Patent application number | Description | Published |
20090020849 | ELECTRONIC DEVICE INCLUDING A CAPACITOR AND A PROCESS OF FORMING THE SAME - An electronic device can include electronic components and an insulating layer overlying the electronic components. The electronic device can also include a capacitor overlying the insulating layer, wherein the capacitor includes a first electrode and a second electrode. The second electrode can include an opening, wherein from a top view, a defect lies within the opening. In another aspect, a process of forming an electronic device can include forming a first capacitor electrode layer over a substrate, forming a dielectric layer over the first capacitor electrode layer, and forming a second capacitor electrode layer over the dielectric layer. The process can also include detecting a defect and removing a first portion of the second capacitor electrode layer corresponding to the defect, wherein a second portion of the second capacitor electrode layer remains over the dielectric layer. | 01-22-2009 |
20100112779 | METHOD AND APPARATUS FOR INDICATING DIRECTIONALITY IN INTEGRATED CIRCUIT MANUFACTURING - An integrated circuit includes a visually discernable indicator formed as part of the integrated circuit to indicate a directionality of a non-visually discernable characteristic of the integrated circuit. | 05-06-2010 |
20110269300 | Integrated Assist Features for Epitaxial Growth - A method for making a semiconductor device is provided which comprises (a) creating a data set ( | 11-03-2011 |
20130105986 | SEMICONDUCTOR DEVICE WITH VIAS ON A BRIDGE CONNECTING TWO BUSES | 05-02-2013 |
20130147051 | METHOD OF PROTECTING AGAINST VIA FAILURE AND STRUCTURE THEREFOR - A method is for forming a decoy via and a functional via. The method includes forming the functional via between a metal portion of a first interconnect layer and a portion of a second interconnect layer. The method further includes forming the decoy via in a protection region between the metal portion of the first interconnect layer and a metal portion of the third interconnect level. | 06-13-2013 |
20130264698 | SEMICONDUCTOR DEVICE WITH HEAT DISSIPATION - A semiconductor assembly includes a semiconductor device and a connecting structure. The semiconductor device includes an interconnect region over a semiconductor substrate and a pillar layer having a plurality of pillar contacts on the interconnect region. The pillar layer also includes a plurality of radial heat conductors that have at least a portion overlying a heat source that is within and overlies the semiconductor substrate. Each radial heat conductor extends a length radially from the heat source that is at least twice as great as the diameter of the pillars. The connecting structure includes a connecting substrate that supports a first corresponding pillar contact that is in contact with a first pillar contact of the plurality of pillar contacts. The first connecting structure further includes a heat conductor, supported by the substrate, in contact with a first radial heat conductor of the plurality of radial heat conductors. | 10-10-2013 |
20130264700 | SEMICONDUCTOR DEVICE WITH EMBEDDED HEAT SPREADING - A semiconductor device includes a semiconductor substrate and a plurality of clock drivers, wherein the plurality of clock drivers comprises substantially all clock drivers of the semiconductor device, and an interconnect region over the semiconductor substrate, wherein the interconnect region comprises a plurality of heat spreaders, wherein at least 25% of the plurality of clock drivers have a corresponding heat spreader of the plurality of heat spreaders. Each corresponding heat spreader of the plurality of heat spreaders covers at least 50% of a transistor within a corresponding clock driver of the plurality of clock drivers and extends across at least 70% of a perimeter of the transistor within the corresponding clock driver. | 10-10-2013 |
20130305202 | MISMATCH VERIFICATION DEVICE AND METHODS THEREOF - A method can include identifying a device design comprising first and second instantiations of a device, identifying a layer of the device design, identifying a first region of the device design for the first instantiation based on the layer of the first instantiation, and a second region of the device design for the second instantiation based on the layer of the second instantiation. identifying a first compare layer of the device design that comprises a plurality of first compare features including a first compared feature within the first region and a second compared feature within the second region, determining a difference between the first compared feature and the second compared feature, and determining if the difference meets a tolerance to determine if the first instantiation matches the second instantiation. | 11-14-2013 |
20130326446 | TECHNIQUES FOR CHECKING COMPUTER-AIDED DESIGN LAYERS OF A DEVICE TO REDUCE THE OCCURRENCE OF MISSING DECK RULES - A technique for computer-aided design layer checking of an integrated circuit design includes generating a representation of a device (e.g., a parameterized cell). Computer-aided design (CAD) layers are sequentially removed from the parameterized cell and a determination is made as to whether expected errors are detected or missed by an associated deck. The associated deck is then modified to detect the expected errors that are missed. | 12-05-2013 |
20140038317 | METHOD FOR FORMING AN ELECTRICAL CONNECTION BETWEEN METAL LAYERS - A method forms an electrical connection between a first metal layer and a second metal layer. The second metal layer is above the first metal layer. A first via is formed between the first metal layer and the second metal layer. A first measure of a number of vacancies expected to reach the first via is obtained. A second via in at least one of the first metal layer and the second metal layer is formed if the measure of vacancies exceeds a first predetermined number. | 02-06-2014 |
20140038319 | METHOD FOR FORMING AN ELECTRICAL CONNECTION BETWEEN METAL LAYERS - A method includes forming a connection between a first metal layer and a second metal layer. The second metal layer is over the first metal layer. A via location for a first via between the first metal layer and the second metal layer is identified. Additional locations for first additional vias are determined. The first additional vias are determined to be necessary for stress migration issues. Additional locations necessary for second additional vias are determined. The second additional vias are determined to be necessary for electromigration issues. The first via and the one of the group consisting of (i) the first additional vias and second additional vias (ii) the first additional vias plus a number of vias sufficient for electromigration issues taking into account that the first additional vias, after taking into account the stress migration issues, still have an effective via number greater than zero. | 02-06-2014 |
