Patents by Inventor Gian Sharma
Gian Sharma has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20190206463Abstract: A magnetic device, according to one approach, includes: a plurality of perpendicular magnetic tunnel junction (p-MTJ) cells, each p-MTJ cell having a transistor and a magnetic tunnel junction (MTJ) sensor. Moreover, each of the transistors includes a drain terminal, a source terminal, and a gate terminal. The magnetic device also includes: a first common word line coupled to the gate terminal of each transistor in a first subset of the plurality of p-MTJ cells, a first common bit line coupled to a first end of each MTJ sensor in a second subset of the plurality of p-MTJ cells, and a first common source line coupled to the drain terminal of each transistor in the first subset. A second end of each of the MTJ sensors in the second subset is coupled to the source terminal of each respective transistor in the second subset.Type: ApplicationFiled: December 29, 2017Publication date: July 4, 2019Inventors: Kuk-Hwan Kim, Dafna Beery, Gian Sharma, Marcin Gajek, Kadriye Deniz Bozdag, Girish Jagtiani, Eric Michael Ryan, Michail Tzoufras, Amitay Levi, Andrew J. Walker
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Publication number: 20190206938Abstract: A switching device, according to one embodiment, includes: a cylindrical pillar gate contact, an annular cylindrical channel which encircles a portion of the cylindrical pillar gate contact, an annular cylindrical oxide layer which encircles a portion of the annular cylindrical channel, and a source contact tab which encircles a portion of the annular cylindrical channel toward a first end of the annular cylindrical channel. Other systems are also described in additional embodiments herein which provide various different switching devices having improved components including improved annular cylindrical channel structures, improved source contacts, and/or improved cylindrical pillar gate contacts. These improved systems and components thereof may be implemented in vertical annular transistor structures in comparison to conventional surface transistor structures.Type: ApplicationFiled: December 29, 2017Publication date: July 4, 2019Inventors: Gian Sharma, Amitay Levi, Andrew J. Walker, Kuk-Hwan Kim, Dafna Beery
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Patent number: 10319424Abstract: The various implementations described herein include methods, devices, and systems for performing operations on memory devices. In one aspect, a memory device includes: (1) a magnetic memory component; and (2) a current selector component coupled to the magnetic memory component, the current selector component including: (a) a first transistor having a first gate with a corresponding first threshold voltage; and (b) a second transistor having a second gate with a corresponding second threshold voltage, distinct from the first threshold voltage; where the second transistor is coupled in parallel with the first transistor.Type: GrantFiled: January 8, 2018Date of Patent: June 11, 2019Assignee: SPIN MEMORY, INC.Inventors: Kuk-Hwan Kim, Gian Sharma, Amitay Levi
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Patent number: 10192789Abstract: A device having two transistors with dual thresholds, and a method of fabricating the device, including fabricating a silicide source, a conductive layer, and contacts to a plurality of layers of the device, is provided. The device has a core and a plurality of layers that surround the core in succession, including a first layer, a second layer, a third layer, and a fourth layer. The device further comprises a first input terminal coupled to the core, the first input terminal being configured to receive a first voltage and a second input terminal coupled to the fourth layer, the second input terminal being configured to receive a second voltage. The device comprises a common source terminal coupled to the core and the fourth layer. A memory device, such as an MTJ, may be coupled to the device.Type: GrantFiled: January 8, 2018Date of Patent: January 29, 2019Assignee: SPIN TRANSFER TECHNOLOGIESInventors: Gian Sharma, Amitay Levi, Kuk-Hwan Kim
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Patent number: 10192787Abstract: A device having two transistors with dual thresholds, and a method of fabricating the device, including fabricating a silicide source, a conductive layer, and contacts to a plurality of layers of the device, is provided. The device has a core and a plurality of layers that surround the core in succession, including a first layer, a second layer, a third layer, and a fourth layer. The device further comprises a first input terminal coupled to the core, the first input terminal being configured to receive a first voltage and a second input terminal coupled to the fourth layer, the second input terminal being configured to receive a second voltage. The device comprises a common source terminal coupled to the core and the fourth layer. A memory device, such as an MTJ, may be coupled to the device.Type: GrantFiled: January 8, 2018Date of Patent: January 29, 2019Assignee: SPIN TRANSFER TECHNOLOGIESInventors: Gian Sharma, Amitay Levi, Kuk-Hwan Kim
