Patent application number | Description | Published |
20100072553 | METAL GATE STRESS FILM FOR MOBILITY ENHANCEMENT IN FinFET DEVICE - A CMOS FinFET semiconductor device provides an NMOS FinFET device that includes a compressive stress metal gate layer over semiconductor fins and a PMOS FinFET device that includes a tensile stress metal gate layer over semiconductor fins. A process for forming the same includes a selective annealing process that selectively converts a compressive metal gate film formed over the PMOS device to the tensile stress metal gate film. | 03-25-2010 |
20110049613 | ACCUMULATION TYPE FINFET, CIRCUITS AND FABRICATION METHOD THEREOF - A FinFET includes a substrate and a fin structure on the substrate. The fin structure includes a channel between a source and a drain, wherein the source, the drain, and the channel have the first type dopant. The channel includes a Ge, SiGe, or III-V semiconductor. A gate dielectric layer is located over the channel and a gate is located over the gate dielectric layer. | 03-03-2011 |
20110227188 | INTEGRATED CIRCUITS INCLUDING DUMMY STRUCTURES AND METHODS OF FORMING THE SAME - An integrated circuit includes a core area. The core area has at least one edge region and a plurality of transistors disposed in the edge region. A plurality of dummy structures are disposed outside the core area and adjacent to the at least one edge region. Each channel of the transistors in a channel width direction faces at least one of the dummy structures. | 09-22-2011 |
20110282478 | FINFET BOUNDARY OPTIMIZATION - A method for generating a layout for a semiconductor device is disclosed. The method includes: receiving a first layout. A portion of the first layout is defined as a first FinFET region. The first FinFET region has first and second sides that each extend approximately in a first direction. The method includes performing a first design rule check (DRC) simulation. The method includes obtaining a first DRC simulation result. The method includes defining a second FinFET region by moving the first side in a second direction perpendicular to the first direction. The method includes performing a second DRC simulation. The method includes obtaining a second DRC simulation result. The method includes selecting one of the first and second FinFET regions based on the first and second DRC simulation results. The method includes generating a second layout using the selected FinFET region. | 11-17-2011 |
20110283245 | AUTOMATIC LAYOUT CONVERSION FOR FINFET DEVICE - A method for generating a layout for a FinFET device is disclosed. The method includes receiving an initial layout containing an active region that has an edge extending in a first direction. The method includes designating a portion of the layout as a first region. The first region contains the active region. The method includes designating an elongate portion of the first region as a second region that extends in the first direction. The method includes designating a different elongate portion of the first region as a third region that extends in the first direction and that is adjacent to the second region in a second direction perpendicular to the first direction. The method includes enlarging the active region if the edge of the active region falls inside the third region, and shrinking the active region if the edge of the active region falls outside the third region. | 11-17-2011 |
20120012932 | FIN-LIKE FIELD EFFECT TRANSISTOR (FINFET) DEVICE AND METHOD OF MANUFACTURING SAME - A FinFET device and method for fabricating a FinFET device is disclosed. An exemplary FinFET device includes a semiconductor substrate; a fin structure disposed over the semiconductor substrate; and a gate structure disposed on a portion of the fin structure. The gate structure traverses the fin structure and separates a source region and a drain region of the fin structure, the source and drain region defining a channel therebetween. The source and drain region of the fin structure include a strained source and drain feature. The strained source feature and the strained drain feature each include: a first portion having a first width and a first depth; and a second portion disposed below the first portion, the second portion having a second width and a second depth. The first width is greater than the second width, and the first depth is less than the second depth. | 01-19-2012 |
20120124528 | METHOD AND DEVICE FOR INCREASING FIN DEVICE DENSITY FOR UNALIGNED FINS - A method for generating a layout for a device having FinFETs from a first layout for a device having planar transistors is disclosed. A plurality of elongate mandrels is defined in a plurality of active regions. Where adjacent active regions are partially-parallel and within a specified minimum spacing, connective elements are added to a portion of the space between the adjacent active regions to connect the mandrel ends from one active region to another active region. | 05-17-2012 |
