A method of forming a thin film structure involves performing one or more repetitions to form a template on a wafer. The repetitions include: depositing a layer of a template material to a thickness; and ion beam milling the layer of the template material to remove thickness less than the first thickness. The ion beam milling may be performed at a two different angles during two different repetitions. At least one of the angles is a channeling angle defined relative to a crystalline microstructure of the template material. After the repetitions, additional material may be deposited on the template to form a final structure. The additional material has a same crystalline microstructure as the template material.
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
B81C 1/00 - Manufacture or treatment of devices or systems in or on a substrate
B82B 1/00 - Nanostructures formed by manipulation of individual atoms or molecules, or limited collections of atoms or molecules as discrete units
B82Y 10/00 - Nanotechnology for information processing, storage or transmission, e.g. quantum computing or single electron logic
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 11/24 - Recording on, or reproducing from, the same record carrier wherein for these two operations the methods or means are covered by different main groups of groups or by different subgroups of group ; Record carriers therefor using recording by near-field interactions
H01F 10/30 - Thin magnetic films, e.g. of one-domain structure characterised by the substrate or intermediate layers characterised by the composition of intermediate layers
H01L 21/3213 - Physical or chemical etching of the layers, e.g. to produce a patterned layer from a pre-deposited extensive layer
H01L 21/67 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components
2.
INTEGRATED OPTICAL REAL-TIME MOLECULE SEQUENCING VIA PHOTONIC CRYSTAL LASERS/DETECTORS
A laser-based molecular sequencing system includes a two-dimensional photonic crystal surface emitting laser (PCSEL) array including a plurality of PCSEL devices located in a first layer, each PCSEL device oriented in a direction perpendicular to the first layer. The system also includes a controller configured to modulate a bias on at least one PCSEL device of the plurality of PCSEL devices, the modulation configured to selectively operate each PCSEL device as an emitter or detector at a point in time based on the bias.
Described is a recording head that includes a notched write pole to enhance perpendicularity of the write pole field. The write pole notch is formed at the media-facing surface and the leading edge of the write pole. The write pole notch is filled with a non-magnetic metal. The recording head further includes a near field transducer located in front of the leading edge of the write pole and having a portion extending to the media-facing surface that is spaced apart from the notch, thereby forming a gap between the near field transducer and the notch.
G11B 5/187 - Structure or manufacture of the surface of the head in physical contact with, or immediately adjacent to, the recording medium; Pole pieces; Gap features
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
A data media may generally be configured in accordance with various embodiments with contactingly adjacent first and second heatsink layers that are tuned with a common crystallographic orientation and with different thermal conductivities to provide a predetermined thermal gradient. The data media may further be configured with a recording layer formed with the common crystallographic orientation adjacent the first and second heatsink layers.
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 5/66 - Record carriers characterised by the selection of the material comprising only the magnetic material without bonding agent the record carriers consisting of several layers
An apparatus is configured to include a first magnetic layer, a second magnetic layer and a break layer between the first magnetic layer and the second magnetic layer. The first magnetic layer includes a Curie temperature gradient between a first surface and a second surface of the first magnetic layer. The second magnetic layer includes a Curie temperature gradient between a third surface and a fourth surface of the second magnetic layer. The first magnetic layer has an average Curie temperature that is higher than the second magnetic layer.
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 5/66 - Record carriers characterised by the selection of the material comprising only the magnetic material without bonding agent the record carriers consisting of several layers
6.
HEAT-TRANSFER LIQUID SOLUTION, AND RELATED METHODS OF MAKING AND USING
The present disclosure includes methods of making a heat-transfer liquid solution by combining a heat-transfer liquid with a solute component to form a heat-transfer liquid solution, and related heat-transfer liquid solutions and methods of using.
A private set intersection protocol in which a third party may determine intersections of a first set of a first party and a second set of a second party. The third party may not obtain any information regarding the first set or the second set other than the intersection result. The protocol may be communicatively efficient and computationally efficient to allow for secure private set intersection to be performed.
A laser-based computing system includes a two-dimensional photonic crystal surface emitting laser (PCSEL) array including a plurality of PCSEL emitters located in a first layer, each emitter oriented in a direction perpendicular to a plane formed by the first layer, where the plurality of PCSEL emitters form a preset pattern within the first layer, and a controller operatively connected to the plurality of PCSEL emitters, the controller configured to modulate phase and/or amplitude of a beam emitted by a PCSEL emitter of the plurality of PCSEL emitters.
A magnetic recording head includes an active component and a piezoelectric actuator. The active component is disposed proximal to a media-facing surface of the magnetic recording head. The piezoelectric actuator includes a piezoelectric layer, a first electrode coupled to the piezoelectric layer, and a second electrode coupled to the piezoelectric layer. The piezoelectric actuator is configured to exert a mechanical force to displace the active component such that the displacement changes a protrusion of the active component from the media-facing surface.
A storage command is received that is directed to a distributed storage system. Based on the storage command, a metadata update is targeted to a logical block address of metadata storage of the distributed storage system. The metadata update includes a chunk of metadata that is smaller than a block addressed by the logical block address. An atomic write command is sent to a block device interface. The command includes the chunk of metadata, the logical block address, and an offset within the block defining where the chunk of metadata is to be stored. Via the block device interface, the atomic write command is stored in a non-volatile buffer that has faster performance than the metadata storage. The chunk of metadata of the atomic write command is written from the non-volatile buffer to the block in the metadata storage via a background process using an atomic read-modify-write command.
G11B 11/105 - Recording on, or reproducing from, the same record carrier wherein for these two operations the methods or means are covered by different main groups of groups or by different subgroups of group ; Record carriers therefor using recording by magnetisation or demagnetisation using a beam of light or a magnetic field for recording and a beam of light for reproducing, e.g. light-induced thermomagnetic recording or Kerr effect reproducing
G11B 5/39 - Structure or manufacture of flux-sensitive heads using magneto-resistive devices
G11B 5/48 - Disposition or mounting of heads relative to record carriers
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
Methods of writing data to a DNA strand by inserting data-encoding oligos or symbols into a DNA backbone. One particular method of synthesizing a DNA strand encoding data includes cleaving a DNA backbone into multiple segments, and pasting a plurality of data-encoding oligo symbols between the multiple segments, with the terminal ends of the segments joining homologous terminal ends of the symbols, resulting in the DNA strand encoding data comprising alternating segments and symbols.
G11C 13/02 - Digital stores characterised by the use of storage elements not covered by groups , , or using elements whose operation depends upon chemical change
C12P 19/34 - Polynucleotides, e.g. nucleic acids, oligoribonucleotides
14.
HARD DISK DRIVE HAVING A MOTOR ASSEMBLY WITH A ROTATIONAL BALANCING SPRING PIN
A hard disk drive includes at least one magnetic disk and a motor assembly. The motor assembly is configured to rotatably support the magnetic disk(s) and circumferentially rotate the magnetic disk(s) about an axis of rotation during operations of the hard disk drive. The motor assembly includes at least one rotational balancing spring pin. Each rotational balancing spring pin is configured to reduce a rotating unbalance of the motor assembly.
A data storage device includes a data storage disk, an arm, a first head, an elevator, and a sleeve. The data storage disk has a first read/write surface defining an x-y plane. The arm is attached to a pivot block, wherein the arm is movable relative to the disk. The first head is supported by the arm, wherein the first head is configured to interact with the first read/write surface. The elevator is configured to move the arm in a z direction, wherein the elevator comprises a stepper motor, a gear train, and a lead screw. The sleeve partially encases the lead screw. In another aspect, a data storage device includes a data storage disk, an arm, a first head, an elevator, and a housing encasing the gear train and attached to the pivot block.
