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公开(公告)号:US5744981A
公开(公告)日:1998-04-28
申请号:US784225
申请日:1997-01-16
申请人: Paul T. Sasaki , Suresh M. Menon , Tsung C. Whang
发明人: Paul T. Sasaki , Suresh M. Menon , Tsung C. Whang
IPC分类号: H03K19/177 , H03K19/086
CPC分类号: H03K19/17736 , H03K19/177 , H03K19/17704 , H03K19/17728 , H03K19/17784 , H03K19/17792
摘要: Architecture for a programmable logic device is described which can operate at substantially faster clock rates than present programmable logic devices. The PLD uses BiCMOS circuit elements to make use of the speed advantages of bipolar technology while also enjoying the limited power consumption of CMOS technology.
摘要翻译: 描述了可编程逻辑器件的架构,其可以以比当前可编程逻辑器件更快的时钟速率工作。 PLD使用BiCMOS电路元件利用双极技术的速度优势,同时也享受CMOS技术的有限功耗。
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公开(公告)号:US5614844A
公开(公告)日:1997-03-25
申请号:US465595
申请日:1995-06-05
申请人: Paul T. Sasaki , Suresh M. Menon , Tsung C. Whang
发明人: Paul T. Sasaki , Suresh M. Menon , Tsung C. Whang
IPC分类号: H03K19/177 , H03K19/082 , H03K19/0948
CPC分类号: H03K19/17792 , H03K19/17704
摘要: Architecture for a programmable logic device is described which can operate at substantially faster clock rates than present programmable logic devices. The PLD uses BiCMOS circuit elements to make use of the speed advantages of bipolar technology while also enjoying the limited power consumption of CMOS technology.
摘要翻译: 描述了可编程逻辑器件的架构,其可以以比当前可编程逻辑器件更快的时钟速率工作。 PLD使用BiCMOS电路元件利用双极技术的速度优势,同时也享受CMOS技术的有限功耗。
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公开(公告)号:US5808479A
公开(公告)日:1998-09-15
申请号:US783809
申请日:1997-01-16
申请人: Paul T. Sasaki , Suresh M. Menon , Tsung C. Whang
发明人: Paul T. Sasaki , Suresh M. Menon , Tsung C. Whang
IPC分类号: H03K19/177
CPC分类号: H03K19/17736 , H03K19/177 , H03K19/17704 , H03K19/17728 , H03K19/17784 , H03K19/17792
摘要: Architecture for a programmable logic device is described which can operate at substantially faster clock rates than present programmable logic devices. The PLD uses BiCMOS circuit elements to make use of the speed advantages of bipolar technology while also enjoying the limited power consumption of CMOS technology.
摘要翻译: 描述了可编程逻辑器件的架构,其可以以比当前可编程逻辑器件更快的时钟速率工作。 PLD使用BiCMOS电路元件利用双极技术的速度优势,同时也享受CMOS技术的有限功耗。
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公开(公告)号:US5497108A
公开(公告)日:1996-03-05
申请号:US352402
申请日:1994-12-08
申请人: Suresh M. Menon , Stanley Wilson , Tsung C. Whang
发明人: Suresh M. Menon , Stanley Wilson , Tsung C. Whang
IPC分类号: H03K17/567 , H03K19/173 , H03K19/0175
CPC分类号: H03K17/567 , H03K19/1736
摘要: A programmable logic device includes a plurality of logic cells in which logic functions are performed, a plurality of input lines for supplying signals to be processed by the logic cells, a plurality of output lines for receiving signals that have been processed by the logic cells, and a plurality of repeater circuits combining bipolar and CMOS transistor technologies for transferring data from one point in the PLD to another point. Unidirectional repeater circuits transfer data from a first data bus in the PLD to a second data bus in the PLD. Bidirectional repeater circuits maintain signal integrity by transferring data along the length of a single PLD data bus. The bipolar technology in the repeater circuits provides superior speed in data transfer, while the CMOS technology limits power consumption of the repeater circuits.
摘要翻译: 可编程逻辑器件包括执行逻辑功能的多个逻辑单元,用于提供由逻辑单元处理的信号的多条输入线,用于接收由逻辑单元处理的信号的多条输出线, 以及组合用于将数据从PLD中的一个点传送到另一个点的双极和CMOS晶体管技术的多个中继器电路。 单向中继器电路将数据从PLD中的第一数据总线传送到PLD中的第二数据总线。 双向中继器电路通过沿单个PLD数据总线的长度传输数据来保持信号完整性。 中继器电路中的双极技术在数据传输方面提供卓越的速度,而CMOS技术限制了中继器电路的功耗。
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公开(公告)号:US07617472B1
公开(公告)日:2009-11-10
申请号:US12025637
申请日:2008-02-04
申请人: Jason R. Bergendahl , Ping-Chen Liu , Paul T. Sasaki , Suresh M. Menon , Atul V. Ghia , Steven P. Young , Trevor J. Bauer
发明人: Jason R. Bergendahl , Ping-Chen Liu , Paul T. Sasaki , Suresh M. Menon , Atul V. Ghia , Steven P. Young , Trevor J. Bauer
IPC分类号: G06F17/50 , H03K19/177
CPC分类号: G06F17/5054 , G06F2217/62
摘要: Signal distribution of a regional signal is described. An integrated circuit includes a global signal distribution network, a regional signal distribution network and a regional buffer. The regional buffer has an output coupled at an end of the regional signal distribution network. The regional signal distribution network is coupled to a configurable logic block via an interconnect tile. The regional buffer is coupled to a regional clock capable input/output block. Additionally described is a source synchronous interface for regional signal distribution.
