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公开(公告)号:US07217144B1
公开(公告)日:2007-05-15
申请号:US11329632
申请日:2006-01-11
Applicant: Thomas M. Cipolla , Lawrence S. Mok
Inventor: Thomas M. Cipolla , Lawrence S. Mok
IPC: H01L21/82
Abstract: An arrangement and a method of increasing the quantity of input and output connectors, which are available for the attachment to connection cables of electronic equipment. More particularly, the present invention relates to an arrangement, such as a connector drawer, which is adapted to be installed in a selectively retractable and extendable mode in a laptop computer and which provides for a versatile structure facilitating a elective increase in the quantity of input and output connectors as may be necessitated by specific utilization of the electronic equipment or laptop computers, particularly in conjunction with the connection therewith of auxiliary operating devices or components.
Abstract translation: 一种增加输入和输出连接器的数量的装置和方法,其可用于连接到电子设备的连接电缆。 更具体地,本发明涉及一种诸如连接器抽屉的装置,其适于以笔记本电脑中的可选择性地伸缩和可延伸的方式安装,并且其提供通用结构,便于输入量的选择性增加 以及通过电子设备或膝上型计算机的特定利用可能需要的输出连接器,特别是与辅助操作装置或部件的连接。
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公开(公告)号:US07529085B2
公开(公告)日:2009-05-05
申请号:US11480292
申请日:2006-06-30
Applicant: Albert V. Makley , Thomas M. Cipolla , Thomas R. Hildner , Vinod Kamath , Fumitoshi Kiyooka , Lawrence S. Mok , Fusanobu Nakamura
Inventor: Albert V. Makley , Thomas M. Cipolla , Thomas R. Hildner , Vinod Kamath , Fumitoshi Kiyooka , Lawrence S. Mok , Fusanobu Nakamura
IPC: H05K7/20
CPC classification number: G06F1/203
Abstract: A fansink arrangement for a laptop computer wherein two distinct patterns of air intake can be employed. Particularly, dual air intakes of the laptop can be managed and controlled depending upon an operating mode of the computer. Thus, when the computer is in a “stand alone” mode, only one air intake is employed while in a “docking” mode of the computer two air intakes are employed.
Abstract translation: 一种用于膝上型计算机的风扇排列装置,其中可以采用两种截然不同的进气模式。 特别地,可以根据计算机的操作模式来管理和控制膝上型计算机的双重进气口。 因此,当计算机处于“独立”模式时,在计算机的“对接”模式中仅采用一个进气口,两个进气口被采用。
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公开(公告)号:US5268815A
公开(公告)日:1993-12-07
申请号:US922257
申请日:1992-07-30
Applicant: Thomas M. Cipolla , Paul W. Coteus , Brian C. Derdall , Christina M. Knoedler , Alphonso P. Lanzetta , John J. Liutkus , Linda C. Matthew , Lawrence S. Mok , Irene A. Sterian
Inventor: Thomas M. Cipolla , Paul W. Coteus , Brian C. Derdall , Christina M. Knoedler , Alphonso P. Lanzetta , John J. Liutkus , Linda C. Matthew , Lawrence S. Mok , Irene A. Sterian
CPC classification number: H05K7/023 , H01L25/105 , H05K3/301 , H01L2225/1023 , H01L2225/107 , H01L2225/1094 , H01L2924/0002 , Y10T29/53265
Abstract: A high density circuit package includes a pair of planar packages, the planar packages exhibiting front and back surfaces and positioned back-to-back in the high density circuit package. Each planar package includes a flexible circuit carrier having a plurality of circuit chips mounted thereon. Front and back planar metallic heat sinks sandwich the circuit carriers, at least one of the heat sinks contacting a surface of the chips mounted on the sandwiched circuit carriers. Each heat sink is provided with air flow apertures formed in its planar surface and adjacent to each circuit chip. A circuit card interconnects with the circuit carriers in an interconnection region and is pluggable into a female connector. The planar metallic heat sinks and circuit carriers are mechanically packaged so as to provide a planar arrangement which aligns the apertures in both the front and rear heat sinks. A pair of planar packages are mechanically connected in a back-to-back arrangement so that the apertures therebetween are aligned. The associated circuit cards are also back-to-back oriented so as to enable their joint interconnection into the female connector.
