Patent application number | Description | Published |
20080265931 | On-chip electromigration monitoring - A method is provided for monitoring interconnect resistance within a semiconductor chip assembly. A semiconductor chip assembly can include a semiconductor chip having contacts exposed at a surface of the semiconductor chip and a substrate having exposed terminals in conductive communication with the contacts. A plurality of monitored elements of the semiconductor chip can include conductive interconnects, each interconnecting a respective pair of nodes of the semiconductor chip through wiring within the semiconductor chip. In an example of such method, a voltage drop across each monitored element is compared with a reference voltage drop across a respective reference element on the semiconductor chip at a plurality of different times during a lifetime of the semiconductor chip assembly. In that way, it can be detected when a resistance of such monitored element is over threshold. Based on a result of such comparison, a decision can be made whether to indicate an action condition. | 10-30-2008 |
20080266984 | Programmable Heavy-Ion Sensing Device for Accelerated DRAM Soft Error Detection - Aspects of the invention relate to a programmable heavy-ion sensing device for accelerated DRAM soft error detection. Design of a DRAM-based alpha particle sensing apparatus is preferred to be used as an accelerated on-chip SER test vehicle. The sensing apparatus is provided with programmable sensing margin, refresh rate, and supply voltage to achieve various degree of SER sensitivity. In addition, a dual-mode DRAM array is proposed so that at least a portion of the array can be used to monitor high-energy particle activities during soft-error detection (SED) mode. | 10-30-2008 |
20080273393 | Programmable Heavy-Ion Sensing Device for Accelerated Dram Soft Error Detection - Aspects of the invention relate to a programmable heavy-ion sensing device for accelerated DRAM soft error detection. Design of a DRAM-based alpha particle sensing apparatus is preferred to be used as an accelerated on-chip SER test vehicle. The sensing apparatus is provided with programmable sensing margin, refresh rate, and supply voltage to achieve various degree of SER sensitivity. In addition, a dual-mode DRAM array is proposed so that at least a portion of the array can be used to monitor high-energy particle activities during soft-error detection (SED) mode. | 11-06-2008 |
20080280399 | Methods for Forming Co-Planar Wafer-Scale Chip Packages - Economical methods for forming a co-planar multi-chip wafer-level packages are proposed. Partial wafer bonding and partial wafer dicing techniques are used to create chips as well as pockets. The finished chips are then mounted in the corresponding pockets of a carrier substrate, and global interconnects among the chips are formed on the top planar surface of the finished chips. The proposed methods facilitate the integration of chips fabricated with different process steps and materials. There is no need to use a planarization process such as chemical-mechanical polish to planarize the top surfaces of the chips. Since the chips are precisely aligned to each other and all the chips are mounted facing up, the module is ready for global wiring, which eliminates the need to flip the chips from an upside-down position. | 11-13-2008 |
20080296728 | SEMICONDUCTOR STRUCTURE FOR FUSE AND ANTI-FUSE APPLICATIONS - A fuse/anti-fuse structure is provided in which programming of the anti-fuse is caused by an electromigation induced hillock that is formed adjacent to the fuse element. The hillock ruptures a thin diffusion barrier located on the sidewalls of the fuse element and the conductive material within the fuse element diffuses into the adjacent dielectric material. The fuse element includes a conductive material located within a line opening which includes a first diffusion barrier having a first thickness located on sidewalls and a bottom wall of the line opening. The anti-fuse element includes the conductive material located within a combined via and line opening which includes the first diffusion barrier located on sidewalls and a bottom wall of the combined via and line opening and a second diffusion barrier having a second thickness that is greater than the first thickness located on the first diffusion barrier. | 12-04-2008 |
20080316930 | Robust Cable Connectivity Test Receiver For High-Speed Data Receiver - A system is provided for detecting a fault in a signal transmission path. In one embodiment, the system can include a variable amplitude signal attenuator which is operable to modify an input signal by variably attenuating a signal voltage swing of the input signal. Desirably, the input signal is attenuated only when transitioning from a high signal voltage level towards a low signal voltage level d variably, such that a larger high-to-low signal voltage swing is attenuated more than a smaller high-to-low signal voltage swing. Desirably, a comparator, which may apply hysteresis to the output signals, may detect a crossing of a reference voltage level by the modified input signal. In this way, when the comparator does not detect an expected crossing of the reference voltage level by the modified input signal, a determination can be made that a fault exists in the signal transmission path. | 12-25-2008 |