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Patent number: 10192788Abstract: A device having two transistors with dual thresholds, and a method of fabricating the device, including fabricating a silicide source, a conductive layer, and contacts to a plurality of layers of the device, is provided. The device has a core and a plurality of layers that surround the core in succession, including a first layer, a second layer, a third layer, and a fourth layer. The device further comprises a first input terminal coupled to the core, the first input terminal being configured to receive a first voltage and a second input terminal coupled to the fourth layer, the second input terminal being configured to receive a second voltage. The device comprises a common source terminal coupled to the core and the fourth layer. A memory device, such as an MTJ, may be coupled to the device.Type: GrantFiled: January 8, 2018Date of Patent: January 29, 2019Assignee: SPIN TRANSFER TECHNOLOGIESInventors: Gian Sharma, Amitay Levi, Kuk-Hwan Kim
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Patent number: 10192984Abstract: A device having two transistors with dual thresholds, and a method of fabricating the device, including fabricating a silicide source, a conductive layer, and contacts to a plurality of layers of the device, is provided. The device has a core and a plurality of layers that surround the core in succession, including a first layer, a second layer, a third layer, and a fourth layer. The device further comprises a first input terminal coupled to the core, the first input terminal being configured to receive a first voltage and a second input terminal coupled to the fourth layer, the second input terminal being configured to receive a second voltage. The device comprises a common source terminal coupled to the core and the fourth layer. A memory device, such as an MTJ, may be coupled to the device.Type: GrantFiled: January 8, 2018Date of Patent: January 29, 2019Assignee: SPIN TRANSFER TECHNOLOGIESInventors: Gian Sharma, Amitay Levi, Kuk-Hwan Kim
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Patent number: 10186551Abstract: In one embodiment, an apparatus includes lower electrodes positioned below a surface of a substrate, the substrate including crystalline Si, a plurality of strap regions positioned above the lower electrodes and below sets of pillars of Si, the pillars rising above the substrate, the sets of pillars being aligned in a first direction along a plane perpendicular to a film thickness direction, and the strap regions extending above a surface of the substrate, silicide junctions positioned between each of the strap regions and a corresponding lower electrode positioned therebelow, upper electrodes positioned above each of the pillars, gate dielectric layers positioned on sides of the pillars to a height greater than a lower edge of the upper electrodes, and gate layers positioned on sides of the gate dielectric layers in a second direction along the plane and perpendicular to the first direction that transverse a plurality of sets of pillars.Type: GrantFiled: January 8, 2018Date of Patent: January 22, 2019Assignee: Spin Transfer Technologies, Inc.Inventors: Kuk-Hwan Kim, Dafna Beery, Gian Sharma, Amitay Levi, Andrew J. Walker
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Patent number: 6969687Abstract: A method of CMP planarizing a silicon dioxide layer on a silicon nitride in the semiconductor die is disclosed. A wafer has a plurality substantially identical semiconductor dies defined on the wafer. Each of the dies is separated from one another by a scribe line. A layer of silicon nitride is formed on the planar surface of the wafer where the silicon nitride has a top surface which is substantially parallel to the planar surface. A layer of silicon dioxide is deposited on the top surface with the silicon dioxide varying in height above the top surface. A mask is formed across the wafer, including on the scribe line, where the mask has a plurality of locations with each location having a differing density of gap-to-pillar ratio, which is proportional to the height of the silicon dioxide above the top surface. The silicon dioxide is anisotropically etched through each gap of the mask across the entire wafer where each gap is etched by the same amount in the height direction.Type: GrantFiled: January 21, 2004Date of Patent: November 29, 2005Assignee: Silicon Storage Technology, Inc.Inventors: Amitay Levi, Gian Sharma