A secret sharing scheme with yes and no shares and having a hidden access structure. The secret sharing scheme may include share generation in which yes shares and no shares are generated for, and distributed to, each party in the secret sharing scheme. In turn, upon an attempt to reconstruct the secret, participants in the reconstruction each provide a share, which is unknown to be a yes share or a no share to the other participants. The secret is only reconstructable if the shares used in the reconstruction include yes shares of a minimal authorized subset of the parties. However, prior to secret reconstruction, the access structure remains hidden and the participants in a reconstruction are unaware of the character of the shares provided by other participants in the reconstruction attempt.
H04L 9/06 - Arrangements for secret or secure communications; Network security protocols the encryption apparatus using shift registers or memories for blockwise coding, e.g. D.E.S. systems
17.
Method of for bonding noble metal structure with a dielectric layer using an adhesive layer
A first layer that includes a metal seed layer, a refractive seed or a refractive dopant is formed on a dielectric substrate. A peg of a near-field transducer is formed on the first layer such that a first surface of the peg is formed on and is in contact with the metal seed. An adhesive layer is formed over the peg using atomic layer deposition. The adhesive layer includes alumina and is 4 nm or less in thickness. A silicon dioxide overcoat is deposited over the adhesive layer. The alumina bonds the silicon dioxide to the peg.
G11B 5/40 - Protective measures on heads, e.g. against excessive temperature
C23C 14/02 - Pretreatment of the material to be coated
G11B 5/255 - Structure or manufacture of the surface of the head in physical contact with, or immediately adjacent to, the recording medium; Pole pieces; Gap features comprising means for protection against wear
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
A method of forming patterned magnetic media disclosed herein includes patterning a guiding layer on a substrate to form a nucleation guiding pattern. A layer of magnetic material is formed over the nucleation guiding pattern. The magnetic material may comprise a non-magnetic segregant. Magnetic grains are grown in a down-track direction and in a cross-track direction responsive to the nucleation guiding pattern and the non-magnetic segregant forms grain boundaries between the magnetic grains.
G11B 5/66 - Record carriers characterised by the selection of the material comprising only the magnetic material without bonding agent the record carriers consisting of several layers
A data storage system for use in a high radiation environment runs first and second operating time counters to monitor a field-programmable, gate array (FPGA) configured as a storage controller. Based on the first operating time counter passing a first threshold, the FPGA is fully reprogrammed. Based on the second operating time counter passing a second threshold less than the first threshold, the FPGA is partially reprogrammed.
A method involves forming a metal layer on a metal seed layer, the metal seed layer formed on a carrier wafer. A surface of the metal layer defines a first metal bonding layer. A second metal bonding layer is provided on a target substrate having recording head subassemblies. Mating surfaces of the first and second metal bonding layers are activated and the carrier wafer is flipped and joined with the target substrate such that the first and second metal bonding layers are bonded and the metal layer is integrated with the recording head as a near-field transducer.
G11B 5/127 - Structure or manufacture of heads, e.g. inductive
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
G11B 5/84 - Processes or apparatus specially adapted for manufacturing record carriers
G11B 7/124 - Integrated head arrangements, e.g. with source and detectors mounted on the same substrate the integrated head arrangements including waveguides
H01L 33/00 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer storage devices, namely, hard drives for computers;
data storage devices, namely, hard disk drives, blank
digital storage media; digital disk drives; removable hard
drive based computer backup systems; docking stations for
data storage devices; interfaces for computers; computer
hardware for upload, storage, retrieval, download,
transmission and delivery of digital content; computer
software for use in the synchronization, back-up, playing
and encryption and decryption of digital files, including
audio, video, text, binary, still images, graphics and
multimedia files; computer firmware for data storage, data
retrieval, data access, data backup, data replication, data
availability, data recovery, data translation and data
conversion; computer software for use in imaging,
duplicating and restoring the original factory level
instances of hard disk drive, for use in preserving and
restoring software programs and information in a computer,
for use in performing diagnostics on hard disk drives, for
use in connection with computer disk drives for the storage,
backup and retrieval of information, for use in connection
with data storage, data management and interconnection, and
management and operation of data storage devices, for use in
back-up of computer hard drive data, back-up of computer
networks, and data recovery.
Reading data stored on an optical fiber medium includes receiving an optical fiber having data stored thereon in a light-affecting format, guiding the optical fiber through a readback guide system causing a length of the optical fiber to align with an axis, directing light through at least a portion of the optical fiber, the light producing an observable light dispersion pattern based on the light-affecting data stored on the optical fiber, observing the light dispersion pattern as a manner of reading the stored data of the optical fiber, determining the stored data based on the observing the light dispersion pattern, and outputting the determined stored data to a host.
A method of interconnecting multiple components of an electrical assembly with a solder joint that includes the steps of positioning a suspension adjacent to a slider to provide a connection area between the suspension and the slider, wherein the suspension comprises a pre-deposited quantity of solder material with a height that provides for a predefined gap between a lower surface of the slider and an upper surface of the solder material, and applying energy to the solder material to melt the solder material and allow it to move toward and contact the lower surface of the slider.
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer storage devices, namely, hard drives for computers;
data storage devices, namely, hard disk drives, blank
digital storage media; digital disk drives; removable hard
drive based computer backup systems; docking stations for
data storage devices; interfaces for computers; computer
hardware for upload, storage, retrieval, download,
transmission and delivery of digital content; computer
software for use in the synchronization, back-up, playing
and encryption and decryption of digital files, including
audio, video, text, binary, still images, graphics and
multimedia files; computer firmware for data storage, data
retrieval, data access, data backup, data replication, data
availability, data recovery, data translation and data
conversion; computer software for use in imaging,
duplicating and restoring the original factory level
instances of hard disk drive, for use in preserving and
restoring software programs and information in a computer,
for use in performing diagnostics on hard disk drives, for
use in connection with computer disk drives for the storage,
backup and retrieval of information, for use in connection
with data storage, data management and interconnection, and
management and operation of data storage devices, for use in
back-up of computer hard drive data, back-up of computer
networks, and data recovery.
Systems and methods are disclosed for magnetoresistive asymmetry (MRA) compensation using a digital compensation scheme. In certain embodiments, a method may comprise receiving an analog signal at a continuous-time front end circuit, and performing analog offset compensation to constrain the extrema of the analog signal to adjust a dynamic range based on an input range of an analog-to-digital converter (ADC), rather than to modify the analog signal to have a zero mean. The method may further comprise converting the analog signal to a digital sample sequence via the ADC; performing, via a digital MRA compensation circuit, digital MRA compensation on the digital sample sequence; receiving, via a digital backend (DBE) subsystem, the digital sample sequence prior to digital MRA compensation; and generating, via a DBE, a bit sequence corresponding to the analog signal based on an output of the DBE subsystem and an output of the digital MRA compensation circuit.