20090004978 | TRANSMITTER BANDWIDTH OPTIMIZATION CIRCUIT - A method is provided for operating a transmitter integrated in a microelectronic element. In a calibration phase, a plurality of operational parameters are stored for controlling a frequency response of the transmitter under each of a plurality of corresponding operating conditions. Upon detecting an operating condition such as a temperature or power supply voltage level, the corresponding stored operational parameter is applied to the transmitter to control the frequency response. | 01-01-2009 |
20090020891 | Methods to Achieve Precision Alignment for Wafter Scale Packages - Methods for manufacturing an integrated wafer scale package that reduces a potential misalignment between a chip and a pocket of a carrier substrate. According to one aspect of the present invention, a method for manufacturing a semiconductor device includes a photoresist layer disposed on a carrier substrate, a chip placed onto a surface of the photoresist layer. The photoresist layer is patterned using the chip as a mask. The chip is removed from the photoresist layer after the patterning step. A pocket is formed in the carrier substrate, and the chip that was removed is placed into the pocket formed in the carrier substrate. | 01-22-2009 |
20090111257 | Techniques for Impeding Reverse Engineering - Anti-reverse engineering techniques are provided. In one aspect, a method for forming at least one feature in an insulating layer is provided. The method comprises the following steps. Ions are selectively implanted in the insulating layer so as to form at least one implant region within the insulating layer, the implanted ions being configured to alter an etch rate through the insulating layer within the implant region. The insulating layer is etched to, at the same time, form at least one void both within the implant region and outside of the implant region, wherein the etch rate through the insulating layer within the implant region is different from an etch rate through the insulating layer outside of the implant region. The void is filled with at least one conductor material to form the feature in the insulating layer. | 04-30-2009 |
20090117360 | SELF-ASSEMBLED MATERIAL PATTERN TRANSFER CONTRAST ENHANCEMENT - A non-photosensitive polymeric resist containing at least two immiscible polymeric block components is deposited on the planar surface. The non-photosensitive polymeric resist is annealed to allow phase separation of immiscible components and developed to remove at least one of the at least two polymeric block components. Nanoscale features, i.e., features of nanometer scale, including at least one recessed region having a nanoscale dimension is formed in the polymeric resist. The top surface of the polymeric resist is modified for enhanced etch resistance by an exposure to an energetic beam, which allows the top surface of the patterned polymeric resist to become more resistant to etching processes and chemistries. The enhanced ratio of etch resistance between the two types of surfaces provides improved image contrast and fidelity between areas having the top surface and the at least one recessed region. | 05-07-2009 |
20090128161 | Structure for robust cable connectivity test receiver for high-speed data receiver - A design structure embodied in a machine-readable medium used in a design process may include a system for detecting a fault in a signal transmission path. Such system may include, for example, a hysteresis comparator including a latch having n-type field effect transistor (“NFET”) storage elements. The hysteresis comparator may be operable to detect a crossing of a reference voltage level by an input signal arriving from the signal transmission path such that when the comparator does not detect an expected crossing of the reference voltage level by the input signal, the fault is determined to be detected in the signal transmission path. | 05-21-2009 |
20090129485 | Structure for transmitter bandwidth optimization circuit - A design structure embodied in a machine-readable medium used in a design process provides a transmitter having a frequency response controllable in accordance with an operational parameter, and may include a storage operable to store operational parameters for controlling a frequency response of the transmitter under each of a plurality of corresponding operating conditions. A sensor can be used to detect an operating condition. In response to a change in the detected operating condition, a stored operational parameter corresponding to the detected operating condition can be used to control the frequency response of the transmitter. | 05-21-2009 |
