Patent•
System comprising a semiconductor device and structure
19 Aug 2010-
TL;DR: In this article, a system includes a semiconductor device consisting of a first single crystal silicon layer comprising first transistors, first alignment marks, and at least one metal layer overlying the first single-crystalline silicon layer.
Abstract: A system includes a semiconductor device. The semiconductor device includes a first single crystal silicon layer comprising first transistors, first alignment marks, and at least one metal layer overlying the first single crystal silicon layer, wherein the at least one metal layer comprises copper or aluminum more than other materials; and a second single crystal silicon layer overlying the at least one metal layer. The second single crystal silicon layer comprises a plurality of second transistors arranged in substantially parallel bands. Each of a plurality of the bands comprises a portion of the second transistors along an axis in a repeating pattern.
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Patent•
28 Jun 2011
TL;DR: In this paper, a first layer and a second layer of layer-transferred mono-crystallized silicon, where the first layer comprises a first plurality of horizontally-oriented transistors, and the second layer includes a second plurality of vertically oriented transistors.
Abstract: A device comprising semiconductor memories, the device comprising: a first layer and a second layer of layer-transferred mono-crystallized silicon, wherein the first layer comprises a first plurality of horizontally-oriented transistors; wherein the second layer comprises a second plurality of horizontally-oriented transistors; and wherein the second plurality of horizontally-oriented transistors overlays the first plurality of horizontally-oriented transistors.
413 citations
Patent•
28 Mar 2011
TL;DR: In this article, a method to process an Integrated Circuit device including processing a first layer of first transistors, then processing a metal layer overlaying the first layer and providing at least one connection to the first Transistors, and finally processing a second layer of second transistors overlaying a first metal layer, wherein the second metal layer is connected to provide power to at least 1 of the second Transistors.
Abstract: A method to process an Integrated Circuit device including processing a first layer of first transistors, then processing a first metal layer overlaying the first transistors and providing at least one connection to the first transistors, then processing a second metal layer overlaying the first metal layer, then processing a second layer of second transistors overlaying the second metal layer, wherein the second metal layer is connected to provide power to at least one of the second transistors.
351 citations
Patent•
10 Feb 2014TL;DR: In this article, a gate pattern and a source/drain region are formed at both sides of the gate pattern, and the first insulation layer pattern having an exposed portion of the source/drain region, forming a silicide layer on the exposed source and drain region, and forming a second insulation layer covering the entire surface of the substrate.
Abstract: Provided are a semiconductor device, which can facilitate a salicide process and can prevent a gate from being damaged due to misalign, and a method of manufacturing of the semiconductor device. The method includes forming a first insulation layer pattern on a substrate having a gate pattern and a source/drain region formed at both sides of the gate pattern, the first insulation layer pattern having an exposed portion of the source/drain region, forming a silicide layer on the exposed source/drain region, forming a second insulation layer on the entire surface of the substrate to cover the first insulation layer pattern and the silicide layer, and forming a contact hole in the second insulation layer to expose the silicide layer.
259 citations
Patent•
27 Mar 2017
TL;DR: In this article, an Integrated Circuit device including a first layer including first single crystal transistors; a second layer overlaying the first layer, the second layer including second single-crystal transistors, where the second-layer thickness is less than one micron, where a plurality of the first transistors is circumscribed by a first dice lane of at least 10 microns width, and there are no first conductive connections to the plurality of transistors that cross the first-dice lane.
Abstract: An Integrated Circuit device, including: a first layer including first single crystal transistors; a second layer overlaying the first layer, the second layer including second single crystal transistors, where the second layer thickness is less than one micron, where a plurality of the first transistors is circumscribed by a first dice lane of at least 10 microns width, and there are no first conductive connections to the plurality of the first transistors that cross the first dice lane, where a plurality of the second transistors are circumscribed by a second dice lane of at least 10 microns width, and there are no second conductive connections to the plurality of the second transistors that cross the second dice lane, and at least one thermal conducting path from at least one of the second single crystal transistors to an external surface of the device.
185 citations
Patent•
04 Mar 2011TL;DR: In this article, a method for manufacturing a semiconductor structure, comprising of a mask layer to cover the metal interconnect liners and forming openings, which expose the metal internals on the mask layer, is presented.
Abstract: The present invention provides a method for manufacturing a semiconductor structure, comprising: a) forming metal interconnect liners on a substrate; b) forming a mask layer to cover the metal interconnect liners and forming openings, which expose the metal interconnect liners, on the mask layer; c) etching and disconnecting the metal interconnect liners via the openings, thereby insulating and isolating the metal interconnect liners. The present invention further provides a semiconductor structure, which comprises a substrate and metal interconnect liners, wherein ends of the metal interconnect liners are disconnected by insulating walls formed within the substrate. The structure and the method provided by the present invention are favorable for shortening distance between ends of adjacent metal interconnect liners, saving device area and suppressing short circuits happening to metal interconnect liners.
