnetic domain at the second position of the activated memory structure. Subsequent thereto, a new magnetic memory domain associated with a bit value just read is formed such that the magnetic memory structure is returned to its original state at an end of the bit read operation. | 03-03-2011 |
20110063885 | Information storage devices including vertical nano wires - A memory cell includes: a memory cell array unit having a plurality of nano wires arranged vertically on a substrate, each of the plurality of nano wires having a plurality of domains for storing information; a nano wire selection unit formed on the substrate and configured to select at least one of the plurality of nano wires; a domain movement control unit formed on the substrate and configured to control a domain movement operation with respect to at least one of the plurality of nano wires; and a read/write control unit formed on the substrate and configured to control at least one of a read operation and a write operation with respect to at least one of the plurality of nano wires. | 03-17-2011 |
20110090730 | MAGNETIC MEMORY STRUCTURE AND OPERATION METHOD - A magnetic memory structure includes a memory track which has consecutive magnetic domains. Each of the magnetic domains has memory capacity of one bit. A first domain-wall injecting layer intersects and connects a terminal of the memory track and constantly stores a first binary data. A second domain-wall injecting layer against the first domain-wall injecting layer intersects and connects the terminal of the memory track and constantly stores a second binary data different from the first binary data. The memory track and one of the first domain-wall injecting layer and the second domain-wall injecting layer together form a domain wall. | 04-21-2011 |
20110157955 | MAGNETIC SHIFT REGISTER MEMORY - A magnetic shift register memory includes a magnetic track and a reference magnetic region. The magnetic track has multiple magnetic domains. Each of the magnetic domains stores one bit data. One end of the magnetic domains is set with a first data injection domain for storing a first data, and a second data injection domain is located adjacent to the first data injection domain. The reference magnetic region corresponding to the second data injection region is implemented at a side of the magnetic track for storing a second data. | 06-30-2011 |
20120008362 | Magnetic Spin Shift Register Memory - A method for forming a memory device includes forming a cavity having an inner surface with an undulating profile in a substrate, depositing a ferromagnetic material in the cavity, forming a reading element on the substrate proximate to a portion of the ferromagnetic material, and forming a writing element on the substrate proximate to a second portion of the ferromagnetic material. | 01-12-2012 |
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 |
20130033917 | READER FOR MAGNETIC SHIFT REGISTER - A reader for magnetic shift register is provided. The reader includes a magnetic reference layer, a tunneling layer, a magnetic canceling layer and an isolated layer. The magnetic reference layer and the magnetic canceling layer are respectively configured at different sides of a magnetic track for providing anti-parallel magnetic fields. The magnetic reference layer overlaps the magnetic canceling layer in a perpendicular direction of the magnetic track. The magnetic reference layer electrically connects to a readout circuit. The magnetic canceling layer is floating. The tunneling layer is configured between the magnetic reference layer and the magnetic track for providing a magnetic tunnel junction (MTJ). The isolated layer is configured between the magnetic canceling layer and the magnetic track for avoiding a current in the magnetic track from tunneling to the magnetic canceling layer. | 02-07-2013 |
20130155754 | METHOD AND SYSTEM FOR PROVIDING A MAGNETIC MEMORY UTILIZING A SHIFT REGISTER - A magnetic memory is described. The magnetic memory includes magnetic memory elements corresponding to magnetic memory cells and at least one shift register. Each magnetic memory element includes a pinned layer, a free layer, and a nonmagnetic spacer layer between the pinned and free layers. The free layer is switchable between stable magnetic states when a write current is passed through the magnetic memory element. The shift register(s) correspond to the magnetic memory elements. Each shift register includes domains separated by domain walls. A domain is antiparallel to an adjoining domain. The shift register(s) are configured such that an equilibrium state aligns a portion of the domains with the magnetic memory elements. The shift register(s) are also configured such that each domain walls shifts to a location of an adjoining domain wall when a shift current is passed through the shift register(s) in a direction along adjoining domains. | 06-20-2013 |