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer storage devices, namely, hard drives for computers;
data storage devices, namely, hard disk drives, blank
digital storage media; digital disk drives; removable hard
drive based computer backup systems; docking stations for
data storage devices; interfaces for computers; computer
hardware for upload, storage, retrieval, download,
transmission and delivery of digital content; computer
software for use in the synchronization, back-up, playing
and encryption and decryption of digital files, including
audio, video, text, binary, still images, graphics and
multimedia files; computer firmware for data storage, data
retrieval, data access, data backup, data replication, data
availability, data recovery, data translation and data
conversion; computer software for use in imaging,
duplicating and restoring the original factory level
instances of hard disk drive, for use in preserving and
restoring software programs and information in a computer,
for use in performing diagnostics on hard disk drives, for
use in connection with computer disk drives for the storage,
backup and retrieval of information, for use in connection
with data storage, data management and interconnection, and
management and operation of data storage devices, for use in
back-up of computer hard drive data, back-up of computer
networks, and data recovery.
A data storage apparatus is presented that includes a well structure comprising a suspension medium, and a magnetic particle disposed in at least a portion of the well structure. A control system is configured to represent a data state corresponding to a positioning of the magnetic particle within the well structure, the magnetic particle moved responsive to an applied field and a present material state of the well structure. Various addressable arrays of well structures and associated control elements can be established to form data storage devices.
G11C 11/16 - Digital stores characterised by the use of particular electric or magnetic storage elements; Storage elements therefor using magnetic elements using elements in which the storage effect is based on magnetic spin effect
29.
SYSTEMS, METHODS, AND DEVICES FOR MONITORING A GASEOUS OXIDIZING AGENT IN A DATA STORAGE DEVICE, AND RELATED SYSTEMS, METHODS, AND DEVICES
The present disclosure relates to devices, circuits, and methods of determining power consumption in an electronic device (e.g., HDD) so that the determined power consumption can be used to determine a concentration of the gaseous oxidizing agent component in an interior gas space of the sealed enclosure and/or actively supply gaseous oxidizing agent component to the interior gas space of the electronic device if the determined power consumption is below a threshold value.
A heat-assisted magnetic recording head includes a laser, a near-field transducer, a primary waveguide, a secondary waveguide, and a photodiode. The laser is configured to emit electromagnetic radiation. The near-field transducer is configured to focus and emit an optical near-field. The primary waveguide configured to receive the electromagnetic radiation and propagate the electromagnetic radiation toward and proximal to the near-field transducer. The secondary waveguide configured to receive a portion of the electromagnetic radiation from the primary waveguide. The photodiode configured to receive the portion of the electromagnetic radiation from the secondary waveguide and emit a signal that represents a magnitude of the electromagnetic radiation that the laser emits.
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 5/48 - Disposition or mounting of heads relative to record carriers
G11B 7/126 - Circuits, methods or arrangements for laser control or stabilisation
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
31.
HEAT-ASSISTED MAGNETIC RECORDING HEAD NEAR-FIELD TRANSDUCER WITH A HYBRID PLASMONIC DISK
A heat-assisted magnetic recording head comprises a near-field transducer (NFT). The NFT comprises a near-field emitter configured to heat a surface of a magnetic disk, and a hybrid plasmonic disk. The hybrid plasmonic disk comprises a plasmonic region and a thermal region. The plasmonic region comprises a first material or alloy that is a plasmonic material or alloy. The thermal region comprises a second material or alloy that is different than the first material or alloy.
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 5/48 - Disposition or mounting of heads relative to record carriers
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
A method involves determining a threshold error rate that will result on data stored on a magnetic disk surface of a disk drive being unrecoverable. The method also involves determining a seek velocity that will overwrite sufficient portions of the data such the data will exhibit at least the threshold error rate. The disk drive performs at least one traversal of the magnetic disk surface with a head of the disk drive that emits an erase field during the at least one traversal at the seek velocity. The at least one traversal sanitizes the data.
Systems and methods are disclosed for implementing a low latency decoder. In certain embodiments, an apparatus may comprise decoder configured decode a codeword of bits, including: a variable node processor configured to provide a plurality of variable-to-check (v2c) message vectors to the edge combiner in parallel, the plurality of v2c message vectors including estimates for a selected set of bits of the codeword; the edge combiner configured to generate a plurality of output message vectors for a plurality of check node vectors based on the plurality of v2c message vectors, and provide the plurality of output message vectors to the plurality of check node vectors simultaneously; a check node processor configured to update the plurality of check node vectors based on the plurality of output message vectors; and a convergence checker circuit configured to detect a valid code word based on bit value estimates from the variable node processor.
H03M 13/00 - Coding, decoding or code conversion, for error detection or error correction; Coding theory basic assumptions; Coding bounds; Error probability evaluation methods; Channel models; Simulation or testing of codes
H03M 13/11 - Error detection or forward error correction by redundancy in data representation, i.e. code words containing more digits than the source words using block codes, i.e. a predetermined number of check bits joined to a predetermined number of information bits using multiple parity bits
34.
SYSTEM AND METHODS FOR POSITIONING BIOMATERIAL ON A SUBSTRATE
The present disclosure describes a system and methods for positioning a configured number of biomaterials on a surface. The method disclosed includes the formation of a membrane mask structure including a configured number of nanopores. The nanopores are generally sized to be the same size as, or slightly larger than a single target biomaterial. The masking membrane is then adhered to a substrate. The substrate may include a raw substrate, or may be functionalized for the purpose of binding biomaterials with greater attraction. A solution including the target biomaterials is then exposed to the masking membrane. One biomaterial is able to adhere to the substrate through each nanopore. The solution is rinsed from the membrane surface leaving only the biomaterial that has adhered to the substrate with a relatively strong binding force. The masking membrane may then either remain or may be removed.
Systems and methods are disclosed for implementing a high performance decoder. In certain embodiments, an apparatus may comprise a decoder circuit configured to decode a codeword of bits, including: a check node processor configured to provide a plurality of check to variable (c2v) messages to a variable node processor in parallel, the plurality of c2v messages including log likelihood ratio (LLR) data related a parity sum of multiple bits of the codeword; the variable node processor configured to generate a decision vector based on the plurality of c2v messages; and a convergence checker circuit configured to determine whether the codeword has been decoded based on the decision vector and output decoded data when the codeword has been decoded.
H03M 13/11 - Error detection or forward error correction by redundancy in data representation, i.e. code words containing more digits than the source words using block codes, i.e. a predetermined number of check bits joined to a predetermined number of information bits using multiple parity bits
H03M 13/00 - Coding, decoding or code conversion, for error detection or error correction; Coding theory basic assumptions; Coding bounds; Error probability evaluation methods; Channel models; Simulation or testing of codes
36.
SECURITY-ENHANCED DATA STORAGE DEVICE FOR AEROSPACE APPLICATIONS
A system for use in an aerospace environment includes an array of storage drives each comprising a non-radiation-hardened drive controller, a non-radiation-hardened, non-volatile, storage medium, and a non-radiation-hardened volatile memory. The system includes a radiation-tolerant storage controller coupled to the array. The storage controller provides failure-resistant data redundancy among the storage drives of the array. The system includes a bus host that accesses the array via the storage controller. The storage controller implements security logic and a root-of-trust that provides to the bus host verification of authenticity of the radiation tolerant storage controller and the storage drives.
Method and apparatus for managing a front-end cache formed of ferroelectric memory element (FME) cells. Prior to storage of writeback data associated with a pending write command from a client device, an intelligent cache manager circuit forwards a first status value indicative that sufficient capacity is available in the front-end cache for the writeback data. Non-requested speculative readback data previously transferred to the front-end cache from the main NVM memory store may be jettisoned to accommodate the writeback data. A second status value may be supplied to the client device if insufficient capacity is available to store the writeback data in the front-end cache, and a different, non-FME based cache may be used in such case. Mode select inputs can be supplied by the client device specify a particular quality of service level for the front-end cache, enabling selection of suitable writeback and speculative readback data processing strategies.