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Publication number: 20040152397Abstract: A method of CMP planarizing a silicon dioxide layer on a silicon nitride in the semiconductor die is disclosed. A wafer has a plurality substantially identical semiconductor dies defined on the wafer. Each of the dies is separated from one another by a scribe line. A layer of silicon nitride is formed on the planar surface of the wafer where the silicon nitride has a top surface which is substantially parallel to the planar surface. A layer of silicon dioxide is deposited on the top surface with the silicon dioxide varying in height above the top surface. A mask is formed across the wafer, including on the scribe line, where the mask has a plurality of locations with each location having a differing density of gap-to-pillar ratio, which is proportional to the height of the silicon dioxide above the top surface. The silicon dioxide is anisotropically etched through each gap of the mask across the entire wafer where each gap is etched by the same amount in the height direction.Type: ApplicationFiled: January 21, 2004Publication date: August 5, 2004Applicant: Silicon Storage Technology, Inc.Inventors: Amitay Levi, Gian Sharma
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Patent number: 6756284Abstract: A first method of forming a sublithographic opening in a first layer of a first material begins by creating a lithographic opening on the first layer with the lithographic opening being over the location of the desired sublithographic opening. The first material in the first layer is partially removed from the lithographic opening. A sacrificial layer of the same material as the first layer is conformally deposited to fit the contour of the first layer, including over the lithographic opening. The resultant structure is anisotropically etched to etch the sacrificial layer as well as the first layer to form the sublithographic opening within the lithographic opening. A second method to form a sublithographic opening is to deposit a sacrificial layer such as polysilicon. A lithographic opening is created in the sacrificial layer with the lithographic opening being positioned over the location of the desired sublithographic opening. The sacrificial material is removed from the lithographic opening.Type: GrantFiled: September 18, 2002Date of Patent: June 29, 2004Assignee: Silicon Storage Technology, Inc.Inventor: Gian Sharma
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Publication number: 20040053475Abstract: A first method of forming a sublithographic opening in a first layer of a first material begins by creating a lithographic opening on the first layer with the lithographic opening being over the location of the desired sublithographic opening. The first material in the first layer is partially removed from the lithographic opening. A sacrificial layer of the same material as the first layer is conformally deposited to fit the contour of the first layer, including over the lithographic opening. The resultant structure is anisotropically etched to etch the sacrificial layer as well as the first layer to form the sublithographic opening within the lithographic opening. A second method to form a sublithographic opening is to deposit a sacrificial layer such as polysilicon. A lithographic opening is created in the sacrificial layer with the lithographic opening being positioned over the location of the desired sublithographic opening. The sacrificial material is removed from the lithographic opening.Type: ApplicationFiled: September 18, 2002Publication date: March 18, 2004Inventor: Gian Sharma
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Patent number: 6703318Abstract: A method of CMP planarizing a silicon dioxide layer on a silicon nitride in the semiconductor die is disclosed. A wafer has a plurality substantially identical semiconductor dies defined on the wafer. Each of the dies is separated from one another by a scribe line. A layer of silicon nitride is formed on the planar surface of the wafer where the silicon nitride has a top surface which is substantially parallel to the planar surface. A layer of silicon dioxide is deposited on the top surface with the silicon dioxide varying in height above the top surface. A mask is formed across the wafer, including on the scribe line, where the mask has a plurality of locations with each location having a differing density of gap-to-pillar ratio, which is proportional to the height of the silicon dioxide above the top surface. The silicon dioxide is anisotropically etched through each gap of the mask across the entire wafer where each gap is etched by the same amount in the height direction.Type: GrantFiled: April 25, 2003Date of Patent: March 9, 2004Assignee: Silicon Storage Technology, Inc.Inventors: Amitay Levi, Gian Sharma
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Patent number: 6699772Abstract: A method for creating a trench for high voltage isolation begins by forming a trench in the substrate having sidewalls and a bottom surface. Spacers are formed along the sidewalls of a trench with the spacers partially covering the bottom surface. A barrier layer is formed on the portion of the bottom surface not covered by the spacers. The spacers are then removed, exposing the bottom surface not covered by the barrier layer. The bottom surface is then further etched to create a second deeper trench which has sidewalls and bottom surface. An insulating layer is then conformally deposited to cover the surface of the substrate including filling the first and second trenches.Type: GrantFiled: September 18, 2002Date of Patent: March 2, 2004Inventor: Gian Sharma