20090132985 | Design structure for on-chip electromigration monitoring system - A design structure embodied in a machine readable medium used in a design process can include apparatus of a semiconductor chip operable to detect an increase in resistance of a monitored element of the semiconductor chip. The design structure can include, for example, a resistive voltage divider circuit operable to output a plurality of reference voltages having different values. A plurality of comparators in the semiconductor chip may be coupled to receive the reference voltages and a monitored voltage representative of a resistance of the monitored element. Each of the comparators may produce an output indicating whether the monitored voltage exceeds the reference voltages, so that the resistance value of the monitored element may be precisely determined. | 05-21-2009 |
20090146692 | Structure for apparatus for reduced loading of signal transmission elements - A design structure for a signal-handing apparatus or communication apparatus is provided which includes a common signal node operable to conduct a first signal, a first circuit coupled to the common signal node to utilize the first signal and a signal-handling element coupled to the common signal node. A signal-handling apparatus may include an isolating circuit coupled to a first conductor, a second conductor to conduct an output of the isolating circuit, and a signal-handling circuit coupled to the second conductor. A signal-handling circuit can perform a signal-handling function in response to the output of the isolating circuit. The signal-handling circuit and the first circuit may be isolated from the second conductor and the signal-handling circuit such that a communication signal may be conducted with less capacitance and be subject to less return loss. | 06-11-2009 |
20090212341 | SEMITUBULAR METAL-OXIDE-SEMICONDUCTOR FIELD EFFECT TRANSISTOR - An epitaxial semiconductor layer or a stack of a silicon germanium alloy layer and an epitaxial strained silicon layer is formed on outer sidewalls of a porous silicon portion on a substrate. The porous silicon portion and any silicon germanium alloy material are removed and a semitubular epitaxial semiconductor structure in a three-walled configuration is formed. A semitubular field effect transistor comprising inner and outer gate dielectric layers, an inner gate electrode, an outer gate electrode, and source and drain regions is formed on the semitubular epitaxial semiconductor structure. The semitubular field effect transistor may operate as an SOI transistor with a tighter channel control through the inner and outer gate electrodes, or as a memory device storing electrical charges in the body region within the semitubular epitaxial semiconductor structure. | 08-27-2009 |
20090217961 | Integrated Thermoelectric Cooling Devices and Methods for Fabricating Same - Semiconductor integrated thermoelectric devices are provided, which are formed having high-density arrays of thermoelectric (TE) elements using semiconductor thin-film and VLSI (very large scale integration) fabrication processes. Thermoelectric devices can be either separately formed and bonded to semiconductor chips, or integrally formed within the non-active surface of semiconductor chips, for example. | 09-03-2009 |
20090231025 | Method and Apparatus for Extending the Lifetime of a Semiconductor Chip - A circuit and a method for extending the lifetime of a semiconductor chip. The circuit including a voltage reference generator, a voltage switch, a threshold voltage regulator device and a threshold voltage monitor device tunes an automatic internal power supply. The voltage reference generator provides one or more reference voltage levels that are transmitted to the voltage switch. The threshold voltage monitor device monitors the threshold voltage of the device, triggering the voltage switch to select a reference level for use as a voltage reference for the regulator when the threshold voltage of the monitored device exceeds a predetermined value. The regulator then converts the external power supply to an internal supply and holds it at the predetermined reference level. | 09-17-2009 |