09 - Scientific and electric apparatus and instruments
Goods & Services
computer storage devices, namely, blank hard drives for computers; data storage devices, namely, hard disk drives, blank digital storage media; digital disk drives; removable hard drive based computer backup systems; electronic docking stations for data storage devices; interfaces for computers; computer hardware for upload, storage, retrieval, download, transmission and delivery of digital content; downloadable and recorded computer software for use in the synchronization, back-up, playing and encryption and decryption of digital files, including audio, video, text, binary, still images, graphics and multimedia files; downloadable and recorded computer firmware for data storage, data retrieval, data access, data backup, data replication, data availability, data recovery, data translation and data conversion; downloadable and recorded computer software for use in imaging, duplicating and restoring the original factory level instances of hard disk drive, for use in preserving and restoring software programs and information in a computer, for use in performing diagnostics on hard disk drives, for use in connection with computer disk drives for the storage, backup and retrieval of information, for use in connection with data storage, data management and interconnection, and management and operation of data storage devices, for use in back-up of computer hard drive data, back-up of computer networks, and data recovery
A data storage device comprising a recording head having a high damping magnetic alloy layer including at least one magnetic alloy element, and a 5d transition element; the high damping magnetic alloy layer having a mixed face-centered cubic (fcc) and body-centered cubic (bcc) crystal structure, and the mixed fcc and bcc crystal structure comprising fcc and bcc grains, with the bcc grains having an elongated shape relative to the fcc grains, a larger size than the fcc grains, and slip deformation, thereby providing the high damping magnetic alloy layer with a damping constant of up to about 0.07.
G11B 5/187 - Structure or manufacture of the surface of the head in physical contact with, or immediately adjacent to, the recording medium; Pole pieces; Gap features
C25D 3/56 - Electroplating; Baths therefor from solutions of alloys
C25D 5/18 - Electroplating using modulated, pulsed or reversing current
40.
Heat-assisted magnetic recording head with an integrated photodiode
A heat-assisted magnetic recording head includes a laser, a near-field transducer, a primary waveguide, a secondary waveguide, and a photodiode. The laser is configured to emit electromagnetic radiation. The near-field transducer is configured to focus and emit an optical near-field. The primary waveguide configured to receive the electromagnetic radiation and propagate the electromagnetic radiation toward and proximal to the near-field transducer. The secondary waveguide configured to receive a portion of the electromagnetic radiation from the primary waveguide. The photodiode configured to receive the portion of the electromagnetic radiation from the secondary waveguide and emit a signal that represents a magnitude of the electromagnetic radiation that the laser emits.
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
G11B 7/126 - Circuits, methods or arrangements for laser control or stabilisation
G11B 5/48 - Disposition or mounting of heads relative to record carriers
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
A data storage system includes an enclosure, a printed circuit board positioned in the enclosure, an integrated circuit mechanically and electrically coupled to the printed circuit board, temperature sensors configured to generate temperature signals in response to measured temperatures, an air mover coupled to the enclosure and including a motor rotatable in a clockwise direction and a counterclockwise direction, and a controller configured to cause rotation of the motor in either the clockwise direction or the counterclockwise direction depending on the temperature signals.
A data storage system may connect a host to a device and a hardware module that are utilized to satisfy at least one host-generated data access request to the device. A portion of the device is set as dormant by the hardware module prior to identifying an origin of the device with the hardware module during the satisfaction of the at least one host-generated data access request. In response to the identified origin, the previously dormant portion of the device is activated and subsequently utilized to execute a task assigned by the hardware module.
A data storage device includes at least one data storage medium. The data storage device also includes a workload rating associated with data access operations carried out on the at least one data storage medium. The data storage device further includes a controller configured to enable performance of the data access operations, and change a rate of consumption of the workload rating by internal device management operations carried out in the data storage device in response to a change in a workload consumed by host commands serviced by the data storage device.
Building DNA strands at a high rate that are suitable for data storage. Methods include using DNAzyme and utilizing libraries of pre-prepared oligos. A system for the DNA strand synthesis includes: a DNA symbol library comprising a number of single strand oligo symbols; a DNA linker library comprising a first set of single strand oligo linkers and a second set of single strand oligo linkers; and a DNAzyme library comprising a number of DNAzymes. An S1 end of a first DNAzyme is adapted to join the S1 end of a symbol and an S2 end of the first DNAzyme is adapted to join an S2 end of a first linker, and an S1 end of a second DNAzyme is adapted to join an S1 end of a second linker and an S2 end of the second DNAzyme is adapted to join an S2 end of the symbol.
A controller extracts a distortion component of a readback signal from a magnetic read head. The distortion component may be found using a finite length Volterra series, for example. The controller estimates a clearance between the read head and a recording medium based on the distortion component. This clearance measurement can be used for closed loop fly-height control of the read head.
Apparatus and method for executing controller memory buffer (CMB) based data transfer commands in a distributed data processing environment. In some embodiments, a storage device having a device controller and a main non-volatile memory (NVM) is coupled to a client device via an interface. The client device respectively issues normal data transfer commands and bypass data transfer commands to the storage device. The normal data transfer commands include read and write commands that result in transfer of data between the NVM and the client device using a normal data path through the storage device. The bypass data transfer commands involve an allocated CMB of the storage device directly controlled and accessed by the client device. In this way, write data are directly placed into the CMB for writing to the NVM, and readback data from the NVM are directly recovered from the CMB by the client device.
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer storage devices, namely, hard drives for computers;
data storage devices, namely, hard disk drives, blank
digital storage media; digital disk drives; removable hard
drive based computer backup systems; docking stations for
data storage devices; interfaces for computers; computer
hardware for upload, storage, retrieval, download,
transmission and delivery of digital content; computer
software for use in the synchronization, back-up, playing
and encryption and decryption of digital files, including
audio, video, text, binary, still images, graphics and
multimedia files; computer firmware for data storage, data
retrieval, data access, data backup, data replication, data
availability, data recovery, data translation and data
conversion; computer software for use in imaging,
duplicating and restoring the original factory level
instances of hard disk drive, for use in preserving and
restoring software programs and information in a computer,
for use in performing diagnostics on hard disk drives, for
use in connection with computer disk drives for the storage,
backup and retrieval of information, for use in connection
with data storage, data management and interconnection, and
management and operation of data storage devices, for use in
back-up of computer hard drive data, back-up of computer
networks, and data recovery.
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer storage devices, namely, hard drives for computers;
data storage devices, namely, hard disk drives, blank
digital storage media; digital disk drives; removable hard
drive based computer backup systems; docking stations for
data storage devices; interfaces for computers; computer
hardware for upload, storage, retrieval, download,
transmission and delivery of digital content; computer
software for use in the synchronization, back-up, playing
and encryption and decryption of digital files, including
audio, video, text, binary, still images, graphics and
multimedia files; computer firmware for data storage, data
retrieval, data access, data backup, data replication, data
availability, data recovery, data translation and data
conversion; computer software for use in imaging,
duplicating and restoring the original factory level
instances of hard disk drive, for use in preserving and
restoring software programs and information in a computer,
for use in performing diagnostics on hard disk drives, for
use in connection with computer disk drives for the storage,
backup and retrieval of information, for use in connection
with data storage, data management and interconnection, and
management and operation of data storage devices, for use in
back-up of computer hard drive data, back-up of computer
networks, and data recovery.
