Patent application number | Description | Published |
20100181600 | Programmable Transistor Array Design Methodology - A method of designing integrated circuits includes providing a first chip and a second chip identical to each other. Each of the first chip and the second chip includes a base layer including a Logic Transistor Unit (LTU) array. The LTU array includes LTUs identical to each other and arranged in rows and columns. The method further includes connecting the base layer of the first chip to form a first application chip; and connecting the base layer of the second chip to form a second application chip different from the first application chip. | 07-22-2010 |
20100182042 | Circuits and Methods for Programmable Transistor Array - A programmable transistor array circuit is disclosed comprising a semiconductor substrate; and a plurality of basic transistor units (BTUs) arranged in rows and columns of uniformly spaced cells, the BTUs further comprising PMOS transistor units (PTUs), NMOS transistor units (NTUs) and dummy transistor units (DTUs) each BTU having conductors arranged in a single direction running through the BTUs and the conductors being uniformly spaced with respect to each other. The arrangement of the BTUs is subject to restricted design rules. Logical transistor units (LTUs) are formed from the BTUs using first and second layers of metallization. Methods for producing integrated circuits are disclosed forming programmable transistor arrays and implementing customer specified system designs upon the programmable transistor arrays. | 07-22-2010 |
20100225002 | Three-Dimensional System-in-Package Architecture - A system and method for making semiconductor die connections with through-silicon vias (TSVs) are disclosed. A semiconductor die is manufactured with both via-first TSVs as well as via-last TSVs in order to establish low resistance paths for die connections between adjacent dies as well as for providing a low resistance path for feedthrough channels between multiple dies. | 09-09-2010 |
20100252934 | Three-Dimensional Semiconductor Architecture - A system and method for making semiconductor die connections with through-silicon vias (TSVs) are disclosed. TSVs are formed through the substrate to allow for signal connections as well as power and ground connections. In one embodiment this allows these connections to be made throughout the substrate instead of on the periphery of the substrate. In another embodiment, the TSVs are used as part of a power matrix to supply power and ground connections to the active devices and metallization layers through the substrate. | 10-07-2010 |
20110001249 | Supplying Power to Integrated Circuits Using a Grid Matrix Formed of Through-Silicon Vias - An integrated circuit structure includes a chip including a substrate and a power distribution network. The power distribution network includes a plurality of power through-silicon vias (TSVs) penetrating the substrate, wherein the plurality of power TSVs forms a grid; and a plurality of metal lines in a bottom metallization layer (M | 01-06-2011 |
20110084365 | Through Silicon Via (TSV) Wire Bond Architecture - A through silicon via architecture for integrated circuits is provided. The integrated circuit (IC) includes a substrate with a top surface and a bottom surface with circuitry formed on the top surface, a plurality of bonding pads formed along a periphery of the bottom surface, and a backside metal layer (BML) formed on the bottom surface and electrically coupled to a second subset of bonding pads in the plurality of bonding pads. A first subset of bonding pads in the plurality of bonding pads is electrically coupled to circuitry on the top surface with through silicon vias (TSV). The BML distributes electrical signals provided by the second subset of bonding pads. | 04-14-2011 |
20120290996 | Supplying Power to Integrated Circuits Using a Grid Matrix Formed of Through-Silicon Vias - An integrated circuit structure includes a chip including a substrate and a power distribution network. The power distribution network includes a plurality of power through-silicon vias (TSVs) penetrating the substrate, wherein the plurality of power TSVs forms a grid; and a plurality of metal lines in a bottom metallization layer (M | 11-15-2012 |
20130088259 | Circuits and Methods for Programmable Transistor Array - A programmable transistor array circuit is disclosed comprising a semiconductor substrate; and a plurality of basic transistor units (BTUs) arranged in rows and columns of uniformly spaced cells, the BTUs further comprising PMOS transistor units (PTUs), NMOS transistor units (NTUs) and dummy transistor units (DTUs) each BTU having conductors arranged in a single direction running through the BTUs and the conductors being uniformly spaced with respect to each other. The arrangement of the BTUs is subject to restricted design rules. Logical transistor units (LTUs) are formed from the BTUs using first and second layers of metallization. Additional embodiments are disclosed incorporating the programmable transistor array circuit. | 04-11-2013 |
20130230985 | Three-Dimensional System-in-Package Architecture - A system and method for making semiconductor die connections with through-silicon vias (TSVs) are disclosed. A semiconductor die is manufactured with both via-first TSVs as well as via-last TSVs in order to establish low resistance paths for die connections between adjacent dies as well as for providing a low resistance path for feedthrough channels between multiple dies. | 09-05-2013 |
20130316530 | Three-Dimensional Semiconductor Architecture - A system and method for making semiconductor die connections with through-silicon vias (TSVs) are disclosed. TSVs are formed through the substrate to allow for signal connections as well as power and ground connections. In one embodiment this allows these connections to be made throughout the substrate instead of on the periphery of the substrate. In another embodiment, the TSVs are used as part of a power matrix to supply power and ground connections to the active devices and metallization layers through the substrate. | 11-28-2013 |
20140264941 | Three-Dimensional Semiconductor Architecture - A system and method for making semiconductor die connections with through-substrate vias are disclosed. Through substrate vias are formed through the substrate to allow for signal connections as well as power and ground connections. In one embodiment the substrate has an interior region and a periphery region surrounding the interior region. A first set of through substrate vias are located within the periphery region, and a second set of through substrate vias are located within the interior region, wherein the second set of through substrate vias are part of a power matrix. The second set of through substrate vias bisect the substrate into a first part and a second part. | 09-18-2014 |