175 citations
References
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Book•
01 Jan 1990
TL;DR: The new edition of Breuer-Friedman's Diagnosis and Reliable Design ofDigital Systems offers comprehensive and state-ofthe-art treatment of both testing and testable design.
Abstract: For many years, Breuer-Friedman's Diagnosis and Reliable Design ofDigital Systems was the most widely used textbook in digital system testing and testable design. Now, Computer Science Press makes available a new and greativ expanded edition. Incorporating a significant amount of new material related to recently developed technologies, the new edition offers comprehensive and state-ofthe-art treatment of both testing and testable design.
2,758 citations
TL;DR: A new type of transistor in which there are no junctions and no doping concentration gradients is proposed and demonstrated, which has near-ideal subthreshold slope, extremely low leakage currents, and less degradation of mobility with gate voltage and temperature than classical transistors.
Abstract: All existing transistors are based on the use of semiconductor junctions formed by introducing dopant atoms into the semiconductor material. As the distance between junctions in modern devices drops below 10 nm, extraordinarily high doping concentration gradients become necessary. Because of the laws of diffusion and the statistical nature of the distribution of the doping atoms, such junctions represent an increasingly difficult challenge for the semiconductor industry. Here, we propose and demonstrate a new type of transistor in which there are no junctions and no doping concentration gradients. These devices have full CMOS functionality and are made using silicon nanowires. They have near-ideal subthreshold slope, extremely low leakage currents, and less degradation of mobility with gate voltage and temperature than classical transistors.
2,090 citations
TL;DR: This article discusses effects of variability in transistor performance and proposes microarchitecture, circuit, and testing research that focuses on designing with many unreliable components (transistors) to yield reliable system designs.
Abstract: As technology scales, variability in transistor performance continues to increase, making transistors less and less reliable. This creates several challenges in building reliable systems, from the unpredictability of delay to increasing leakage current. Finding solutions to these challenges require a concerted effort on the part of all the players in a system design. This article discusses these effects and proposes microarchitecture, circuit, and testing research that focuses on designing with many unreliable components (transistors) to yield reliable system designs.
1,421 citations
Patent•
17 Mar 2009
TL;DR: The 3Dimensional Structure (3DS) Memory (100) as mentioned in this paper is a three-dimensional structure (3D) memory that allows physical separation of the memory circuits and the control logic circuit onto different layers such that each layer may be separately optimized.
Abstract: A Three Dimensional Structure (3DS) Memory (100) allows for physical separation of the memory circuits (103) and the control logic circuit (101) onto different layers (103) such that each layer may be separately optimized. One control logic circuit (101) suffices for several memory circuits (103), reducing cost. Fabrication of 3DS memory (100) involves thinning of the memory circuit (103) to less than 50 microns in thickness and bonding the circuit to a circuit stack while still in wafer substrate form. Fine-grain high density inter-layer vertical bus connections (105) are used. The 3DS memory (100) manufacturing method enables several performance and physical size efficiencies, and is implemented with established semiconductor processing techniques.
1,212 citations
Patent•
15 Feb 1997TL;DR: In this paper, a multicolor organic light emitting device employs vertically stacked layers of double heterostructure devices which are fabricated from organic compounds, and the devices are configured as stacked to provide a staircase profile whereby each device is separated from the other by a thin transparent conductive contact layer to enable light emanating from each of the devices to pass through the semitransparent contacts and through the lower device structures.
Abstract: A multicolor organic light emitting device employs vertically stacked layers of double heterostructure devices which are fabricated from organic compounds. The vertical stacked structure is formed on a glass base having a transparent coating of ITO or similar metal to provide a substrate. Deposited on the substrate is the vertical stacked arrangement of three double heterostructure devices, each fabricated from a suitable organic material. Stacking is implemented such that the double heterostructure with the longest wavelength is on the top of the stack. This constitutes the device emitting red light on the top with the device having the shortest wavelength, namely, the device emitting blue light, on the bottom of the stack. Located between the red and blue device structures is the green device structure. The devices are configured as stacked to provide a staircase profile whereby each device is separated from the other by a thin transparent conductive contact layer to enable light emanating from each of the devices to pass through the semitransparent contacts and through the lower device structures while further enabling each of the devices to receive a selective bias. The devices are substantially transparent when de-energized, making them useful for heads-up display applications.
993 citations