20140040839 | METHOD AND SYSTEM FOR DERIVED LAYER CHECKING FOR SEMICONDUCTOR DEVICE DESIGN - A system and method are provided for enabling a systematic detection of issues arising during the course of mask generation for a semiconductor device. IC mask layer descriptions are analyzed and information is generated that identifies devices formed by active layers in the masks, along with a description of all layers in proximity to the found devices. The IC mask information is compared to a netlist file generated from the initial as-designed schematic. Determinations can then made, for example, as to whether all intended devices are present, any conflicting layers are in proximity to or interacting with the intended devices, and any unintended devices are present in the mask layers. Steps can then be taken to resolve the issues presented by the problematic devices. | 02-06-2014 |
20140094029 | METHOD FOR FORMING AN ELECTRICAL CONNECTION BETWEEN METAL LAYERS - A method includes forming a connection between a first metal layer and a second metal layer. The second metal layer is over the first metal layer. A via location for a first via between the first metal layer and the second metal layer is identified. Additional locations for first additional vias are determined. The first additional vias are determined to be necessary for stress migration issues. Additional locations necessary for second additional vias are determined. The second additional vias are determined to be necessary for electromigration issues. The first via and the one of the group consisting of (i) the first additional vias and second additional vias (ii) the first additional vias plus a number of vias sufficient for electromigration issues taking into account that the first additional vias, after taking into account the stress migration issues, still have an effective via number greater than zero. | 04-03-2014 |
20140239440 | Thin Beam Deposited Fuse - A back-end-of-line thin ion beam deposited fuse ( | 08-28-2014 |
20140258582 | SEMICONDUCTOR DEVICE WITH VIAS ON A BRIDGE CONNECTING TWO BUSES - A semiconductor device comprises conductive buses and conductive bridges. A respective conductive bridge is conductively coupled to at least two portions of at least one of the conductive buses. At least N plus one (N+1) vias are coupled between every one of the conductive bridges and a respective feature in an integrated circuit when: (1) a width of the respective conductive bridge is less than a width of each of the at least two portions of the at least one of the conductive buses to which the respective conductive bridge is coupled, and (2) a distance along the respective conductive bridge and at least one of the vias is less than a critical distance. N is a number of conductive couplings between the respective one of the conductive bridges and the at least one of the conductive buses. | 09-11-2014 |
20140329383 | SEMICONDUCTOR DEVICE WITH EMBEDDED HEAT SPREADING - A semiconductor device includes a semiconductor substrate and a plurality of clock drivers, wherein the plurality of clock drivers comprises substantially all clock drivers of the semiconductor device, and an interconnect region over the semiconductor substrate, wherein the interconnect region comprises a plurality of heat spreaders, wherein at least 25% of the plurality of clock drivers have a corresponding heat spreader of the plurality of heat spreaders. Each corresponding heat spreader of the plurality of heat spreaders covers at least 50% of a transistor within a corresponding clock driver of the plurality of clock drivers and extends across at least 70% of a perimeter of the transistor within the corresponding clock driver. | 11-06-2014 |
20140353797 | FUSE/RESISTOR UTILIZING INTERCONNECT AND VIAS AND METHOD OF MAKING - A semiconductor structure comprising a fuse/resistor structure over a functional layer having a substrate. The fuse/resistor structure includes a via, a first interconnect layer, and a second interconnect layer. The via is over the functional layer and has a first end and a second end vertically opposite the first end, wherein the first end is bounded by a first edge and a second edge opposite the first edge and the second end is bounded by a third edge and a fourth edge opposite the third edge. The first interconnect layer includes a first metal layer running horizontally and contacting the first end and completely extending from the first edge to the second edge. The second interconnect layer includes a second metal layer running horizontally and contacting the second end of the via and extending past the third edge but reaching less than half way to the fourth edge. | 12-04-2014 |
20140353841 | METHOD FOR FORMING AN ELECTRICAL CONNECTION BETWEEN METAL LAYERS - A method of making a semiconductor device having a substrate includes forming a first interconnect layer over the substrate, wherein a first metal portion of a first metal type is within the first interconnect layer and has a first via interface location. An interlayer dielectric is formed over the first interconnect layer. An opening in the interlayer dielectric is formed over the via interface location of the first metal portion. A second interconnect layer is formed over the interlayer dielectric. A second metal portion and a via of the first metal type is within the second interconnect layer. The via is formed in the opening to form an electrical contact between the first metal portion and the second metal portion. The via is over the first via interface location. A first implant of the first metal type is aligned to the first via interface location. | 12-04-2014 |
20150035151 | Capping Layer Interface Interruption for Stress Migration Mitigation - A semiconductor device includes a substrate, a dielectric layer supported by the substrate, an interconnect adjacent the dielectric layer, the interconnect including a conduction material and a barrier material disposed along sidewalls of the interconnect between the conduction material and the dielectric layer, and a layer disposed over the interconnect to establish an interface between the conduction material, the barrier material, and the layer. A plate is disposed along a section of the interconnect to interrupt the interface. | 02-05-2015 |
20150040092 | Stress Migration Mitigation - A computer-implemented method of configuring a semiconductor device includes identifying an interconnect having an interconnect path length greater than a stress-induced void formation characteristic length of the semiconductor device, and placing, with a processor, a conductive structure adjacent the interconnect to define a pair of segments of the interconnect. Each segment has a length no greater than the stress-induced void formation characteristic length of the interconnect, and the conductive structure is selected from the group consisting of a decoy via connected to the interconnect, a floating tile disposed along the interconnect, a tab that laterally extends outward from the interconnect, and a jumper from a first metal layer in which the interconnect is disposed to a second metal layer. | 02-05-2015 |