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer storage devices, namely, hard drives for computers;
data storage devices, namely, hard disk drives, blank
digital storage media; digital disk drives; removable hard
drive based computer backup systems; docking stations for
data storage devices; interfaces for computers; computer
hardware for upload, storage, retrieval, download,
transmission and delivery of digital content; computer
software for use in the synchronization, back-up, playing
and encryption and decryption of digital files, including
audio, video, text, binary, still images, graphics and
multimedia files; computer firmware for data storage, data
retrieval, data access, data backup, data replication, data
availability, data recovery, data translation and data
conversion; computer software for use in imaging,
duplicating and restoring the original factory level
instances of hard disk drive, for use in preserving and
restoring software programs and information in a computer,
for use in performing diagnostics on hard disk drives, for
use in connection with computer disk drives for the storage,
backup and retrieval of information, for use in connection
with data storage, data management and interconnection, and
management and operation of data storage devices, for use in
back-up of computer hard drive data, back-up of computer
networks, and data recovery.
50.
Heat-assisted magnetic recording head with a bilayer adhesion structure
A heat-assisted magnetic recording head includes a first feature, a second feature, and a bilayer adhesion structure. The first feature includes a first primary metal. The second feature includes an oxide region, and a mixed metal oxide adhesion layer that is adhered to the oxide region and provided on a surface of the second feature. The bilayer adhesion structure includes the mixed metal oxide adhesion layer of the second feature, and a metal adhesion layer. The metal adhesion layer is disposed between and adhered to the first feature and the mixed metal oxide adhesion layer of the second feature. The metal adhesion layer includes a second primary metal that is different than the first primary metal.
G11B 5/40 - Protective measures on heads, e.g. against excessive temperature
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
51.
Laser feedback suppressor for heat-assisted magnetic recording
A recording head includes a channel waveguide that delivers light to a media-facing surface. A near-field transducer (NFT) is at an end of the channel waveguide and proximate to the media-facing surface. A laser including an active region has a longitudinal axis corresponding to a propagation direction of the channel waveguide. The active region includes a back facet and a front facet proximate the NFT. The front facet has a surface shape configured to suppress back reflection of the light.
G11B 5/48 - Disposition or mounting of heads relative to record carriers
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
G11B 11/105 - Recording on, or reproducing from, the same record carrier wherein for these two operations the methods or means are covered by different main groups of groups or by different subgroups of group ; Record carriers therefor using recording by magnetisation or demagnetisation using a beam of light or a magnetic field for recording and a beam of light for reproducing, e.g. light-induced thermomagnetic recording or Kerr effect reproducing
Described are electrodeposition methods, and materials and structures prepared by electrodeposition methods, and devices prepared from the electrodeposited materials.
The technology disclosed herein provides a method including receiving a plurality of input/output (IO) requests at an object store, removing one or more fields from each of the plurality of input/output (IO) requests to generate a plurality of condensed IO requests, transforming one or more fields of each of the plurality of condensed IO requests to generate transformed IO requests, combining a predetermined number of transformed IO requests to generate IO trace temporal sequences, generating machine learning (ML) model input feature vectors by assigning each of the IO trace temporal sequences a ground truth value indicating whether the IO trace temporal sequence represents a ransomware attack, and training an ML model using a plurality of the ML model input feature vectors.
A data storage apparatus includes a disk storage region in which magnetic disks are stored. A carrier mechanism picks up one or more of the magnetic disks and moves them to and from the disk storage region. A data access device of the apparatus includes a structure to receive the one or more magnetic disks from the carrier mechanism and spins the magnetic disks in place. One or more actuator arms are operable to move across a same surface of the one or more magnetic disks. Two or more read transducers are mounted to the actuator arms and operable to simultaneously read from the same surface of the one or more magnetic disks. Two or more write transducers are mounted to the actuator arms and operable to simultaneously write to the same surface of the one or more magnetic disks.
A non-local spin valve (NLSV) sensor includes a bearing surface and a detector located proximate to the bearing surface. The NLSV sensor also includes a channel layer located behind the detector relative to the bearing surface, and in a substantially same plane as the detector. The channel layer has a front end that is proximate to the detector and a rear end that is distal to the detector. The NLSV sensor further includes first and second spin injectors, with the first spin injector located proximate to the rear end of the channel layer and positioned above the channel layer, and the second spin injector located proximate the rear end of the channel layer and positioned below the channel layer.
A distributed data storage system can be configured with a host connected to a first device and an initialization module that performs a default initialization procedure on the first device in response to detecting the first device has an unknown manufacturing origin. Conducting the default initialization procedure may allow the first device to service data access requests from the host. In response to the connection of a second device to the host and initialization module, a manufacturing origin of the second device is identified with the initialization module before the initialization module customizes the default initialization procedure to a custom procedure that is executed to allow the second device to satisfy a background operation prescribed by the initialization module.
A distributed data storage system may connect a host to a device and a dedication module. The dedication module can identify a manufacturing origin of the device before dedicating a type of host-generated data access request to the device. The type of host-generated data access request is chosen by the dedication module in response to an operating capability correlated to the device by the dedication module based on the identified manufacturing origin. At least one host-generated request of the dedicated type is then completed with the device.
Apparatus and method for servicing data transfer commands in a computer environment using a selected protocol such as NVMe (Non-Volatile Memory Express). In some embodiments, a secure connection is established between a client device and a bridge device across an interface. A controller of the bridge device presents a unitary namespace as an available memory space to the client device. The controller further communicates with a plurality of downstream target devices to allocate individual namespaces within main memory stores of each of the target devices to form a consolidated namespace to support the unitary namespace presented to the controller. In this way, the bridge device can operate as an NVMe controller with respect to the client device for the unitary namespace, and as a virtual client device to each of the target devices which operate as embedded NVMe controllers for the individual namespaces.
Apparatus and method for executing hidden computational functions in a distributed data processing environment. In some embodiments, a trust boundary includes a target device such as a storage device, and a source device such as a client device in a computer network. A storage device processor executes a hidden command function (HCF) routine to accumulate HCF output data in a local cache responsive to an HCF command received from the client device over a data interface. The processor further establishes a smaller retention boundary within the trust boundary that includes the storage device and excludes the client device. The HCF output data are stored locally in a non-volatile memory (NVM) of the storage device while not transferring any portion of the HCF output data outside the retention boundary, including to the client device. The HCF routine can update a block-chain ledger or take some other form to provide data security.
A distributed data storage system can be configured with a host connected to a device and a distribution module. The distribution module identifies a manufacturing origin of the device and diverts a system operation from an upstream component connected to the distribution module to the device in response to the identified manufacturing origin of the device. The manufacturer installed operating parameters of the device are then used to complete the system operation.
Method and apparatus for offloading upstream processing tasks to peer groups of downstream data storage devices. A peer control circuit forms a peer group of storage devices in response to a detected processing bottleneck associated with a network controller. One of the storage devices in the peer group is designated as a primary device, and is responsible for interface communications, for subdividing the processing task for execution by secondary devices in the peer group, and coordinating overall execution. The peer group and the processing task are selected to avoid or minimize the processing bottleneck at the network controller level while maintaining ongoing data transfer performance at the storage device level. A list of available device resources and capabilities may be maintained by the peer control circuit. Offloaded tasks can include data rebuilds, cryptographic functions, new device authentication operations, and the like. Multiple overlapping peer groups can be formed as needed.