20120126325 | METHOD FOR ADJUSTING FIN WIDTH IN INTEGRATED CIRCUITRY - A method includes growing a plurality of parallel mandrels on a surface of a semiconductor substrate, each mandrel having at least two laterally opposite sidewalls and a predetermined width. The method further includes forming a first type of spacers on the sidewalls of the mandrels, wherein the first type of spacers between two adjacent mandrels are separated by a gap. The predetermined mandrel width is adjusted to close the gap between the adjacent first type of spacers to form a second type of spacers. The mandrels are removed to form a first type of fins from the first type of spacers, and to form a second type of fins from spacers between two adjacent mandrels. The second type of fins are wider than the first type of fins. | 05-24-2012 |
20120126326 | DEVICE AND METHOD FOR FORMING FINS IN INTEGRATED CIRCUITRY - A semiconductor FinFET device includes a plurality of gate lines formed in a first direction, and two types of fin structures. A first type of fin structures is formed in a second direction, and a second type of fin structures formed perpendicular to the first type of fin structures. A contact hole couples to one or more of the second type of fin structures. | 05-24-2012 |
20120126375 | METHOD FOR FORMING METROLOGY STRUCTURES FROM FINS IN INTEGRATED CIRCUITRY - A method for forming a plurality of fins on a semiconductor substrate includes depositing a spacer layer to fill in gaps between the plurality of fins, the fins comprising a first material and the spacer layer comprising a second material. A first area is defined where the fins need to be broadened and a second area is defined where the fins do not need to be broadened. The method also includes patterning the spacer layer to remove spacers in the first area where the fins need to be broadened and applying an epitaxy process at a predetermined rate to grow a layer of the first material on fins in the first area. The spacer layer is removed in the second area where the fins do not need broadening. | 05-24-2012 |
20120273899 | SYSTEM AND METHODS FOR CONVERTING PLANAR DESIGN TO FINFET DESIGN - A method for generating a layout for a device having FinFETs from a first layout for a device having planar transistors is disclosed. The planar layout is analyzed and corresponding FinFET structures are generated in a matching fashion. The resulting FinFET structures are then optimized. Dummy patterns and a new metal layer may be generated before the FinFET layout is verified and outputted. | 11-01-2012 |
20120278776 | SYSTEM AND METHODS FOR CONVERTING PLANAR DESIGN TO FINFET DESIGN - A method for generating a layout for a device having FinFETs from a first layout for a device having planar transistors is disclosed. The planar layout is analyzed and corresponding FinFET structures are generated. | 11-01-2012 |
20120278777 | SYSTEM AND METHODS FOR CONVERTING PLANAR DESIGN TO FINFET DESIGN - A method for generating a layout for a device having FinFETs from a first layout for a device having planar transistors is disclosed. The planar layout is analyzed and corresponding FinFET structures are generated in a matching fashion. The resulting FinFET structures are then optimized. Dummy patterns and a new metal layer may be generated before the FinFET layout is verified and outputted. | 11-01-2012 |
20120278781 | SYSTEM AND METHODS FOR CONVERTING PLANAR DESIGN TO FINFET DESIGN - A method for generating a layout for a device having FinFETs from a first layout for a device having planar transistors is disclosed. The planar layout is analyzed and corresponding FinFET structures are generated in a matching fashion. The resulting FinFET structures are then optimized. Dummy patterns and a new metal layer may be generated before the FinFET layout is verified and outputted. | 11-01-2012 |
20120306002 | ACCUMULATION TYPE FINFET, CIRCUITS AND FABRICATION METHOD THEREOF - This description relates to a fin field-effect-transistor (FinFET) including a substrate and a fin structure on the substrate. The fin structure includes a channel between a source and a drain, wherein the source, the drain, and the channel have a first type dopant, and the channel comprises at least one of a Ge, SiGe, or III-V semiconductor. The FinFET further includes a gate dielectric layer over the channel and a gate over the gate dielectric layer. The FinFET further includes a nitride spacer on the substrate adjacent the gate and an oxide layer between the nitride spacer and the gate and between the nitride spacer and the substrate. | 12-06-2012 |