20130242634 | SHIFT REGISTER MEMORY AND DRIVING METHOD THEREOF - A shift register memory according to the present embodiment includes a magnetic pillar including a plurality of magnetic layers and a plurality of nonmagnetic layers provided between the magnetic layers adjacent to each other. A stress application part applies a stress to the magnetic pillar. A magnetic-field application part applies a static magnetic field to the magnetic pillar. The stress application part applies the stress to the magnetic pillar in order to transfer magnetization states of the magnetic layers in a stacking direction of the magnetic layers. | 09-19-2013 |
20130294138 | SHIFT REGISTER MEMORY DEVICE, SHIFT REGISTER, AND DATA STORAGE METHOD - A shift register memory device includes a shift register, program/read element, and rotating force application unit. The shift register includes plural rotors arranged along a direction with uniaxial anisotropy. Each rotor has a characteristic direction rotatable around a rotational axis extending in the direction. The program/read element can program data to the shift register by matching the characteristic direction of one of the rotors to one selected from two directions conforming to the uniaxial anisotropy and to read data by detecting the characteristic direction. The rotating force application unit can apply a rotating force to the shift register to urge the characteristic direction to rotate. The rotors are organized into plural pairs of every two adjacent rotors. Respective first and second forces urge the characteristic directions to be opposingly parallel for two rotors of the same pair and for two mutually adjacent rotors of mutually adjacent pairs. | 11-07-2013 |
20140003117 | PINNING MAGNETIC DOMAIN WALLS IN A MAGNETIC DOMAIN SHIFT REGISTER MEMORY DEVICE | 01-02-2014 |
20140003118 | MAGNETIC TUNNEL JUNCTION SELF-ALIGNMENT IN MAGNETIC DOMAIN WALL SHIFT REGISTER MEMORY DEVICES | 01-02-2014 |
20140003119 | PINNING MAGNETIC DOMAIN WALLS IN A MAGNETIC DOMAIN SHIFT REGISTER MEMORY DEVICE | 01-02-2014 |
20140009993 | DOMAIN WALL MOTION IN PERPENDICULARLY MAGNETIZED WIRES HAVING MAGNETIC MULTILAYERS WITH ENGINEERED INTERFACES - Magnetic wires that include cobalt, nickel, and platinum layers show improved domain wall motion properties, when the domain walls are driven by pulses of electrical current. These wires exhibit perpendicular magnetic anisotropy, thereby supporting the propagation of narrow domain walls. The direction of motion of the domain walls can be influenced by the order in which the platinum and cobalt layers are arranged. | 01-09-2014 |
20140009994 | DOMAIN WALL MOTION IN PERPENDICULARLY MAGNETIZED WIRES HAVING ARTIFICIAL ANTIFERROMAGNETICALLY COUPLED MULTILAYERS WITH ENGINEERED INTERFACES - Magnetic wires that include two antiferromagnetically coupled magnetic regions show improved domain wall motion properties, when the domain walls are driven by pulses of electrical current. The magnetic regions preferably include Co, Ni, and Pt and exhibit perpendicular magnetic anisotropy, thereby supporting the propagation of narrow domain walls. The direction of motion of the domain walls can be influenced by the order in which the wire's layers are arranged. | 01-09-2014 |
20140204647 | RACETRACK MEMORY CELLS WITH A VERTICAL NANOWIRE STORAGE ELEMENT - A racetrack memory cell device include a dielectric, an electrode disposed in the dielectric, a metal strap disposed in the dielectric, a nanowire disposed in the dielectric between the electrode and the metal strap and a magnetic tunnel junction disposed in the dielectric on the metal strap, and axially with the nanowire. | 07-24-2014 |
20140204648 | RACETRACK MEMORY CELLS WITH A VERTICAL NANOWIRE STORAGE ELEMENT - A racetrack memory cell device include a dielectric, an electrode disposed in the dielectric, a metal strap disposed in the dielectric, a nanowire disposed in the dielectric between the electrode and the metal strap and a magnetic tunnel junction disposed in the dielectric on the metal strap, and axially with the nanowire. | 07-24-2014 |
20140241030 | SHIFT REGISTER AND SHIFT REGISTER TYPE MAGNETIC MEMORY - A shift register according to an embodiment includes: a magnetic nanowire; a first control electrode group and a second control electrode group arranged with the magnetic nanowire being sandwiched therebetween, the first control electrode group including a plurality of first control electrodes arranged to be spaced apart from each other along a direction in which the magnetic nanowire extends, the second control electrode group including a plurality of second control electrodes arranged to be spaced apart from each other to correspond to the plurality of first control electrodes along the direction in which the magnetic nanowire extends, and the second control electrodes corresponding to the first control electrodes being shifted in the direction in which the magnetic nanowire extends; a first driving unit for driving the first control electrode group; and a second driving unit for driving the second control electrode group. | 08-28-2014 |