摘要翻译: 描述区域信号的信号分布。 集成电路包括全球信号分配网络,区域信号分配网络和区域缓冲器。 区域缓冲区具有耦合在区域信号分配网络末端的输出。 区域信号分配网络通过互连瓦片耦合到可配置的逻辑块。 区域缓冲器耦合到具有区域时钟的输入/输出块。 另外描述了用于区域信号分配的源同步接口。
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公开(公告)号:US07187709B1
公开(公告)日:2007-03-06
申请号:US10090250
申请日:2002-03-01
申请人: Suresh M. Menon , Atul V. Ghia , Warren E. Cory , Paul T. Sasaki , Philip M. Freidin , Santiago G. Asuncion , Philip D. Costello , Vasisht M. Vadi , Adebabay M. Bekele , Hare K. Verma
发明人: Suresh M. Menon , Atul V. Ghia , Warren E. Cory , Paul T. Sasaki , Philip M. Freidin , Santiago G. Asuncion , Philip D. Costello , Vasisht M. Vadi , Adebabay M. Bekele , Hare K. Verma
CPC分类号: G06F15/7867
摘要: One or more configurable transceivers can be fabricated on an integrated circuit. The transceivers contain various components having options that can be configured by turning configuration memory cells on or off. The integrated circuit may also contain programmable fabric. Other components in the transceivers can have options that are controlled by the programmable fabric. The integrated circuit may also contain one or more processor cores. The processor core and the transceivers can be connected by a plurality of signal paths that pass through the programmable fabric.
摘要翻译: 一个或多个可配置的收发器可以在集成电路上制造。 收发器包含各种组件,具有可通过打开或关闭配置存储单元来配置的选项。 该集成电路还可以包含可编程织物。 收发器中的其他组件可以具有由可编程结构控制的选项。 集成电路还可以包含一个或多个处理器核。 处理器核心和收发器可以通过通过可编程结构的多个信号路径连接。
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公开(公告)号:US07111220B1
公开(公告)日:2006-09-19
申请号:US10090519
申请日:2002-03-01
申请人: Paul T. Sasaki , Suresh M. Menon , Atul V. Ghia , Warren E. Cory , Hare K. Verma , Philip M. Freidin
发明人: Paul T. Sasaki , Suresh M. Menon , Atul V. Ghia , Warren E. Cory , Hare K. Verma , Philip M. Freidin
IPC分类号: H03M13/00
CPC分类号: H03M13/091 , H03M13/6519 , H04L69/32 , H04L69/324
摘要: Disclosed are methods and structures for preparing data for transmission over a network. In an embodiment consistent with the OSI network model, transmit and receive CRC generators are moved from the link layer to the physical layer, which frees up valuable programmable logic resources when a programmable logic device is employed to perform the functions of the link layer. The CRC generators of the physical layer comply with a plurality of network communication standards.
摘要翻译: 公开了用于准备通过网络传输的数据的方法和结构。 在与OSI网络模型一致的实施例中,发送和接收CRC发生器从链路层移动到物理层,当使用可编程逻辑器件来执行链路层的功能时,发送和接收CRC发生器释放有价值的可编程逻辑资源。 物理层的CRC生成器符合多个网络通信标准。
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8.发明授权Variable data width operation in multi-gigabit transceivers on a programmable logic device 有权可编程逻辑器件上的千兆位收发器中的可变数据宽度操作公开(公告)号:US06960933B1
公开(公告)日:2005-11-01
申请号:US10618146
申请日:2003-07-11
申请人: Warren E. Cory , Hare K. Verma , Atul V. Ghia , Paul T. Sasaki , Suresh M. Menon
发明人: Warren E. Cory , Hare K. Verma , Atul V. Ghia , Paul T. Sasaki , Suresh M. Menon
IPC分类号: H03K19/177 , H04L25/45
CPC分类号: H03K19/1774 , H03K19/17744 , H04L25/45
摘要: A transmit variable-width interface can be programmed to convert an electronic digital data path that is either 1N, 2N, 4N, or 8N bits wide into a data path that is 2N bits wide, either by serializing bits (4N- or 8N-bit cases), re-clocking bits (2N-bit case), or grouping bits (1N-bit case). A receive variable-width interface can be programmed to convert a data path 2N bits wide into a data path that is 1N, 2N, 4N, or 8N bits wide. The widths of the two variable-width data paths are controlled independently. The variable-width interfaces are coupled between a multi-gigabit transceiver and core logic of a programmable logic device. The incoming and outgoing data paths of the variable-width interfaces have separate clocks signals that are synchronized such that small amounts of skew in these clock signals do not disrupt the operation of the variable-width interfaces.
