Patent application number | Description | Published |
20090079056 | LARGE SUBSTRATE STRUCTURAL VIAS - An electronic package and methods by which the package reduces thermal fatigue failure of conductors in the electronic package. The electronic package includes a carrier substrate having first and second surfaces and a plurality of anchor vias having a via material extending from the first surface toward the second surface. The electronic package includes a first conducting layer having a length and a width extending laterally in two dimensions across a major part of the first surface of the carrier substrate. The anchor vias have plural attachments along the length and the width of the first conducting layer to secure the first conducting layer to the carrier substrate. | 03-26-2009 |
20090079058 | Semiconductor substrate elastomeric stack - A reconfigurable high performance computer occupies less than 360 cubic inches and has an approximate compute power of 0.7 teraflops per second while consuming less than 1000 watts. The computer includes a novel stack of semiconductor substrate assemblies. Some semiconductor substrate assemblies involve field programmable gate array (FPGA) dice that are directly surface mounted, as bare die, to a semiconductor substrate. Other semiconductor substrate assemblies of the stack involve bare memory integrated circuit dice that are directly surface mounted to a semiconductor substrate. Elastomeric connectors interconnect adjacent semiconductor substrates proceeding down the stack. Tines of novel comb-shaped power bus bar assembly structures extend into the stack to supply DC supply voltages. The supply voltages are supplied from bus bars, through vias in the semiconductor substrates, and to the integrated circuits on the other side of the substrates. The power bus bars also serve as capacitors and guides for liquid coolant. | 03-26-2009 |
20090079059 | Integrated semiconductor substrate structure using incompatible processes - A plurality of FPGA dice is disposed upon a semiconductor substrate. In order both to connect thousands of signal interconnect lines between the plurality of FPGA dice and to supply the immense power required, it is desired that the substrate construction include two different portions, each manufactured using incompatible processes. The first portion is a signal interconnect structure containing a thin conductor layers portion characterized as having a plurality of thin, fine-pitch conductors. The second portion is a power connection structure that includes thick conductors and vertical through-holes. The through-holes contain conductive material and supply power to the FPGA dice from power bus bars located at the other side of the semiconductor substrate. The portions are joined at the wafer level by polishing the wafer surfaces within a few atoms of flatness and subsequent cleaning. The portions are then fusion bonded together or combined using an adhesive material. | 03-26-2009 |
20090079084 | Preventing breakage of long metal signal conductors on semiconductor substrates - An apparatus includes a volume of insulator disposed over a top surface of a semiconductor substrate, a tube of soft dielectric, and a metal conductor. The insulator has a hardness of more than approximately three gigapascals (gPa) and the soft dielectric has a hardness of less than three gPa. The tube of soft dielectric and the metal conductor are both embedded within the volume of insulator. The tube defines a central volume and the metal conductor extends in a direction through the central volume for a distance of at least one inch. The metal conductor is encircled by the soft dielectric when the apparatus is viewed in a cross-sectional plane perpendicular to the direction. The metal conductor may include a plurality of bend portions. The metal conductor does not break when the apparatus is temperature cycled over a range from zero to eighty five degrees Celsius. | 03-26-2009 |
20090079463 | Local defect memories on semiconductor substrates in a stack computer - A reconfigurable high performance computer includes a stack of semiconductor substrate assemblies (SSAs). Some SSAs involve FPGA dice that are surface mounted, as bare dice, to a semiconductor substrate. Other SSAs involve memory dice that are surface mounted to a semiconductor substrate. Elastomeric connectors are sandwiched between, and interconnect, adjacent semiconductor substrates proceeding down the stack. Each SSA includes a local defect memory and a self-test mechanism. The self-test mechanism periodically tests the SSA and its interconnects, and stores resulting defect information into its local defect memory. The computer is configured to realize a user design and then is run. A defect is then detected. If the defect is determined to be inma part of the computer used in the realization of user design, then the computer is reconfigured not to use the defective part and running of the computer is resumed, otherwise the computer resumes running without reconfiguration. | 03-26-2009 |
20090080152 | Stackable self-aligning insulative guide tray for holding semiconductor substrates - A reconfigurable high performance computer includes a stack of self-aligning, injection-molded plastic, insulative guide trays. Each insulative guide tray retains at least one semiconductor substrate assembly (SSA) in a lateral dimension with respect to a set of elastomeric connectors. The trays hold the SSAs and the elastomeric connectors such that the elastomeric connectors are sandwiched between, and interconnect, adjacent semiconductor substrates proceeding down the stack. The trays also hold comb-shaped power bus bar assemblies such that power bus bars contact and supply power to circuitry of the SSAs of the stack. | 03-26-2009 |
20090080158 | Comb-shaped power bus bar assembly structure having integrated capacitors - A reconfigurable high performance computer occupies less than 360 cubic inches and has an approximate compute power of 0.7 teraflops per second while consuming less than 1000 watts. The computer includes a novel stack of semiconductor substrate assemblies. Some semiconductor substrate assemblies involve field programmable gate array (FPGA) dice that are directly surface mounted, as bare die, to a semiconductor substrate. Other semiconductor substrate assemblies of the stack involve bare memory integrated circuit dice that are directly surface mounted to a semiconductor substrate. Elastomeric connectors interconnect adjacent semiconductor substrates proceeding down the stack. Tines of novel comb-shaped power bus bar assembly structures extend into the stack to supply DC supply voltages. The supply voltages are supplied from bus bars, through vias in the semiconductor substrates, and to the integrated circuits on the other side of the substrates. The power bus bars also serve as capacitors and guides for liquid coolant. | 03-26-2009 |
20100200540 | Large substrate structural vias - An electronic package and methods by which the package reduces thermal fatigue failure of conductors in the electronic package. The electronic package includes a carrier substrate having first and second surfaces and a plurality of anchor vias having a via material extending from the first surface toward the second surface. The electronic package includes a first conducting layer having a length and a width extending laterally in two dimensions across a major part of the first surface of the carrier substrate. The anchor vias have plural attachments along the length and the width of the first conducting layer to secure the first conducting layer to the carrier substrate. | 08-12-2010 |
20130009322 | Through-Substrate Via Having a Strip-Shaped Through-Hole Signal Conductor - A TSV structure suitable for high speed signal transmission includes a metal strip portion that extends through a long and small diameter hole in a substrate. In one example, the metal strip portion is formed by laser ablating away portions of a metal sheath that lines a cylindrical sidewall of the hole, thereby leaving a longitudinal section of metal that is the metal strip portion. A second metal strip portion, that extends in a direction perpendicular to the hole axis, is contiguous with the metal strip portion that extends through the hole such that the two metal strip portions together form a single metal strip. Throughout its length, the single metal strip has a uniform width and thickness and therefore can have a controlled and uniform impedance. In some embodiments, multiple metal strips pass through the same TSV hole. In some embodiments, the structure is a coaxial TSV. | 01-10-2013 |