A heat-assisted magnetic recording head comprises a near-field transducer (NFT). The NFT comprises a near-field emitter configured to heat a surface of a magnetic disk, and a hybrid plasmonic disk. The hybrid plasmonic disk comprises a plasmonic region and a thermal region. The plasmonic region comprises a first material or alloy that is a plasmonic material or alloy. The thermal region comprises a second material or alloy that is different than the first material or alloy.
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 5/48 - Disposition or mounting of heads relative to record carriers
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
A method includes generating a first control signal and a second control signal; blending the first control signal and the second control signal based, at least in part, on a velocity; and positioning a read/write head based on the blending of the first control signal and the second control signal.
G11B 5/596 - Disposition or mounting of heads relative to record carriers with provision for moving the head for the purpose of maintaining alignment of the head relative to the record carrier during transducing operation, e.g. to compensate for surface irregularities of the latter or for track following for track following on disks
G11B 5/54 - Disposition or mounting of heads relative to record carriers with provision for moving the head into, or out of, its operative position or across tracks
The present disclosure includes barrier devices for use in an apparatus used to form lapping plates. The barrier devices can contain liquid on the surface of the lapping plate platen. The present disclosure also involves related methods.
An apparatus includes a substrate. A laser is deposited above the substrate. The laser includes one or more non-self-supporting layers of crystalline material. The laser has a length along a light path in a range of about 40 um to about 350 um. An optical input coupler is configured to receive light from the laser. A waveguide is deposited proximate the optical input coupler. The waveguide is configured to communicate light from the laser via the optical input coupler to a near-field transducer that directs energy resulting from plasmonic excitation to a recording medium.
An alternate reality, such as virtual reality or augmented reality, environment can experience optimized performance with a data system arranged with an interaction device connected to a virtual reality assembly. Base content and user content can respectively be downloaded and stored to a local data storage of the virtual reality assembly. The content may be utilized to proactively generate comprehensive content that consists of merged aspects of the base content and the user content. The comprehensive content can then be executed to create an immersive digital reality conveyed to a user via the interaction device.
G06F 3/01 - Input arrangements or combined input and output arrangements for interaction between user and computer
G06F 3/04815 - Interaction with a metaphor-based environment or interaction object displayed as three-dimensional, e.g. changing the user viewpoint with respect to the environment or object
G06T 19/00 - Manipulating 3D models or images for computer graphics
Described are heat assisted magnetic read-write heads that include a coupler, a waveguide, a transducer, and appurtenant structures, as well as related methods.
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
G11B 5/012 - Recording on, or reproducing or erasing from, magnetic disks
G02B 6/42 - Coupling light guides with opto-electronic elements
Key rotation verification without decryption is provided. Two ciphertext inputs encrypted from a plaintext input by an encryption function using different cryptographic keys are input, wherein the encryption function is selected from a function family having an output space of one or more convex sets. A divergence between the two ciphertext inputs is computed. A membership oracle is executed on the two ciphertext inputs, wherein the two ciphertext inputs are determined to be members of the same convex set of the one or more convex sets if the computed divergence satisfies a separation condition. The two ciphertext inputs are validated to both correspond to the same plaintext input, responsive to determining that the two ciphertext inputs are members of the same convex set, wherein the two ciphertext inputs do not correspond to the same plaintext input if the two ciphertext inputs are not members of the same convex set.
H04L 9/16 - Arrangements for secret or secure communications; Network security protocols using a plurality of keys or algorithms the keys or algorithms being changed during operation
69.
ELECTRONIC DEVICE THAT INCLUDES A COMPOSITION THAT CAN ACTIVELY GENERATE AND RELEASE A GASEOUS OXIDIZING AGENT COMPONENT INTO AN INTERIOR SPACE OF THE ELECTRONIC DEVICE, AND RELATED SUBASSEMBLIES AND METHODS
The present disclosure relates to electronic devices that include a composition that actively generates a gaseous oxidizing agent component within the interior gas space of the electronic device. The present disclosure also involves related methods.
A slider for use in a disk drive includes a substrate surface to be spaced from recording media surface within the disk drive, at least one read/write transducer having a transducer end surface adjacent and proximate to the substrate surface, a protrusion controller associated with the at least one read/write transducer. The transducer end surface includes a preformed protrusion extending generally in a direction perpendicular to the substrate surface, the protrusion is substantially centered along the transducer end surface, and the protrusion formed to passively provide a consistently-positioned close-point to the recording media surface when the protrusion controller is active.
Generation of randomness (e.g., a random value) using a protocol based on quantum weak coin flipping amongst a plurality of participating parties. The protocol allows computation of the exact initial bias and may include determining a number of rounds of exchange in a quantum weak coin flipping algorithm to achieve a predetermined maximum bias value. In turn, quantum weak coin flipping may be performed in a pair-wise fashion amongst all of the plurality of participating parties. A result of each pair-wise quantum weak coin flipping instance may be shared with another of the plurality of participating parties other than the parties participating in generating the result. In turn, the results of each pair-wise quantum weak coin flipping instance may be combined to provide a random value that may be used as a cryptographic key or as a seed to some cryptographic function.
Cryptographic sharing of a cryptographic secret among multiple parties provides a share of the cryptographic secret is generated for each party. Multiple threshold access structure tokens are generated for each party of the multiple parties. The threshold access structure tokens are generated for a party from one or more random token polynomials selected from a finite field based on the numbers of the multiple parties capable of attempting to reconstruct the cryptographic secret. The share of the cryptographic secret and the multiple threshold access structure tokens generated for each party are distributed to the corresponding party. At least a threshold number of the parties can reconstruct the cryptographic secret using the shares of the cryptographic secret and threshold access structure tokens corresponding to at least a threshold number of the parties attempting to reconstruct the cryptographic secret while less than the threshold number of parties cannot reconstruct the cryptographic secret.
A recording head has a near-field transducer proximate a media-facing surface of the recording head. A waveguide overlaps and delivers light to the near-field transducer, the light having a near-infrared wavelength. Two subwavelength focusing mirrors are at an end of the waveguide proximate the media-facing surface. The subwavelength mirrors are on opposite crosstrack sides of the near-field transducer and separated from a peg of the near-field transducer by a gap. The subwavelength focusing mirrors each include a core having a first edge exposed at the media-facing surface. The core formed of a core material that is resistant to mechanical wear and corrosion, such as a dielectric or robust metal. A liner covers a second edge of the core facing the near-field transducer. The liner includes a plasmonic metal that is has a plasmonic frequency in the ultraviolet range.
An external cavity laser of a recording head includes a channel waveguide that delivers light towards a media-facing surface of the recording head. The laser includes an externally mounted part with an active region having a longitudinal axis corresponding to a light propagation direction of the channel waveguide. The externally mounted part has a reflective back facet and anti-reflective front facet. The laser includes a near-field transducer at an end of the channel waveguide proximate the media facing surface. The reflective back facet and the near-field transducer define a resonator of the external cavity laser.
G11B 11/105 - Recording on, or reproducing from, the same record carrier wherein for these two operations the methods or means are covered by different main groups of groups or by different subgroups of group ; Record carriers therefor using recording by magnetisation or demagnetisation using a beam of light or a magnetic field for recording and a beam of light for reproducing, e.g. light-induced thermomagnetic recording or Kerr effect reproducing
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
A brake crawler assembly configured for vertically moving an arm assembly along a pivot member in a multi-disk hard disk drive is provided. The brake crawler assembly includes a first clamp, including a first recess within which is disposed a first actuator and a first clamp calibration element. The first clamp calibration element includes a first clamp calibration access portion adapted to be accessible externally of the first clamp and adapted to receive a first external adjustment and a first clamp internal compression modifier adapted to modify a force exerted by the first actuator on the first recess, responsive to the received first external adjustment, wherein the first clamp is configured to selectively engage the pivot member at a position along the pivot member relative to at least one disk of the multi-disk hard disk drive based on the modified force exerted.