Abstract translation: 高密度电路封装包括一对平面封装,平面封装呈现前后表面并且背对背设置在高密度电路封装中。 每个平面封装包括具有安装在其上的多个电路芯片的柔性电路载体。 前后平面金属散热器夹着电路载体,至少一个散热片接触安装在夹层电路载体上的芯片表面。 每个散热器设置有形成在其平面表面中并与每个电路芯片相邻的气流孔。 电路卡与互连区域中的电路载体互连,并且可插入到母连接器中。 平面金属散热器和电路载体被机械地封装,以便提供一个平面布置,其对准前后散热片中的孔。 一对平面封装以背对背布置机械连接,使得它们之间的孔对准。 相关联的电路卡也是背靠背定向的,以便使它们的连接互连到母连接器中。
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公开(公告)号:US5208729A
公开(公告)日:1993-05-04
申请号:US836672
申请日:1992-02-14
Applicant: Thomas M. Cipolla , Paul W. Coteus , Glen W. Johnson , Lawrence S. Mok
Inventor: Thomas M. Cipolla , Paul W. Coteus , Glen W. Johnson , Lawrence S. Mok
IPC: H05K5/00 , H01L23/467 , H01L25/10 , H05K7/14 , H05K7/20
CPC classification number: H05K7/1429 , H01L23/467 , H01L25/105 , H01L2225/1005 , H01L2924/0002
Abstract: A high density package for a plurality of integrated circuit chips is described, the package including a number of planar subunits. A subunit includes first and second planar metal plates and a spacer metal plate sandwiched therebetween. Each spacer metal plate is provided with a plurality of circuit-receiving apertures. A planar circuit carrier is provided for each aperture in the spacer metal plate. One face of each circuit carrier includes a plurality of bonded chips. Each circuit carrier is positioned in a circuit-receiving aperture so that rear aspects of the bonded chips bear upon the second planar metal plate. Each circuit carrier has a connector region which extends out from between the first planar metal plate and the metal spacer plate at one extremity of each circuit-receiving aperture. A circuit card is positioned at that extremity and has a plurality of interconnection areas, one for each extended connector region. The circuit card has its major surface oriented parallel to the metal plates so that the entire package presents an overall planar configuration.
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公开(公告)号:US20120311299A1
公开(公告)日:2012-12-06
申请号:US13566024
申请日:2012-08-03
Applicant: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampapa , Philip Heidlberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
Inventor: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampapa , Philip Heidlberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
IPC: G06F15/80
CPC classification number: H05K7/20836 , F24F11/77 , G06F9/52 , G06F9/526 , G06F15/17381 , G06F17/142 , G09G5/008 , H04L7/0338
Abstract: A novel massively parallel supercomputer of hundreds of teraOPS-scale includes node architectures based upon System-On-a-Chip technology, i.e., each processing node comprises a single Application Specific Integrated Circuit (ASIC). Within each ASIC node is a plurality of processing elements each of which consists of a central processing unit (CPU) and plurality of floating point processors to enable optimal balance of computational performance, packaging density, low cost, and power and cooling requirements. The plurality of processors within a single node individually or simultaneously work on any combination of computation or communication as required by the particular algorithm being solved. The system-on-a-chip ASIC nodes are interconnected by multiple independent networks that optimally maximizes packet communications throughput and minimizes latency. The multiple networks include three high-speed networks for parallel algorithm message passing including a Torus, Global Tree, and a Global Asynchronous network that provides global barrier and notification functions.
Abstract translation: 数百个teraOPS级别的新型大规模并行超级计算机包括基于片上系统技术的节点架构,即每个处理节点包括单个专用集成电路(ASIC)。 在每个ASIC节点内是多个处理元件,每个处理元件由中央处理单元(CPU)和多个浮点处理器组成,以实现计算性能,封装密度,低成本以及功率和冷却要求的最佳平衡。 单个节点内的多个处理器单独或同时工作在要解决的特定算法所要求的计算或通信的任何组合上。 片上系统ASIC节点通过多个独立网络进行互连,从而最大限度地最大限度地提高了分组通信吞吐量并最大限度地减少了延迟。 多个网络包括用于并行算法消息传递的三个高速网络,包括Torus,全局树和提供全局障碍和通知功能的全球异步网络。
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公开(公告)号:US08250133B2
公开(公告)日:2012-08-21
申请号:US12492799
申请日:2009-06-26
Applicant: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampapa , Philip Heidelberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
Inventor: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampapa , Philip Heidelberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
IPC: G06F15/16
CPC classification number: H05K7/20836 , F24F11/77 , G06F9/52 , G06F9/526 , G06F15/17381 , G06F17/142 , G09G5/008 , H04L7/0338
Abstract: A novel massively parallel supercomputer of hundreds of teraOPS-scale includes node architectures based upon System- On-a-Chip technology, i.e., each processing node comprises a single Application Specific Integrated Circuit (ASIC). Within each ASIC node is a plurality of processing elements each of which consists of a central processing unit (CPU) and plurality of floating point processors to enable optimal balance of computational performance, packaging density, low cost, and power and cooling requirements. The plurality of processors within a single node individually or simultaneously work on any combination of computation or communication as required by the particular algorithm being solved. The system-on-a-chip ASIC nodes are interconnected by multiple independent networks that optimally maximizes packet communications throughput and minimizes latency. The multiple networks include three high-speed networks for parallel algorithm message passing including a Torus, Global Tree, and a Global Asynchronous network that provides global barrier and notification functions.
