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1. 发明申请

US20080118201A1 Photonic interconnect method 有权
标题翻译：光子互连方法
公开(公告)号：US20080118201A1
公开(公告)日：2008-05-22
申请号：US12008605
申请日：2008-01-11
申请人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
发明人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
IPC分类号： G02B6/12
CPC分类号： G02F1/01 , B82Y20/00 , G02B6/12007 , G02B6/1225 , G02B6/43 , G02F2202/32 , G02F2203/585 , H04B10/801
摘要： A photonic interconnect method avoids high capacitance electric interconnects by using optical signals to communicate data between devices. The method can provide massively parallel information output by mapping logical addresses to frequency bands, so that modulation of a selected frequency band can encode information for a specific location corresponding to the logical address. Wavelength-specific directional couplers, modulators, and detectors, which can be fabricated at defects in a photonic bandgap crystal, can be employed for the photonic interconnect method. The interconnect method can be used for both classical and quantum information processing.
摘要翻译：光子互连方法通过使用光信号在设备之间传送数据来避免高电容电互连。该方法可以通过将逻辑地址映射到频带来提供大量并行信息输出，使得所选频带的调制可以对与逻辑地址相对应的特定位置的信息进行编码。可以在光子互连方法中使用可在光子带隙晶体的缺陷处制造的波长特异性定向耦合器，调制器和检测器。互连方法可用于经典和量子信息处理。

2. 发明申请

US20080112703A1 Photonic interconnect system 审中-公开
标题翻译：光子互连系统
公开(公告)号：US20080112703A1
公开(公告)日：2008-05-15
申请号：US12008531
申请日：2008-01-11
申请人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
发明人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
IPC分类号： H04J14/00
CPC分类号： G02F1/01 , B82Y20/00 , G02B6/12007 , G02B6/1225 , G02B6/43 , G02F2202/32 , G02F2203/585 , H04B10/801
摘要： A photonic interconnect system avoids high capacitance electric interconnects by using optical signals to communicate data between devices. The system can provide massively parallel information output by mapping logical addresses to frequency bands, so that modulation of a selected frequency band can encode information for a specific location corresponding to the logical address. The system comprises a first device containing a plurality of locations that are separately accessible and a plurality of optical decoders respectively associated with the locations; a second device that generates a logical address identifying a selected one of the locations in the first device; a converter capable of activating each of a plurality of components of an optical signal; and an optical path from the converter to each of the locations. The system can be used for both classical and quantum information processing.
摘要翻译：光子互连系统通过使用光信号在设备之间传送数据来避免高电容电互连。系统可以通过将逻辑地址映射到频带来提供大量并行信息输出，使得所选频带的调制可以对与逻辑地址相对应的特定位置的信息进行编码。该系统包括包含可分开存取的多个位置的第一装置和分别与位置相关联的多个光学解码器; 第二设备，其生成识别所述第一设备中的所选位置之一的逻辑地址; 转换器，其能够激活光信号的多个分量中的每一个; 以及从转换器到每个位置的光路。该系统可用于经典和量子信息处理。

3. 发明申请

US20080112665A1 Photonic interconnect system 有权
标题翻译：光子互连系统
公开(公告)号：US20080112665A1
公开(公告)日：2008-05-15
申请号：US12008618
申请日：2008-01-11
申请人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
发明人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
IPC分类号： G02B6/12
CPC分类号： G02F1/01 , B82Y20/00 , G02B6/12007 , G02B6/1225 , G02B6/43 , G02F2202/32 , G02F2203/585 , H04B10/801
摘要： A photonic interconnect system avoids high capacitance electric interconnects by using optical signals to communicate data between devices. The system can provide massively parallel information output by mapping logical addresses to frequency bands, so that modulation of a selected frequency band can encode information for a specific location corresponding to the logical address. Wavelength-specific directional couplers, modulators, and detectors for the photonic interconnect system can be efficiently fabricated at defects in a photonic bandgap crystal. The interconnect system can be used for both classical and quantum information processing.
摘要翻译：光子互连系统通过使用光信号在设备之间传送数据来避免高电容电互连。系统可以通过将逻辑地址映射到频带来提供大量并行信息输出，使得所选频带的调制可以对与逻辑地址相对应的特定位置的信息进行编码。用于光子互连系统的波长特异性定向耦合器，调制器和检测器可以有效地制造在光子带隙晶体的缺陷处。互连系统可用于经典和量子信息处理。