20090273988 | CIRCUIT AND METHODS TO IMPROVE THE OPERATION OF SOI DEVICES - According to the present invention, a circuit and methods for enhancing the operation of SOI fabricated devices are disclosed. In a preferred embodiment of the present invention, a pulse discharge circuit is provided. Here, a circuit is designed to provide a pulse that will discharge the accumulated electrical charge on the body of the SOI devices in the memory subarray just prior to the first access cycle. As explained above, once the accumulated charge has been dissipated, the speed penalty for successive accesses to the memory subarray is eliminated or greatly reduced. With a proper control signal, timing and sizing, this can be a very effective method to solve the problem associated with the SOI loading effect. Alternatively, instead of connecting the bodies of all SOI devices in a memory circuit to ground, the bodies of the N-channel FET pull-down devices of the local word line drivers can be selectively connected to a reference ground. This would enable the circuit to retain most of the speed advantages associated with SOI devices while overcoming the loading problem described above. With this preferred embodiment of the present invention, the major delay caused by the bipolar loading effect is minimized while the speed advantage due to providing a lower, variable V | 11-05-2009 |
20090278228 | DESIGN STRUCTURE FOR INTERCONNECT STRUCTURE CONTAINING VARIOUS CAPPING MATERIALS FOR ELECTRICAL FUSE AND OTHER RELATED APPLICATIONS - A design structure is provided for interconnect structures containing various capping materials for electrical fuses and other related applications. The structure includes a first interconnect structure having a first interfacial structure and a second interconnect structure adjacent to the first structure. The second interconnect structure has second interfacial structure different from the first interfacial structure. | 11-12-2009 |
20090278260 | REDUNDANCY DESIGN WITH ELECTRO-MIGRATION IMMUNITY AND METHOD OF MANUFACTURE - An IC interconnect for high direct current (DC) that is substantially immune to electro-migration (EM) damage, a design structure of the IC interconnect and a method of manufacture of the IC interconnect is provided. The structure has electro-migration immunity and redundancy of design, which includes a plurality of wires laid out in parallel and each of which are coated with a liner material. Two adjacent of the wires are physically contacted to each other. | 11-12-2009 |
20090280636 | METHODS OF FABRICATING INTERCONNECT STRUCTURES CONTAINING VARIOUS CAPPING MATERIALS FOR ELECTRICAL FUSE AND OTHER RELATED APPLICATIONS - Methods are provided for fabricating interconnect structures containing various capping materials for electrical fuses and other related applications. The method includes forming a first interconnect structure having a first interfacial structure and forming a second interconnect structure adjacent to the first structure. The second interconnect structure is formed with a second interfacial structure different from the first interfacial structure of the first interconnect structure. | 11-12-2009 |
20100001253 | Method for delineation of phase change memory cell via film resistivity modification - A PCM cell structure comprises a first electrode, a phase change element, and a second electrode, wherein the phase change element is inserted in between the first electrode and the second electrode and only the peripheral edge of the first electrode contacts the phase change element thereby reducing the contact area between the phase change element and the first electrode and thereby increasing the current density through the phase change element and effectively inducing the phase change at lower levels of current and reduced programming power. | 01-07-2010 |
20100052034 | FLASH MEMORY GATE STRUCTURE FOR WIDENED LITHOGRAPHY WINDOW - A first portion of a semiconductor substrate belonging to a flash memory device region is recessed to a recess depth to form a recessed region, while a second portion of the semiconductor substrate belonging to a logic device region is protected with a masking layer. A first gate dielectric layer and a first gate conductor layer formed within the recessed region such that the first gate conductive layer is substantially coplanar with the top surfaces of the shallow trench isolation structures. A second gate dielectric layer, a second gate conductor layer, and a gate cap hard mask layer, each having a planar top surface, is subsequently patterned. The pattern of the gate structure in the flash memory device region is transferred into the first gate conductor layer and the first gate dielectric layer to form a floating gate and a first gate dielectric, respectively. | 03-04-2010 |
20100225380 | Implementing Tamper Resistant Integrated Circuit Chips - A method and tamper resistant circuit for resisting tampering including reverse engineering in a semiconductor chip, and a design structure on which the subject circuit resides are provided. A sensing device for detecting a chip tampering state is formed with the semiconductor chip including the circuitry to be protected. A tamper resistant control signal generator is coupled to the sensing unit for generating a tamper resistant control signal responsive to a detected chip tampering state. A functional operation inhibit circuit is coupled to the tamper resistant control signal generator for inhibiting functional operation of the circuitry to be protected responsive to the tamper resistant control signal. | 09-09-2010 |