20140268981 | RACETRACK MEMORY WITH ELECTRIC-FIELD ASSISTED DOMAIN WALL INJECTION FOR LOW-POWER WRITE OPERATION - Embodiments are directed to injecting domain walls in a magnetic racetrack memory. In some embodiments, a racetrack comprising a nanowire is coupled with a gate in order to manipulate an anisotropy associated with the nanowire. The racetrack and gate is coupled with a pinning layer configured to establish a magnetization direction in the nanowire. | 09-18-2014 |
20140268982 | RACETRACK MEMORY WITH ELECTRIC-FIELD ASSISTED DOMAIN WALL INJECTION FOR LOW-POWER WRITE OPERATION - Embodiments are directed to injecting domain walls in a magnetic racetrack memory. In some embodiments, a racetrack comprising a nanowire is coupled with a gate in order to manipulate an anisotropy associated with the nanowire. The racetrack and gate is coupled with a pinning layer configured to establish a magnetization direction in the nanowire. | 09-18-2014 |
365081000 | Bidirectional | 1 |
20140247639 | 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. | 09-04-2014 |
365085000 | Continuous | 2 |
20090207643 | Data storage devices using magnetic domain wall movement and methods of operating the same - Data storage devices using movement of magnetic domain walls and methods of operating the same are provided. A data storage device includes a magnetic track having a verifying region. Within the verifying region, first and second magnetic domains are arranged alternately. The first magnetic domains correspond to first data and the second magnetic domains correspond to second data. A verification sensor is arranged at an end of the verifying region. A current applying element is configured to apply one or more pulse currents to the magnetic track. A first counter is connected to the verification sensor and configured to count the number of magnetic domains passing through the verification sensor. | 08-20-2009 |
20140063893 | SHIFT REGISTER TYPE MAGNETIC MEMORY - A shift register type magnetic memory according to an embodiment includes: a magnetic nanowire; a magnetic material chain provided in close vicinity to the magnetic nanowire, the magnetic material chain including a plurality of disk-shaped ferromagnetic films arranged along a direction in which the magnetic nanowire extends; a magnetization rotation drive unit configured to rotate and drive magnetization of the plurality of ferromagnetic films; a writing unit configured to write magnetic information into the magnetic nanowire; and a reading unit configured to read magnetic information from the magnetic nanowire. | 03-06-2014 |
365087000 | Thin film | 5 |
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 |
20090046493 | METHOD AND APPARATUS FOR FABRICATING SUB-LITHOGRAPHY DATA TRACKS FOR USE IN MAGNETIC SHIFT REGISTER MEMORY DEVICES - In one embodiment, the invention is a method and apparatus for fabricating sub-lithography data tracks for use in magnetic shift register memory devices. One embodiment of a memory device includes a first stack of dielectric material formed of a first dielectric material, a second stack of dielectric material surrounding the first stack of dielectric material and formed of at least a second dielectric material, and at least one data track for storing information, positioned between the first stack of dielectric material and the second stack of dielectric material, the data track having a high aspect ratio and a substantially rectangular cross section. | 02-19-2009 |
20090316462 | MAGNETIC TRACKS WITH DOMAIN WALL STORAGE ANCHORS - Magnetic shift registers in which data writing and reading is accomplished by moving the magnetic domain walls by electric current. Various embodiments of domain wall nodes or anchors that stabilize a domain wall are provided. In some embodiments, the wall anchors are elements separate from the magnetic track. In other embodiments, the wall anchors are disturbances in the physical configuration of the magnetic track. In still other embodiments, the wall anchors are disturbances in the material of the magnetic track. | 12-24-2009 |
20100315854 | MAGNETIC RANDOM ACCESS MEMORY AND INITIALIZING METHOD FOR THE SAME - A domain wall motion type MRAM has: a magnetic recording layer | 12-16-2010 |
20140160829 | METHOD AND APPARATUS FOR CONTROLLED APPLICATION OF OERSTED FIELD TO MAGNETIC MEMORY STRUCTURE - An apparatus for applying Oersted fields to a magnetic memory device comprises a first metal layer; a first insulating layer positioned on the first metal layer; a magnetic shift register wire positioned on the first insulating layer; a second insulating layer positioned on the magnetic shift register wire; a second metal layer positioned on the second insulating layer; a first conducting wire positioned in the first metal layer and extending transverse to the magnetic shift register wire; and a second conducting wire positioned in the second metal layer and extending transverse to the magnetic shift register wire. The first conducting wire is offset relative to the second conducting wire, the offset being defined by a distance between a first axis normal to the magnetic shift register wire and through the first conducting wire and a second axis normal to the magnetic shift register wire and through the second conducting wire. | 06-12-2014 |