4. 发明申请

US20050078902A1 Photonic interconnect system 有权
标题翻译：光子互连系统
公开(公告)号：US20050078902A1
公开(公告)日：2005-04-14
申请号：US10684278
申请日：2003-10-11
申请人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
发明人： Raymond Beausoleil , Philip Kuekes , William Munro , Timothy Spiller , R. Williams , Sean Barrett
IPC分类号： G02B6/12 , G02B6/122 , G02B6/34 , G02B6/43 , G02F1/01 , G11C13/04 , H04B10/00
CPC分类号： G02F1/01 , B82Y20/00 , G02B6/12007 , G02B6/1225 , G02B6/43 , G02F2202/32 , G02F2203/585 , H04B10/801
摘要： A photonic interconnect system avoids high capacitance electric interconnects by using optical signals to communicate data between devices. The system can provide massively parallel information output by mapping logical addresses to frequency bands, so that modulation of a selected frequency band can encode information for a specific location corresponding to the logical address. Wavelength-specific directional couplers, modulators, and detectors for the photonic interconnect system can be efficiently fabricated at defects in a photonic bandgap crystal.
摘要翻译：光子互连系统通过使用光信号在设备之间传送数据来避免高电容电互连。系统可以通过将逻辑地址映射到频带来提供大量并行信息输出，使得所选频带的调制可以对与逻辑地址相对应的特定位置的信息进行编码。用于光子互连系统的波长特异性定向耦合器，调制器和检测器可以有效地制造在光子带隙晶体的缺陷处。

5. 发明申请

US20070154129A1 AUTONOMOUS EVANESCENT OPTICAL NANOSENSOR 失效
标题翻译：自动光纤光学传感器
公开(公告)号：US20070154129A1
公开(公告)日：2007-07-05
申请号：US11127542
申请日：2005-05-11
申请人： Raymond Beausoleil , Philip Kuekes , R. Williams
发明人： Raymond Beausoleil , Philip Kuekes , R. Williams
IPC分类号： G02B6/00
CPC分类号： G01N21/7703 , G01N21/648 , G01N21/65 , G01N21/94 , G01N33/569 , G01N35/00871 , G01N2021/7786 , G01N2035/00881
摘要： A sensor includes traps that are adjacent to a waveguide and capable of holding a contaminant for an interaction with an evanescent field surrounding the waveguide. When held in a trap, a particle of the contaminant, which may be an atom, a molecule, a virus, or a microbe, scatters light from the waveguide, and the scattered light can be measured to detect the presence or concentration of the contaminant. Holding of the particles permits sensing of the contaminant in a gas where movement of the particles might otherwise be too fast to permit measurement of the interaction with the evanescent field. The waveguide, a lighting system for the waveguide, a photosensor, and a communications interface can all be fabricated on a semiconductor die to permit fabrication of an autonomous nanosensor capable of suspension in the air or a gas being sensed.
摘要翻译：传感器包括与波导相邻并且能够保持污染物以与与波导周围的ev逝场相互作用的阱。当保持在陷阱中时，可能是原子，分子，病毒或微生物的污染物的颗粒散射来自波导的光，并且可以测量散射光以检测污染物的存在或浓度。保持颗粒允许感测气体中的污染物，其中颗粒的移动可能太快以至于不能测量与渐逝场的相互作用。波导，用于波导的照明系统，光传感器和通信接口都可以在半导体管芯上制造，以允许制造能够在空气中悬浮的自主纳米传感器或被感测的气体。

6. 发明申请

US20060053397A1 Scalable, component-accessible, and highly interconnected three-dimensional component arrangement within a system 有权
标题翻译：系统内可扩展的，可组件访问的和高度互连的三维组件布置
公开(公告)号：US20060053397A1
公开(公告)日：2006-03-09
申请号：US10935845
申请日：2004-09-08
申请人： Philip Kuekes , R. Williams , Raymond Beausoleil
发明人： Philip Kuekes , R. Williams , Raymond Beausoleil
IPC分类号： G06F17/50
CPC分类号： G06F1/18 , G06F17/509 , H05K7/1444
摘要： Embodiments of the present invention include dense, but accessible and well-interconnected component arrangements within multi-component systems, such as high-end multi-processor computer systems, and methods for constructing such arrangements. In a described embodiment, integrated-circuit-containing processing components, referred to as a “flat components,” are arranged into local blocks of intercommunicating flat components. The local flat-component blocks are arranged into interconnected, primitive multi-local-block repeating units, and the primitive local-block repeating units are layered together in a three-dimensional, regularly repeating structure that can be assembled to approximately fill any specified three-dimensional volume. The arrangement provides for relatively short, direct pathways from the surface of the specified volume to any particular local block and flat component within the three-dimensional arrangement.
摘要翻译：本发明的实施例包括在诸如高端多处理器计算机系统的多组件系统内的密集但可访问和良好互连的组件布置，以及用于构造这种布置的方法。在所描述的实施例中，被称为“平面部件”的集成电路的处理部件被布置在相互连通的平面部件的局部块中。本地平面组件块被布置成互连的原始多局部块重复单元，并且原始局部块重复单元以三维的规则重复的结构分层在一起，其可以被组装以大致填充任何指定的三维数。该装置提供从指定体积的表面到三维布置中的任何特定局部块和平坦部件的相对短的直接通路。

