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    • 3. 发明授权
    • System and method for optimizing routing lines in a programmable logic device
    • 用于优化可编程逻辑器件中路由线路的系统和方法
    • US06895570B2
    • 2005-05-17
    • US10057232
    • 2002-01-25
    • David M. LewisVaughn BetzPaul LeventisMichael ChanCameron R. McClintockAndy L. LeeChristopher F. LaneSrinivas T. ReddyRichard Cliff
    • David M. LewisVaughn BetzPaul LeventisMichael ChanCameron R. McClintockAndy L. LeeChristopher F. LaneSrinivas T. ReddyRichard Cliff
    • G06F17/50H01L21/82H03K19/177
    • H03K19/17736G06F17/5054G06F17/5077
    • An embodiment of this invention pertains to a wire that interconnects multiple function blocks within a programmable logic device (“PLD”). An electrically optimum physical length is determined for the wire. A wire having the electrically optimum physical length transmits a signal down the wire as fast as possible. Some of the wires used in the PLD have a physical length substantially the same as the electrically optimum physical length or an adjustment of the electrically optimum physical length to account for non-electrical considerations. The physical length, as used herein, is the measured length of the wire. A logical length of the wire, as used herein, is the number of function blocks that the wire spans. Given that the function blocks have a different height and width, the logical length of the wire varies depending on the orientation of the wire.A routing architecture is an array that includes rows and columns of function blocks. The columns of the array are connected with horizontal lines (“H-line”) and the rows of the array are connected with vertical lines (“V-line). The types of H-lines include a H4 line that spans four function blocks, a H8 line that spans eight function blocks, and a H24 line that spans twenty-four function blocks. The types of V-lines include a V4 line that spans four function blocks, a V8 line that spans eight function blocks, and a V16 line that spans sixteen function blocks.
    • 本发明的实施例涉及将可编程逻辑器件(“PLD”)内的多个功能块互连的导线。 确定电线最佳物理长度。 具有最佳物理长度的导线尽可能快地将信号沿导线传送。 在PLD中使用的一些电线具有与电最佳物理长度基本相同的物理长度或电学最佳物理长度的调整以考虑非电学考虑。 如本文所使用的物理长度是测量的线的长度。 如本文所使用的,线的逻辑长度是导线跨越的功能块的数量。 假设功能块具有不同的高度和宽度,则线的逻辑长度根据线的方向而变化。 路由架构是包括功能块的行和列的数组。 数组的列与水平线(“H-line”)连接,阵列与垂直线(“V线”)连接,H线的类型包括四条功能块的H4线 ,一个跨越八个功能块的H8线,以及跨越二十四个功能块的H24线,V线的类型包括跨越四个功能块的V4线,跨越八个功能块的V8线,以及V16线 线跨越十六个功能块。
    • 6. 发明授权
    • Programmable logic device with redundant circuitry
    • 具有冗余电路的可编程逻辑器件
    • US06344755B1
    • 2002-02-05
    • US09691424
    • 2000-10-18
    • Srinivas T. ReddyManuel MejiaAndy L. LeeBruce B. Pedersen
    • Srinivas T. ReddyManuel MejiaAndy L. LeeBruce B. Pedersen
    • H03K19003
    • H03K19/17764H03K19/17736
    • A programmable logic device is provided that allows a redundant row of programmable logic to be shifted into place to repair the device when a defect is detected in a row of programmable logic on the device. The redundant row is shifted into place by routing programming data into the normal logic and the redundant logic while bypassing the row of logic containing the defect. Switching circuitry may be used to direct programming data into the serial inputs of various data registers that are then used to load the programming data into the device. The patterns of programmable connections that are made between programmable logic regions on the device and vertical and horizontal conductors also allow redundant logic to be shifted into place. Some connections between the logic and the horizontal and vertical conductors may be identical within a column to facilitate shifting. Other connections may only partially overlap between respective rows. The partially overlapping pattern allows the connections to be less regular, which increases flexibility when routing signals on the device.