Abstract translation: 数百个teraOPS级别的新型大规模并行超级计算机包括基于片上系统技术的节点架构,即每个处理节点包括单个专用集成电路(ASIC)。 在每个ASIC节点内是多个处理元件,每个处理元件由中央处理单元(CPU)和多个浮点处理器组成,以实现计算性能,封装密度,低成本以及功率和冷却要求的最佳平衡。 单个节点内的多个处理器单独或同时工作在要解决的特定算法所要求的计算或通信的任何组合上。 片上系统ASIC节点通过多个独立网络互连,从而最大限度地最大限度地提高了分组通信吞吐量并最大限度地减少了延迟。 多个网络包括用于并行算法消息传递的三个高速网络,包括Torus,全局树和提供全局障碍和通知功能的全球异步网络。
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公开(公告)号:US07555566B2
公开(公告)日:2009-06-30
申请号:US10468993
申请日:2002-02-25
Applicant: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampapa , Philip Heidelberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
Inventor: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampapa , Philip Heidelberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
IPC: G06F15/16
CPC classification number: H05K7/20836 , F24F11/77 , G06F9/52 , G06F9/526 , G06F15/17381 , G06F17/142 , G09G5/008 , H04L7/0338
Abstract: A novel massively parallel supercomputer of hundreds of teraOPS-scale includes node architectures based upon System-On-a-Chip technology, i.e., each processing node comprises a single Application Specific Integrated Circuit (ASIC). Within each ASIC node is a plurality of processing elements each of which consists of a central processing unit (CPU) and plurality of floating point processors to enable optimal balance of computational performance, packaging density, low cost, and power and cooling requirements. The plurality of processors within a single node may be used individually or simultaneously to work on any combination of computation or communication as required by the particular algorithm being solved or executed at any point in time. The system-on-a-chip ASIC nodes are interconnected by multiple independent networks that optimally maximizes packet communications throughput and minimizes latency. In the preferred embodiment, the multiple networks include three high-speed networks for parallel algorithm message passing including a Torus, Global Tree, and a Global Asynchronous network that provides global barrier and notification functions. These multiple independent networks may be collaboratively or independently utilized according to the needs or phases of an algorithm for optimizing algorithm processing performance. For particular classes of parallel algorithms, or parts of parallel calculations, this architecture exhibits exceptional computational performance, and may be enabled to perform calculations for new classes of parallel algorithms. Additional networks are provided for external connectivity and used for Input/Output, System Management and Configuration, and Debug and Monitoring functions. Special node packaging techniques implementing midplane and other hardware devices facilitates partitioning of the supercomputer in multiple networks for optimizing supercomputing resources.
Abstract translation: 数百个teraOPS级别的新型大规模并行超级计算机包括基于片上系统技术的节点架构,即,每个处理节点包括单个专用集成电路(ASIC)。 在每个ASIC节点内是多个处理元件,每个处理元件由中央处理单元(CPU)和多个浮点处理器组成,以实现计算性能,封装密度,低成本以及功率和冷却要求的最佳平衡。 单个节点内的多个处理器可以单独使用或同时使用,以在任何时间点解决或执行的特定算法所要求的任何计算或通信组合上工作。 片上系统ASIC节点通过多个独立网络互连,从而最大限度地最大限度地提高了分组通信吞吐量并最大限度地减少了延迟。 在优选实施例中,多个网络包括用于并行算法消息传递的三个高速网络,包括提供全局障碍和通知功能的环形,全局树和全球异步网络。 这些多个独立网络可以根据用于优化算法处理性能的算法的需求或阶段来协同或独立地利用。 对于特定类别的并行算法或并行计算的部分,该架构具有出色的计算性能,并且可以启用对新类并行算法执行计算。 为外部连接提供附加网络,用于输入/输出,系统管理和配置以及调试和监控功能。 实现中平面和其他硬件设备的特殊节点打包技术有助于在多个网络中划分超级计算机,以优化超级计算资源。
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公开(公告)号:US06592449B2
公开(公告)日:2003-07-15
申请号:US10083270
申请日:2002-02-25
Applicant: Thomas M. Cipolla , Richard I. Kaufman , Lawrence S. Mok
Inventor: Thomas M. Cipolla , Richard I. Kaufman , Lawrence S. Mok
IPC: F24F700
CPC classification number: H05K7/20836 , F24F11/77 , G06F9/52 , G06F9/526 , G06F15/17381 , G06F17/142 , G09G5/008 , H04L7/0338
Abstract: A fan module including: two or more individual fans, each fan having an air movement means and a motor engaged with the air movement means for accelerating air entering each of the two or more individual fans; a temperature sensor for sensing a temperature associated with the two or more fans and for outputting a first signal corresponding to the temperature; rotational speed sensor for outputting a second signal corresponding to a rotational speed of each of the two or more fans; and a processor for receiving the first and second signals and controlling the two or more individual fans based on the first and second signals.