20130019219 | SYSTEM AND METHOD FOR HIERARCHY RECONSTRUCTION FROM FLATTENED GRAPHIC DATABASE SYSTEM LAYOUTAANM Chen; Shu-YuAACI Hsinchu CityAACO TWAAGP Chen; Shu-Yu Hsinchu City TWAANM Lin; Yi-TangAACI Hsinchu CityAACO TWAAGP Lin; Yi-Tang Hsinchu City TWAANM Lei; Cheok-KeiAACI AndarAACO MOAAGP Lei; Cheok-Kei Andar MOAANM Chen; Hsiao-HuiAACI Hsinchu CityAACO TWAAGP Chen; Hsiao-Hui Hsinchu City TWAANM Chang; Yu-NingAACI Hsinchu CityAACO TWAAGP Chang; Yu-Ning Hsinchu City TWAANM Wann; HsingjenAACI CarmelAAST NYAACO USAAGP Wann; Hsingjen Carmel NY USAANM Chang; Chih-ShengAACI HsinchuAACO TWAAGP Chang; Chih-Sheng Hsinchu TWAANM Chen; Chien-WenAACI Hsinchu CityAACO TWAAGP Chen; Chien-Wen Hsinchu City TW - System and method for hierarchy reconstruction from a flattened layout are described. In one embodiment, a method for producing a reconstructed layout for an integrated circuit design from an original layout and a revised layout includes, for each pattern of the original layout, determining a pattern of the revised layout that corresponds to the pattern of the original layout; and assigning the corresponding pattern of the revised layout to a temporary instance, the temporary instance corresponding to an instance of the pattern of the original layout and citing to a temporary cell. The method further includes creating a temporary reconstructed layout from the temporary instances; and producing the reconstructed layout from the temporary reconstructed layout, wherein a hierarchy of the reconstructed layout is similar to a hierarchy of the original layout. | 01-17-2013 |
20130093026 | SELECTIVE FIN-SHAPING PROCESS USING PLASMA DOPING AND ETCHING FOR 3-DIMENSIONAL TRANSISTOR APPLICATIONS - A semiconductor apparatus includes fin field-effect transistor (FinFETs) having shaped fins and regular fins. Shaped fins have top portions that may be smaller, larger, thinner, or shorter than top portions of regular fins. The bottom portions of shaped fins and regular fins are the same. FinFETs may have only one or more shaped fins, one or more regular fins, or a mixture of shaped fins and regular fins. A semiconductor manufacturing process to shape one fin includes forming a photolithographic opening of one fin, optionally doping a portion of the fin, and etching a portion of the fin. | 04-18-2013 |
20130119482 | FIN FIELD EFFECT TRANSISTORS AND METHODS FOR FABRICATING THE SAME - The disclosure relates to a Fin field effect transistor (FinFET). An exemplary structure for a FinFET comprises a substrate comprising a top surface; a first fin and a second fin extending above the substrate top surface, wherein each of the fins has a top surface and sidewalls; an insulation layer between the first and second fins extending part way up the fins from the substrate top surface; a first gate dielectric covering the top surface and sidewalls of the first fin having a first thickness and a second gate dielectric covering the top surface and sidewalls of the second fin having a second thickness less than the first thickness; and a conductive gate strip traversing over both the first gate dielectric and second gate dielectric. | 05-16-2013 |
20130174103 | MANDREL MODIFICATION FOR ACHIEVING SINGLE FIN FIN-LIKE FIELD EFFECT TRANSISTOR (FINFET) DEVICE - Methods for forming a single fin fin-like field effect transistor (FinFET) device are disclosed. An exemplary method includes providing a main mask layout and a trim mask layout to form fins of a fin-like field effect transistor (FinFET) device, wherein the main mask layout includes a first masking feature and the trim mask layout includes a second masking feature that defines at least two fins, the first masking feature and the second masking feature having a spatial relationship; and modifying the main mask layout based on the spatial relationship between the first masking feature and the second masking feature, wherein the modifying the main mask layout includes modifying the first masking feature such that a single fin FinFET device is formed using the modified main mask layout and the trim mask layout. | 07-04-2013 |