20110019321 | LEAKAGE SENSOR AND SWITCH DEVICE FOR DEEP-TRENCH CAPACITOR ARRAY - A high-density deep trench capacitor array with a plurality of leakage sensors and switch devices. Each capacitor array further comprises a plurality of sub-arrays, wherein the leakage in each sub-array is independently controlled by a sensor and switch unit. The leakage sensor comprises a current mirror, a transimpedance amplifier, a voltage comparator, and a timer. If excessive leakage current is detected, the switch unit will automatically disconnect the leaky capacitor module to reduce stand-by power and improve yield. An optional solid-state resistor can be formed on top of the deep trench capacitor array to increase the temperature and speed up the leakage screening process. | 01-27-2011 |
20110031633 | AIR CHANNEL INTERCONNECTS FOR 3-D INTEGRATION - A three-dimensional (3D) chip stack structure and method of fabricating the structure thereof are provided. The 3D chip stack structure includes a plurality of vertically stacked chips which are interconnected and bonded together, wherein each of the vertically stacked chips include one or more IC device strata. The 3D chip stack structure further includes an air channel interconnect network embedded within the chip stack structure, and wherein the air channel interconnect network is formed in between at least two wafers bonded to each other of the vertically stacked wafers and in between at least two bonded wafers of the vertically stacked wafers at a bonding interface thereof. In addition, the 3D chip stack structure further includes one or more openings in a peripheral region of the chip stack structure that lead into and out of the air channel interconnect network, so that air can flow into and out of the air channel interconnect network through the one or more openings to remove heat from the chip stack structure. | 02-10-2011 |
20110169127 | STRUCTURE FOR INTERCONNECT STRUCTURE CONTAINING VARIOUS CAPPING MATERIALS FOR ELECTRICAL FUSE AND OTHER RELATED APPLICATIONS - A design structure is provided for interconnect structures containing various capping materials for electrical fuses and other related applications. The structure includes a first interconnect structure having a first interfacial structure and a second interconnect structure adjacent to the first structure. The second interconnect structure has second interfacial structure different from the first interfacial structure. | 07-14-2011 |
20110254121 | PROGRAMMABLE ANTI-FUSE STRUCTURES WITH CONDUCTIVE MATERIAL ISLANDS - Voltage programmable anti-fuse structures and methods are provided that include at least one conductive material island atop a dielectric surface that is located between two adjacent conductive features. In one embodiment, the anti-fuse structure includes a dielectric material having at least two adjacent conductive features embedded therein. At least one conductive material island is located on an upper surface of the dielectric material that is located between the at least two adjacent conductive features. A dielectric capping layer is located on exposed surfaces of the dielectric material, the at least one conductive material island and the at least two adjacent conductive features. When the anti-fuse structure is in a programmed state, a dielectric breakdown path is present in the dielectric material that is located beneath the at least one conductive material island which conducts electrical current to electrically couple the two adjacent conductive features. | 10-20-2011 |
20110256720 | Techniques for Impeding Reverse Engineering - Anti-reverse engineering techniques are provided. In one aspect, a method for forming at least one feature in an insulating layer is provided. The method comprises the following steps. Ions are selectively implanted in the insulating layer so as to form at least one implant region within the insulating layer, the implanted ions being configured to alter an etch rate through the insulating layer within the implant region. The insulating layer is etched to, at the same time, form at least one void both within the implant region and outside of the implant region, wherein the etch rate through the insulating layer within the implant region is different from an etch rate through the insulating layer outside of the implant region. The void is filled with at least one conductor material to form the feature in the insulating layer. | 10-20-2011 |
20120091593 | STRUCTURE AND METHOD FOR SIMULTANEOUSLY FORMING A THROUGH SILICON VIA AND A DEEP TRENCH STRUCTURE - A through silicon via (TSV) and a deep trench capacitor (DTCap) or a deep trench isolation (DTI) are simultaneously formed on the same substrate by a single mask and a single reactive ion etching (RIE). The TSV trench is wider and deeper that the DTCap or DTI trench. The TSV and DTCap or DTI are formed with different dielectric materials on the trench sidewalls. The TSV and DTCap or DTI are perfectly aligned. | 04-19-2012 |