    • 提供了一种可编程逻辑器件,其允许在器件上的可编程逻辑行中检测到缺陷时将冗余的可编程逻辑行移位到位以修复器件。 通过将编程数据路由到正常逻辑和冗余逻辑中来绕过包含缺陷的逻辑行,将冗余行移位到位。 开关电路可用于将编程数据引导到各种数据寄存器的串行输入,然后将其用于将编程数据加载到器件中。 在设备上的可编程逻辑区域和垂直和水平导体之间进行的可编程连接的模式也允许将冗余逻辑移位到位。 逻辑和水平和垂直导体之间的一些连接可以在列内相同以便于移动。 其他连接可能仅在相应行之间部分重叠。 部分重叠的模式允许连接不太规则,这在设备上路由信号时增加灵活性。
    • 7. 发明授权
    • Redundancy circuitry for programmable logic devices with interleaved input circuits
    • 具有交错输入电路的可编程逻辑器件的冗余电路
    • US06337578B2
    • 2002-01-08
    • US09795870
    • 2001-02-28
    • David E. JeffersonSrinivas T. Reddy
    • David E. JeffersonSrinivas T. Reddy
    • H03K19173
    • H03K19/17764H03K19/17728H03K19/17736H03K19/1778
    • Redundant circuitry is provided for a programmable logic device that uses an interleaved input multiplexer circuit arrangement. The programmable logic device has at least one row of logic regions and has multiple columns, each of which contains one of the interleaved input multiplexers and one of the logic regions. A set of conductors associated with the row of logic regions is used to convey signals between the logic regions. Each interleaved logic region distributes logic signals from the conductors in the row to two adjacent logic regions. Bypass circuitry is provided in each column for bypassing the interleaved input multiplexer and logic region in that column. If a defect is detected in a column during testing of the device, the manufacturer can repair the device using the bypass circuitry to bypass that column. Spare logic is provided to replace the circuitry lost when a defective column is bypassed.
    • 为可编程逻辑器件提供冗余电路,该可编程逻辑器件使用交错输入多路复用器电路装置。 可编程逻辑器件具有至少一行逻辑区域,并且具有多个列,每个列包含交错输入多路复用器之一和逻辑区中的一个。 与逻辑区域行相关联的一组导体用于在逻辑区域之间传送信号。 每个交错逻辑区域将逻辑信号从行中的导体分配到两个相邻的逻辑区域。 在每列中提供旁路电路,以绕过该列中的交错输入多路复用器和逻辑区域。 如果在测试设备期间在列中检测到缺陷,制造商可以使用旁路电路修复设备以绕过该列。 提供备用逻辑来替代绕过故障列时丢失的电路。
    • 8. 发明授权
    • Fast signal conductor networks for programmable logic devices
    • 用于可编程逻辑器件的快速信号导线网络
    • US06225822B1
    • 2001-05-01
    • US09287048
    • 1999-04-06
    • Christopher F. LaneSrinivas T. Reddy
    • Christopher F. LaneSrinivas T. Reddy
    • H03K19177
    • H03K19/17736H03K19/17792
    • A programmable logic integrated circuit device has a plurality of areas of programmable logic disposed on the device in a two-dimensional array of intersecting rows and columns of such areas. A so-called “fast conductor” network is provided on the device for rapidly and efficiently distributing a relatively small number of signals to substantially any logic area on the device. The fast conductor network has several main conductors that substantially bisect the array in one direction (e.g., by extending parallel to the column axis). Some main conductors can carry signals from off the device. Other main conductors can carry signals generated on the device. The network further includes secondary conductors that extend transverse to the main conductors (e.g., along each row of logic areas). Programmable logic connectors are provided for selectively applying signals from the main conductors to the secondary conductors and from the secondary conductors to the logic areas.
    • 可编程逻辑集成电路器件具有多个可编程逻辑区域,该可编程逻辑区域以这种区域的交叉行和列的二维阵列布置在器件上。 在设备上提供了所谓的“快速导体”网络,用于将相对较少数量的信号快速有效地分配到设备上的基本上任何逻辑区域。 快速导体网络具有几个主导体,其在一个方向上基本上平分阵列(例如,通过平行于列轴线延伸)。 一些主导体可以携带离开设备的信号。 其他主导体可以携带在设备上产生的信号。 网络还包括横向于主导体(例如,沿着每一排逻辑区域)延伸的次级导体。 提供可编程逻辑连接器,用于选择性地将信号从主导体施加到次级导体,并从次导体到逻辑区域。