A data storage system includes a plurality of data storage drives, and a system controller coupled to each data storage drive of the plurality of data storage drives. The system controller is configured to store internal drive management data for each data storage drive of the plurality of data storage drives.
Described are methods for processing microelectronic device substrates by a lapping step, e.g., a final lapping step, wherein the step includes the use of an elastomeric pressure-sensitive adhesive to secure the microelectronic device substrate to a carrier that holds the substrate to a surface of the carrier during the lapping step, and wherein the pressure-sensitive adhesive can be a non-polysilicone based adhesive having mechanical properties that include a tan delta that is below about 0.2.
C09J 133/10 - Homopolymers or copolymers of methacrylic acid esters
H01L 21/683 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components for supporting or gripping
H01L 21/304 - Mechanical treatment, e.g. grinding, polishing, cutting
Apparatus and method for maintaining real-time coherency between a local cache of a target device and a client cache of a source device during execution of a distributed computational function. In some embodiments, a source device, such as a host computer, is coupled via a network interface to a target device, such as a data storage device. A storage compute function (SCF) command is transferred from the source device to the target device. A local cache of the target device accumulates output data during the execution of an associated SCF over an execution time interval. Real-time coherency is maintained between the contents of the local cache and a client cache of the source device, so that the client cache retains continuously updated copies of the contents of the local cache during execution of the SCF. The coherency can be carried out on a time-based granularity or an operational granularity.
A data storage system for use in a high radiation environment includes an array of storage drives. Each storage drive includes a non-radiation-hardened drive controller, a non-radiation-hardened, non-volatile, storage medium, and a non-radiation-hardened volatile memory. The system includes a radiation-hardened storage controller coupled to the array. The radiation-hardened storage controller provides failure-resistant data redundancy among the storage drives of the array and provides host access to the array.
A method for depositing a material from a solution to a surface is provided. The method includes depositing, through a deposition channel of a material depositor, the solution in a rich state to the surface, wherein the solution in the rich state includes an initial concentration of the material, onto a surface, applying a predefined electrical output, by the material depositor, through the deposited solution to adhere the material to the surface, and to yield the solution in a depleted state wherein the solution in the depleted state contains a different concentration of the material from the rich solution, and removing, through a removal channel in the material depositor, the deposited solution in the depleted state. The material depositor includes a hydrophilic region defined by a hydrophilic surface through which the material depositor conducts the depositing and the removing and a hydrophobic barrier circumscribing the hydrophilic region.
A heat-assisted magnetic recording head includes a slider body, a laser, a submount, and a laser heater. The slider body is configured to contain components of the heat-assisted magnetic recording head. The laser is configured to emit electromagnetic radiation. The submount is configured to couple the laser to the slider body. The laser heater is configured to apply heat to the laser. The laser heater disposed on a surface of the slider body.
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 11/105 - Recording on, or reproducing from, the same record carrier wherein for these two operations the methods or means are covered by different main groups of groups or by different subgroups of group ; Record carriers therefor using recording by magnetisation or demagnetisation using a beam of light or a magnetic field for recording and a beam of light for reproducing, e.g. light-induced thermomagnetic recording or Kerr effect reproducing
G11B 5/012 - Recording on, or reproducing or erasing from, magnetic disks
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
G11B 7/126 - Circuits, methods or arrangements for laser control or stabilisation
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 5/60 - Fluid-dynamic spacing of heads from record carriers
82.
Heat-assisted magnetic recording head with nanoparticles
A hard disk drive (HDD) includes a heat-assisted magnetic recording (HAMR) head. The HAMR head includes one or more features comprising a nanoparticle-reinforced plasmonic matrix. The nanoparticle-reinforced plasmonic matrix comprises a plasmonic metal and a plurality of nanoparticles dispersed in the plasmonic metal. The nanoparticles comprise a transparent conductive oxide.
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
A method includes immersing a wafer in an electrolyte including a plurality of compounds having elements of a thermally stable soft magnetic material. The method also includes applying a combined stepped and pulsed current to the wafer when the wafer is immersed in an electrolyte. The wafer is removed from the electrolyte when a layer of the thermally stable soft magnetic material is formed on the wafer.
Described are hard disk drives that include a low density atmosphere, with which is included a passivating gas, and methods of using these hard disk drives and methods of assembling these hard disk drives.
09 - Scientific and electric apparatus and instruments
Goods & Services
computer storage devices, namely, hard drives for computers; data storage devices, namely, hard disk drives, blank digital storage media; digital disk drives; removable hard drive based computer backup systems; docking stations for data storage devices; interfaces for computers; computer hardware for upload, storage, retrieval, download, transmission and delivery of digital content; computer software for use in the synchronization, back-up, playing and encryption and decryption of digital files, including audio, video, text, binary, still images, graphics and multimedia files; computer firmware for data storage, data retrieval, data access, data backup, data replication, data availability, data recovery, data translation and data conversion; Computer software for use in imaging, duplicating and restoring the original factory level instances of hard disk drive, for use in preserving and restoring software programs and information in a computer, for use in performing diagnostics on hard disk drives, for use in connection with computer disk drives for the storage, backup and retrieval of information, for use in connection with data storage, data management and interconnection, and management and operation of data storage devices, for use in back-up of computer hard drive data, back-up of computer networks, and data recovery
86.
Electronic device that includes a composition that can actively generate and release a gaseous oxidizing agent component into an interior space of the electronic device, and related subassemblies and methods
The present disclosure relates to electronic devices that include a composition that actively generates a gaseous oxidizing agent component within the interior gas space of the electronic device. The present disclosure also relates to electronic devices that include a container that includes a gaseous oxidizing agent component in a manner that the gaseous oxidizing component can transfer from the container to the interior gas space of the electronic device. The present disclosure also involves related methods.
A recording head includes one or more transducer elements, and an electrically insulative layer encasing the one or more transducer elements. The recording head also includes a substrate below the electrically insulative layer. The recording head further includes a heat sinking layer between the electrically insulative layer and the substrate.