摘要翻译: 传输可变宽度接口可编程为将1N,2N,4N或8N位宽的电子数字数据路径转换为2N位宽的数据通道,通过将位(4N或8N位) 情况),重新计时位(2N位情况)或分组位(1N位情况)。 接收可变宽度接口可以被编程为将2N位宽的数据路径转换成1N,2N,4N或8N位宽的数据路径。 两个可变宽度数据路径的宽度被独立地控制。 可变宽度接口耦合在可编程逻辑器件的千兆位收发器和核心逻辑之间。 可变宽度接口的输入和输出数据路径具有同步的分离时钟信号,使得这些时钟信号中的少量偏移不会中断可变宽度接口的操作。
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9.发明授权Variable data width operation in multi-gigabit transceivers on a programmable logic device 有权可编程逻辑器件上的千兆位收发器中的可变数据宽度操作公开(公告)号:US06617877B1
公开(公告)日:2003-09-09
申请号:US10090286
申请日:2002-03-01
申请人: Warren E. Cory , Hare K. Verma , Atul V. Ghia , Paul T. Sasaki , Suresh M. Menon
发明人: Warren E. Cory , Hare K. Verma , Atul V. Ghia , Paul T. Sasaki , Suresh M. Menon
IPC分类号: H03K19177
CPC分类号: H03K19/1774 , H03K19/17744 , H04L25/45
摘要: A transmit variable-width interface can be programmed to convert an electronic digital data path that is either 1N, 2N, 4N, or 8N bits wide into a data path that is 2N bits wide, either by serializing bits (4N- or 8N-bit cases), re-clocking bits (2N-bit case), or grouping bits (1N-bit case). A receive variable-width interface can be programmed to convert a data path 2N bits wide into a data path that is 1N, 2N, 4N, or 8N bits wide. The widths of the two variable-width data paths are controlled independently. The variable-width interfaces are coupled between a multi-gigabit transceiver and core logic of a programmable logic device. The incoming and outgoing data paths of the variable-width interfaces have separate clocks signals that are synchronized such that small amounts of skew in these clock signals do not disrupt the operation of the variable-width interfaces.
摘要翻译: 传输可变宽度接口可编程为将1N,2N,4N或8N位宽的电子数字数据路径转换为2N位宽的数据通道,通过将位(4N或8N位) 情况),重新计时位(2N位情况)或分组位(1N位情况)。 接收可变宽度接口可以被编程为将2N位宽的数据路径转换成1N,2N,4N或8N位宽的数据路径。 两个可变宽度数据路径的宽度被独立地控制。 可变宽度接口耦合在可编程逻辑器件的千兆位收发器和核心逻辑之间。 可变宽度接口的输入和输出数据路径具有同步的分离时钟信号,使得这些时钟信号中的少量偏移不会中断可变宽度接口的操作。
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公开(公告)号:US07353487B1
公开(公告)日:2008-04-01
申请号:US10981877
申请日:2004-11-05
申请人: Jason R. Bergendahl , Ping-Chen Liu , Paul T. Sasaki , Suresh M. Menon , Atul V. Ghia , Steven P. Young , Trevor J. Bauer
发明人: Jason R. Bergendahl , Ping-Chen Liu , Paul T. Sasaki , Suresh M. Menon , Atul V. Ghia , Steven P. Young , Trevor J. Bauer
IPC分类号: G06F17/50
CPC分类号: G06F17/5054 , G06F2217/62
摘要: Signal distribution of a regional signal is described. A programmable logic device includes a global signal distribution network, a regional signal distribution network and a regional buffer. The regional buffer has an output coupled at an end of the regional signal distribution network. The regional signal distribution network is coupled to a configurable logic block via an interconnect tile. The regional buffer is coupled to a regional clock capable input/output block. Additionally described is a source synchronous interface for regional signal distribution.
摘要翻译: 描述区域信号的信号分布。 可编程逻辑器件包括全局信号分配网络,区域信号分配网络和区域缓冲器。 区域缓冲区具有耦合在区域信号分配网络末端的输出。 区域信号分配网络通过互连瓦片耦合到可配置的逻辑块。 区域缓冲器耦合到具有区域时钟的输入/输出块。 另外描述了用于区域信号分配的源同步接口。
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