20140013288 | METHOD AND DEVICE FOR INCREASING FIN DEVICE DENSITY FOR UNALIGNED FINS - A method of generating a layout for a device includes receiving a first layout including a plurality of active regions, each active region of the plurality of active regions having sides. The method further includes defining a plurality of elongate mandrels that each extend in a first direction and are spaced apart from one another in a second direction perpendicular to the first direction. The method further includes for each adjacent pair of partially-parallel active regions of the plurality of active regions having a minimum distance less than a specified minimum spacing, connecting at least a portion of nearest ends of pairs of elongate mandrels, each mandrel of a pair from a different active region. The method further includes generating a second layout including a plurality of elongate mandrels in the plurality of active regions, and connective elements between active regions of at least one adjacent pair of active regions. | 01-09-2014 |
20140215420 | SYSTEM AND METHODS FOR CONVERTING PLANAR DESIGN TO FINFET DESIGN - A method and layout generating machine for generating a layout for a device having FinFETs from a first layout for a device having planar transistors are disclosed. A planar layout with a plurality of FinFET active areas is received and corresponding FinFET active areas are generated with active area widths. Mandrels are generated according to the active area widths and adjusted such that a beta ratio of a beta number for each FinFET active area to a beta number for each corresponding planar active area is within a predetermined beta ratio range. | 07-31-2014 |
20140331193 | METHOD AND DEVICE FOR INCREASING FIN DEVICE DENSITY FOR UNALIGNED FINS - A semiconductor manufacturing method of generating a layout for a device includes defining a first plurality of mandrels in a first active region of a first layout. Each mandrel of the first plurality of mandrels extends in a first direction and being spaced apart in a second direction perpendicular to the first direction. The method further includes defining a second plurality of mandrels in a second active region of the first layout. Each mandrel of the second plurality of mandrels extends in the first direction and being spaced apart in the second direction. An edge of the first active region is spaced from an edge of the second active region by a minimum distance less than a specified minimum spacing. The method further includes connecting, using a layout generator, at least one mandrel of the first plurality of mandrels to a corresponding mandrel of the second plurality of mandrels. | 11-06-2014 |
20140332904 | SYSTEM AND METHODS FOR CONVERTING PLANAR DESIGN TO FINFET DESIGN - A FinFET structure layout includes a semiconductor substrate comprising a plurality of FinFET active areas, and a plurality of fins within each FinFET active area of the plurality of FinFET active areas. The FinFET structure layout further includes a gate having a gate length parallel to the semiconductor substrate and perpendicular to length of the plurality of fins within each FinFET active area of the plurality of FinFET active areas. The FinFET structure layout further includes a plurality of metal features connecting a source region or a drain region of a portion of the plurality of FinFET active areas to a plurality of contacts. The plurality of metal features includes a plurality of metal lines parallel to a FinFET channel direction and a plurality of metal lines parallel to a FinFET channel width direction. | 11-13-2014 |
20150031182 | METHOD OF MANUFACTURING A FIN-LIKE FIELD EFFECT TRANSISTOR (FINFET) DEVICE - A FinFET device and method for fabricating a FinFET device is disclosed. An exemplary FinFET device includes a semiconductor substrate; a fin structure disposed over the semiconductor substrate; and a gate structure disposed over a portion of the fin structure. The gate structure traverses the fin structure and separates a source region and a drain region of the fin structure, the source and drain region defining a channel therebetween. The source and drain region of the fin structure include a strained source and drain feature. The strained source feature and the strained drain feature each include: a first portion having a first width and a first depth; and a second portion disposed below the first portion, the second portion having a second width and a second depth. The first width is greater than the second width, and the first depth is less than the second depth. | 01-29-2015 |
20150060959 | Eliminating Fin Mismatch Using Isolation Last - An embodiment fin field-effect transistor (FinFET) includes an inner fin, and outer fin spaced apart from the inner fin by a shallow trench isolation (STI) region, an isolation fin spaced apart from the outer fin by the STI region, the isolation fin including a body portion, an isolation oxide, and an etch stop layer, the etch stop layer interposed between the body portion and the isolation oxide and between the STI region and the isolation oxide, and a gate formed over the inner fin, the outer fin, and the isolation fin. | 03-05-2015 |