09 - Scientific and electric apparatus and instruments
Goods & Services
computer storage devices, namely, hard drives for computers; data storage devices, namely, hard disk drives, blank digital storage media; digital disk drives; removable hard drive based computer backup systems; docking stations for data storage devices; interfaces for computers; computer hardware for upload, storage, retrieval, download, transmission and delivery of digital content; computer software for use in the synchronization, back-up, playing and encryption and decryption of digital files, including audio, video, text, binary, still images, graphics and multimedia files; computer firmware for data storage, data retrieval, data access, data backup, data replication, data availability, data recovery, data translation and data conversion; Computer software for use in imaging, duplicating and restoring the original factory level instances of hard disk drive, for use in preserving and restoring software programs and information in a computer, for use in performing diagnostics on hard disk drives, for use in connection with computer disk drives for the storage, backup and retrieval of information, for use in connection with data storage, data management and interconnection, and management and operation of data storage devices, for use in back-up of computer hard drive data, back-up of computer networks, and data recovery
09 - Scientific and electric apparatus and instruments
Goods & Services
computer storage devices, namely, hard drives for computers; data storage devices, namely, hard disk drives, blank digital storage media; digital disk drives; removable hard drive based computer backup systems; docking stations for data storage devices; interfaces for computers; computer hardware for upload, storage, retrieval, download, transmission and delivery of digital content; computer software for use in the synchronization, back-up, playing and encryption and decryption of digital files, including audio, video, text, binary, still images, graphics and multimedia files; computer firmware for data storage, data retrieval, data access, data backup, data replication, data availability, data recovery, data translation and data conversion; Computer software for use in imaging, duplicating and restoring the original factory level instances of hard disk drive, for use in preserving and restoring software programs and information in a computer, for use in performing diagnostics on hard disk drives, for use in connection with computer disk drives for the storage, backup and retrieval of information, for use in connection with data storage, data management and interconnection, and management and operation of data storage devices, for use in back-up of computer hard drive data, back-up of computer networks, and data recovery
Systems and methods are disclosed for an actuator device or actuator control device to implement a low power savings mode. For example, a device can comprise an actuator arm including a first actuator and a second actuator, the second actuator configured to refine a movement of the actuator arm to a more precise position than use of merely the first actuator. A device can also comprise a control system configured to determine when the device is in an idle state and, when the device is in the idle state, disable the second actuator and perform a positional seek operation with the second actuator disabled. Power savings can occur from disabling the second actuator, which may also include disabling associated circuitry, such that it does not consume power or consumes a nominal (e.g., negligible or insignificant) amount of power during the associated seek operation.
G11B 19/04 - Arrangements for preventing, inhibiting, or warning against, double recording on the same blank, or against other recording or reproducing malfunctions
G11B 5/48 - Disposition or mounting of heads relative to record carriers
91.
Increased aerial density capability in storage drives using encoded data portions written to media surfaces with different aerial density capabilities
Optimization of an aerial density capability (ADC) leveraging different qualities of media surfaces to which sub-portions of an encoded data portion are written. That is, data may be encoded to generate an encoded data portion according to a coding scheme. In turn, the encoded data portion may be divided into a plurality of sub-portions, each of which may be written to different media surfaces in a storage drive. The sub-portions may be read from the different media surfaces and combined to generate a recreated encoded data portion that is decoded using the coding scheme. As the encoded data portion is divided into sub-portions, the combined sub-portions may provide different error rates or signal-to-noise ratios that may allow for lower quality sub-portions to be assisted during the decoding process by higher quality sub-portions.
A method comprising the steps of forming a recording head comprising a waveguide, a heat sink and a bleed resistor on a first substrate, is described. The bleed resistor is coupled to the heat sink and the substrate. The top surface of the heat sink is planarized to form a planarized heat sink. A laser diode formed on a second substrate is transfer printed onto the planarized heat sink to form an integrated laser diode.
A clamp for removably holding a slider includes a stationary frame that includes a stationary rear frame member at a rear portion of the frame, extending in a width direction, at least one spring extending in a horizontal plane, and an open space extending in a length direction and the width direction. The open space is defined in the length direction in part by a front contact surface at a forward portion of the clamp adapted to engage one end of the slider, and a rear contact surface at a rear portion of the clamp, and adapted to engage an opposite end of the slider. The spring connects the stationary frame with the front contact surface such that with deflection of the spring the front contact surface is moveable relative to the frame in a direction of a lengthwise axis of the clamp.
G11B 5/455 - Arrangements for functional testing of heads; Measuring arrangements for heads
F16B 2/02 - Clamps, i.e. with gripping action effected by positive means other than the inherent resistance to deformation of the material of the fastening
F16B 2/12 - Clamps, i.e. with gripping action effected by positive means other than the inherent resistance to deformation of the material of the fastening external, i.e. with contracting action using sliding jaws
An apparatus may include a memory device, a memory controller, or both that can communicate via memory standard interfaces. However, the memory device may have physical memory that does not comply with the memory standard by itself. Disclosed herein are solutions that allow various non-standard types of memory, or emerging memory, to be utilized via a host, microprocessor, or memory controller that implements the interface standard. For example, by utilizing a command converter at the microprocessor and a tunneling register at the memory device, a microprocessor can send commands to the memory device by writing them to the tunneling register, which can then be processed at the memory device for operations to be performed with the non-standard or emerging memory.
A method includes generating a first feedforward signal based, at least in part, on a sensor signal. The method further includes generating a second feedforward signal based, at least in part, on a feedforward seek table. A control signal is modified based, at least in part, on the first feedforward signal and the second feedforward signal. A position of an actuator is controlled in response to the modified control signal.
Magnetic recording media with a thermal spin injection layer that induces a spin injection in a magnetic recording layer in response to a thermal gradient in the thermal spin injection layer. The thermal spin injection layer may comprise an antiferromagnetic, a ferromagnetic, or a ferrimagnetic material that demonstrates a Spin Seebeck effect. In turn, when heating the magnetic recording media (e.g., with a near field transducer of a HAMR drive), the thermal gradient may be established in the thermal spin injection layer. A resulting spin torque field may assist in switching a magnetic domain in the magnetic recording layer by providing an assistive field to at least initiate switching of the magnetic domain. In turn, more reliable or efficient operation of a storage drive comprising the magnetic recording media may be realized.
The present disclosure relates to a recording head that includes a write pole extending to a media-facing surface of the recording head; a near-field transducer extending to a media-facing surface of the recording head; a trailing return pole positioned between the write pole and the trailing edge; and a recessed portion that is recessed relative to the media-facing surface by a distance when no power is applied to the recording head. The trailing return pole is located in the recessed portion. The present disclosure also includes relates methods of making and detecting contact between a recording head and recording medium.
G11B 5/00 - Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
G11B 5/31 - Structure or manufacture of heads, e.g. inductive using thin film
G11B 13/08 - Recording simultaneously or selectively by methods or means covered by different main groups; Record carriers therefor; Reproducing simultaneously or selectively therefrom using near-field interactions or transducing means and at least one other method or means for recording or reproducing
98.
A MAGNETIC LAYER OF A MAGNETIC RECORDING DISK, AND RELATED MAGNETIC RECORDING DISKS
The present disclosure relates to magnetic recording disks having a magnetic recording layer that includes a plurality of three-dimensional segregant structures. Each three-dimensional segregant structure extends from a first radius of the recording disk to a second radius of the recording disk, and each three-dimensional segregant structure is made of a first segregant material. The magnetic recording layer also includes a plurality of magnetic grains between adjacent three-dimensional segregant structures, and a second segregant material between adjacent magnetic grains. The present disclosure also relates to corresponding methods of manufacturing such a magnetic recording layer.
G11B 5/66 - Record carriers characterised by the selection of the material comprising only the magnetic material without bonding agent the record carriers consisting of several layers
99.
Data storage drive with dedicated erase transducer
A recording head has a magnetic write transducer having a first crosstrack width operable to write a single track of data at a time to a magnetic disk. The recording head also has a magnetic erase transducer separate from the magnetic write transducer. The magnetic erase transducer has a second crosstrack width operable to simultaneously erase multiple tracks of data from the magnetic disk.
A storage command is received from a client computer. The storage command includes a key associated with a content object that is to be written to two or more storage nodes in response to the command. A virtual address space is used to indicate a storage location of the content object. A virtual address of the virtual address space is assigned to the content object. The content object is redundantly stored the two or more storage nodes at respective two or more device addresses of the respective two or more storage nodes. The two or more device addresses are mapped to the virtual address, and the virtual address is returned to the client computer as a hint.