7. 发明申请

US20060280414A1 Fiber-coupled single photon source 有权
标题翻译：光纤耦合单光子源
公开(公告)号：US20060280414A1
公开(公告)日：2006-12-14
申请号：US11149511
申请日：2005-06-10
申请人： Raymond Beausoleil , Sean Spillane , Philip Kuekes , Duncan Stewart , M. Islam
发明人： Raymond Beausoleil , Sean Spillane , Philip Kuekes , Duncan Stewart , M. Islam
IPC分类号： G02B6/02 , G02B6/032
CPC分类号： G02B6/4202 , B82Y20/00 , G02B6/02314 , G02B6/02328 , G02B6/107 , G02B6/423 , H01S5/02284 , H01S5/026 , H01S5/1032 , H01S5/1042 , H01S5/105 , H01S5/183 , H01S5/341 , H01S5/3412 , H01S5/423 , Y10S977/951
摘要： A device comprising a single photon generator and a waveguide, wherein a single photon generated by the single photon generator is coupled to the waveguide
摘要翻译：一种包括单个光子发生器和波导的器件，其中由单个光子发生器产生的单个光子耦合到波导

8. 发明申请

US20060240681A1 Three-dimensional nanoscale crossbars 有权
标题翻译：三维纳米级横条
公开(公告)号：US20060240681A1
公开(公告)日：2006-10-26
申请号：US11114307
申请日：2005-04-25
申请人： R. Williams , Philip Kuekes
发明人： R. Williams , Philip Kuekes
IPC分类号： H01L21/00
CPC分类号： H04L49/40 , B82Y10/00 , G11C13/02 , G11C2213/71 , G11C2213/77 , G11C2213/81 , H04L49/101 , Y10S977/762 , Y10S977/767
摘要： Various embodiments of the present invention include three-dimensional, at least partially nanoscale, electronic circuits and devices in which signals can be routed in three independent directions, and in which electronic components can be fabricated at junctions interconnected by internal signal lines. The three-dimensional, at least partially nanoscale, electronic circuits and devices include layers, the nanowire or microscale-or-submicroscale/nanowire junctions of each of which may be economically and efficiently fabricated as one type of electronic component. Various embodiments of the present invention include nanoscale memories, nanoscale programmable arrays, nanoscale multiplexers and demultiplexers, and an almost limitless number of specialized nanoscale circuits and nanoscale electronic components.
摘要翻译：本发明的各种实施例包括三维，至少部分纳米级的电子电路和装置，其中信号可以在三个独立的方向上布线，并且其中电子部件可以在通过内部信号线互连的连接点处制造。三维，至少部分纳米级的电子电路和器件包括层，其中每一个的纳米线或微米级或亚微米级/纳米线结可以经济地和有效地制造为一种类型的电子部件。本发明的各种实施例包括纳米级存储器，纳米级可编程阵列，纳米级多路复用器和解复用器，以及几乎无限数量的专用纳米尺度电路和纳米级电子部件。

9. 发明申请

US20070236757A1 Rich color image processing method and apparatus 审中-公开
标题翻译：丰富的彩色图像处理方法和装置
公开(公告)号：US20070236757A1
公开(公告)日：2007-10-11
申请号：US11402154
申请日：2006-04-10
申请人： Duncan Stewart , Shih-Yuan Wang , Philip Kuekes , Alexandre Bratkovski , R. Williams
发明人： Duncan Stewart , Shih-Yuan Wang , Philip Kuekes , Alexandre Bratkovski , R. Williams
IPC分类号： H04N1/46
CPC分类号： H04N9/045 , G02B26/001 , H04N5/2254 , H04N9/3108
摘要： Techniques for rich color image processing are disclosed. The techniques include using an array of tunable optical filter elements to define pixels of an image. The tunable optical filter elements are tuned over a range of optical frequencies to control the color filtering of the individual pixels. Exemplary embodiments for image capture and projection are illustrated.
摘要翻译：公开了用于丰富彩色图像处理的技术。这些技术包括使用可调谐光学滤光器元件的阵列来定义图像的像素。可调谐滤光器元件在一定范围的光学频率上被调谐以控制各个像素的滤色。示出了用于图像捕获和投影的示例性实施例。

10. 发明申请

US20070101309A1 Crossbar-array designs and wire addressing methods that tolerate misalignment of electrical components at wire overlap points 有权
公开(公告)号：US20070101309A1
公开(公告)日：2007-05-03
申请号：US11264464
申请日：2005-11-01
申请人： Wei Wu , Philip Kuekes , R. Williams
发明人： Wei Wu , Philip Kuekes , R. Williams
IPC分类号： G06F17/50
CPC分类号： G11C13/02 , B82Y10/00 , G11C8/10 , G11C11/54 , G11C13/0023 , G11C2213/77 , G11C2213/81 , H01L27/10 , H01L27/285 , Y10S977/762 , Y10S977/932
摘要： Various embodiments of the present invention are directed to crossbar array designs that interfaces wires to address wires, despite misalignments between electrical components and wires. In one embodiment, a nanoscale device may be composed of a first layer of two or more wires and a second layer of two or more address wires that overlays the first layer. The nanoscale device may also include an intermediate layer positioned between the first layer and the second layer. Two or more redundant electrical component patterns may be fabricated within the intermediate layer so that one or more of the electrical component patterns is aligned with the first and second layers.

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