20120161334 | REDUNDANCY DESIGN WITH ELECTRO-MIGRATION IMMUNITY AND METHOD OF MANUFACTURE - An IC interconnect for high direct current (DC) that is substantially immune to electro-migration (EM) damage, and a method of manufacture of the IC interconnect are provided. A structure includes a cluster-of-via structure at an intersection between inter-level wires. The cluster-of-via structure includes a plurality of vias each of which are filled with a metal and lined with a liner material. At least two adjacent of the vias are in contact with one another and the plurality of vias lowers current loading between the inter-level wires. | 06-28-2012 |
20120188002 | MODULARIZED THREE-DIMENSIONAL CAPACITOR ARRAY - A modularized capacitor array includes a plurality of capacitor modules. Each capacitor module includes a capacitor and a switching device that is configured to electrically disconnect the capacitor. The switching device includes a sensing unit configured to detect the level of leakage of the capacitor so that the switching device disconnects the capacitor electrically if the leakage current exceeds a predetermined level. Each capacitor module can include a single capacitor plate, two capacitor plates, or more than two capacitor plates. The leakage sensors and switching devices are employed to electrically disconnect any capacitor module of the capacitor array that becomes leaky, thereby protecting the capacitor array from excessive electrical leakage. | 07-26-2012 |
20120225549 | REDUNDANCY DESIGN WITH ELECTRO-MIGRATION IMMUNITY AND METHOD OF MANUFACTURE - An IC interconnect for high direct current (DC) that is substantially immune to electro-migration (EM) damage, and a method of manufacture of the IC interconnect are provided. A structure includes a cluster-of-via structure at an intersection between inter-level wires. The cluster-of-via structure includes a plurality of vias each of which are filled with a metal and lined with a liner material. At least two adjacent of the vias are in contact with one another and the plurality of vias lowers current loading between the inter-level wires. | 09-06-2012 |
20120261794 | DESIGN STRUCTURE FOR INTERCONNECT STRUCTURE CONTAINING VARIOUS CAPPING MATERIALS FOR ELECTRICAL FUSE AND OTHER RELATED APPLICATIONS - A design structure is provided for interconnect structures containing various capping materials for electrical fuses and other related applications. The structure includes a first interconnect structure having a first interfacial structure and a second interconnect structure adjacent to the first structure. The second interconnect structure has second interfacial structure different from the first interfacial structure. | 10-18-2012 |
20130168807 | INTERCONNECT STRUCTURE CONTAINING VARIOUS CAPPING MATERIALS FOR ELECTRICAL FUSE AND OTHER RELATED APPLICATIONS, AND DESIGN STRUCTURE THEREOF - A structure and design structure is provided for interconnect structures containing various capping materials for electrical fuses and other related applications. The structure includes a first interconnect structure having a first interfacial structure and a second interconnect structure adjacent to the first structure. The second interconnect structure has second interfacial structure different from the first interfacial structure. | 07-04-2013 |
20130241034 | Simultaneously Forming A Through Silicon Via and a Deep Trench Structure - A through silicon via (TSV) and a deep trench capacitor (DTCap) or a deep trench isolation (DTI) are simultaneously formed on the same substrate by a single mask and a single reactive ion etching (RIE). The TSV trench is wider and deeper that the DTCap or DTI trench. The TSV and DTCap or DTI are formed with different dielectric materials on the trench sidewalls. The TSV and DTCap or DTI are perfectly aligned. | 09-19-2013 |
20130260530 | MODULARIZED THREE-DIMENSIONAL CAPACITOR ARRAY - A modularized capacitor array includes a plurality of capacitor modules. Each capacitor module includes a capacitor and a switching device that is configured to electrically disconnect the capacitor. The switching device includes a sensing unit configured to detect the level of leakage of the capacitor so that the switching device disconnects the capacitor electrically if the leakage current exceeds a predetermined level. Each capacitor module can include a single capacitor plate, two capacitor plates, or more than two capacitor plates. The leakage sensors and switching devices are employed to electrically disconnect any capacitor module of the capacitor array that becomes leaky, thereby protecting the capacitor array from excessive electrical leakage. | 10-03-2013 |
20140332929 | FORMING SEMICONDUCTOR CHIP CONNECTIONS - Various embodiments include semiconductor structures. In one embodiment, the semiconductor structure includes a chip having a body having a polyhedron shape with a pair of opposing sides; and a solder member extending along a side that extends between the pair of opposing sides of the polyhedron shape. | 11-13-2014 |