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公开(公告)号:US08667049B2
公开(公告)日:2014-03-04
申请号:US13566024
申请日:2012-08-03
Applicant: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampap , Philip Heidlberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
Inventor: Matthias A. Blumrich , Dong Chen , George L. Chiu , Thomas M. Cipolla , Paul W. Coteus , Alan G. Gara , Mark E. Giampap , Philip Heidlberger , Gerard V. Kopcsay , Lawrence S. Mok , Todd E. Takken
IPC: G06F15/173
CPC classification number: H05K7/20836 , F24F11/77 , G06F9/52 , G06F9/526 , G06F15/17381 , G06F17/142 , G09G5/008 , H04L7/0338
Abstract: A novel massively parallel supercomputer of hundreds of teraOPS-scale includes node architectures based upon System-On-a-Chip technology, i.e., each processing node comprises a single Application Specific Integrated Circuit (ASIC). Within each ASIC node is a plurality of processing elements each of which consists of a central processing unit (CPU) and plurality of floating point processors to enable optimal balance of computational performance, packaging density, low cost, and power and cooling requirements. The plurality of processors within a single node individually or simultaneously work on any combination of computation or communication as required by the particular algorithm being solved. The system-on-a-chip ASIC nodes are interconnected by multiple independent networks that optimally maximizes packet communications throughput and minimizes latency. The multiple networks include three high-speed networks for parallel algorithm message passing including a Torus, Global Tree, and a Global Asynchronous network that provides global barrier and notification functions.
Abstract translation: 数百个teraOPS级别的新型大规模并行超级计算机包括基于片上系统技术的节点架构,即每个处理节点包括单个专用集成电路(ASIC)。 在每个ASIC节点内是多个处理元件,每个处理元件由中央处理单元(CPU)和多个浮点处理器组成,以实现计算性能,封装密度,低成本以及功率和冷却要求的最佳平衡。 单个节点内的多个处理器单独或同时工作在要解决的特定算法所要求的计算或通信的任何组合上。 片上系统ASIC节点通过多个独立网络互连,从而最大限度地最大限度地提高了分组通信吞吐量并最大限度地减少了延迟。 多个网络包括用于并行算法消息传递的三个高速网络,包括Torus,全局树和提供全局障碍和通知功能的全球异步网络。
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公开(公告)号:US5764314A
公开(公告)日:1998-06-09
申请号:US754927
申请日:1996-11-25
Applicant: Chandrasekhar Narayan , Evan Colgan , Kei-Hsiung Yang , Robert L. Melcher , Lawrence S. Mok , Leathen Shi , Thomas M. Cipolla
Inventor: Chandrasekhar Narayan , Evan Colgan , Kei-Hsiung Yang , Robert L. Melcher , Lawrence S. Mok , Leathen Shi , Thomas M. Cipolla
CPC classification number: G02F1/133385 , G02F1/133308 , G02F1/136 , G02F2001/133322 , G02F2001/133325
Abstract: A liquid crystal element, a packaging structure providing thermal and alignment control, a display device including the same, and methods of fabrication and assembly are provided. The liquid crystal element includes: a semiconductor wafer, having microcircuitry and an array of reflective pixels; a layer of electro-optical responsive liquid crystal medium, of uniform thickness, disposed on the reflective pixels; a transparent conductive layer positioned on the liquid crystal, being substantially parallel to the reflective layers, to ensure a uniform thickness of the liquid crystal; and an insulative transparent layer provided on the conductive layer. The liquid crystal element is laminated to an optically flat substrate to limit the out-of-plane distortions thereof. The structure formed by element and substrate are disposed in a substrate holder which is mounted to a wiring board, and coupled to voltage sources for actuating the liquid crystal. During mounting, an aligning fixture is used to ensure proper orientation of the element relative to the related optical elements. Once the element is positioned, a heat sink is coupled to the rear surface of the substrate holder to dissipate heat.
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