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    • 1. 发明授权
    • Parallel array architecture for constant current electro-migration stress testing
    • 用于恒流电迁移应力测试的并行阵列架构
    • US08217671B2
    • 2012-07-10
    • US12492619
    • 2009-06-26
    • Kanak B. AgarwalPeter A. HabitzJerry D. HayesYing LiuDeborah M. MasseyAlvin W. Strong
    • Kanak B. AgarwalPeter A. HabitzJerry D. HayesYing LiuDeborah M. MasseyAlvin W. Strong
    • G01R31/00
    • G01R31/2858
    • A parallel array architecture for constant current electro-migration stress testing is provided. The parallel array architecture comprises a device under test (DUT) array having a plurality of DUTs coupled in parallel and a plurality of localized heating elements associated with respective ones of the DUTs in the DUT array. The architecture further comprises DUT selection logic that isolates individual DUTs within the array. Moreover, the architecture comprises current source logic that provides a reference current and controls the current through the DUTs in the DUT array such that each DUT in the DUT array has substantially a same current density, and current source enable logic for selectively enabling portions for the current source logic. Electro-migration stress testing is performed on the DUTs of the DUT array using the heating elements, the DUT selection logic, current source logic, and current source enable logic.
    • 提供了一种用于恒流电迁移应力测试的并行阵列架构。 并行阵列结构包括被测器件(DUT)阵列,其具有并联耦合的多个DUT和与DUT阵列中相应的DUT相关联的多个局部加热元件。 该架构还包括DUT阵列中的各个DUT隔离的DUT选择逻辑。 此外,该架构包括提供参考电流并且控制通过DUT阵列中的DUT的电流的电流源逻辑,使得DUT阵列中的每个DUT具有基本上相同的电流密度,以及电流源使能逻辑,用于选择性地使能部分 电流源逻辑。 使用加热元件,DUT选择逻辑,电流源逻辑和电流源使能逻辑在DUT阵列的DUT上执行电迁移应力测试。
    • 2. 发明申请
    • Parallel Array Architecture for Constant Current Electro-Migration Stress Testing
    • 用于恒流电迁移应力测试的并行阵列架构
    • US20100327892A1
    • 2010-12-30
    • US12492619
    • 2009-06-26
    • Kanak B. AgarwalPeter A. HabitzJerry D. HayesYing LiuDeborah M. MasseyAlvin W. Strong
    • Kanak B. AgarwalPeter A. HabitzJerry D. HayesYing LiuDeborah M. MasseyAlvin W. Strong
    • G01R31/02
    • G01R31/2858
    • A parallel array architecture for constant current electro-migration stress testing is provided. The parallel array architecture comprises a device under test (DUT) array having a plurality of DUTs coupled in parallel and a plurality of localized heating elements associated with respective ones of the DUTs in the DUT array. The architecture further comprises DUT selection logic that isolates individual DUTs within the array. Moreover, the architecture comprises current source logic that provides a reference current and controls the current through the DUTs in the DUT array such that each DUT in the DUT array has substantially a same current density, and current source enable logic for selectively enabling portions for the current source logic. Electro-migration stress testing is performed on the DUTs of the DUT array using the heating elements, the DUT selection logic, current source logic, and current source enable logic.
    • 提供了一种用于恒流电迁移应力测试的并行阵列架构。 并行阵列结构包括被测器件(DUT)阵列,其具有并联耦合的多个DUT和与DUT阵列中相应的DUT相关联的多个局部加热元件。 该架构还包括DUT阵列中的各个DUT隔离的DUT选择逻辑。 此外,该架构包括提供参考电流并且控制通过DUT阵列中的DUT的电流的电流源逻辑,使得DUT阵列中的每个DUT具有基本上相同的电流密度,以及电流源使能逻辑,用于选择性地使能部分 电流源逻辑。 使用加热元件,DUT选择逻辑,电流源逻辑和电流源使能逻辑在DUT阵列的DUT上执行电迁移应力测试。
    • 3. 发明授权
    • Method of generating wiring routes with matching delay in the presence of process variation
    • 在存在过程变化的情况下生成具有匹配延迟的布线路线的方法
    • US07418689B2
    • 2008-08-26
    • US10908102
    • 2005-04-27
    • Peter A. HabitzDavid J. HathawayJerry D. HayesAnthony D. Polson
    • Peter A. HabitzDavid J. HathawayJerry D. HayesAnthony D. Polson
    • G06F17/50
    • G06F17/5077
    • A method and service of balancing delay in a circuit design begins with nodes that are to be connected together by a wiring design, or by being supplied with an initial wiring design that is to be altered. The wiring design will have many wiring paths, such as a first wiring path, a second wiring path, etc. Two or more of the wiring paths are designed to have matching timing, such that the time needed for a signal to travel along the first wiring path is about the same time needed for a signal to travel along the second wiring path, the third path, etc. The method/service designs one or all of the wiring paths to make the paths traverse wire segments of about the same length and orientation, within each wiring level that the first wiring path and the second wiring path traverse. Also, this process makes the first wiring path and the second wiring path traverse the wire segments in the same order, within each wiring level that the first wiring path and the second wiring path traverse.
    • 电路设计中的平衡延迟的方法和服务从通过布线设计连接在一起的节点开始,或通过提供要被改变的初始布线设计。 布线设计将具有许多布线路径,例如第一布线路径,第二布线路径等。两条或多条布线路径被设计成具有匹配的定时,使得信号沿着第一布线路径行进所需的时间 信号沿着第二布线路径,第三路径等移动所需的大致相同的时间。该方法/服务设计一个或所有布线路径,以使路径穿过大约相同长度的线段,并且 在第一布线路径和第二布线路径横越的各布线层内。 此外,该处理使得第一布线路径和第二布线路径在第一布线路径和第二布线路径横越的各布线层内以相同的顺序横穿线段。
    • 6. 发明申请
    • Method of Generating Wiring Routes with Matching Delay in the Presence of Process Variation
    • 在过程变化存在下生成具有匹配延迟的接线路由的方法
    • US20080195993A1
    • 2008-08-14
    • US12107158
    • 2008-04-22
    • Peter A. HabitzDavid J. HathawayJerry D. HayesAnthony D. Polson
    • Peter A. HabitzDavid J. HathawayJerry D. HayesAnthony D. Polson
    • G06F17/50
    • G06F17/5077
    • A method and service of balancing delay in a circuit design begins with nodes that are to be connected together by a wiring design, or by being supplied with an initial wiring design that is to be altered. The wiring design will have many wiring paths, such as a first wiring path, a second wiring path, etc. Two or more of the wiring paths are designed to have matching timing, such that the time needed for a signal to travel along the first wiring path is about the same time needed for a signal to travel along the second wiring path, the third path, etc. The method/service designs one or all of the wiring paths to make the paths traverse wire segments of about the same length and orientation, within each wiring level that the first wiring path and the second wiring path traverse. Also, this process makes the first wiring path and the second wiring path traverse the wire segments in the same order, within each wiring level that the first wiring path and the second wiring path traverse.
    • 电路设计中的平衡延迟的方法和服务从通过布线设计连接在一起的节点开始,或通过提供要被改变的初始布线设计。 布线设计将具有许多布线路径,例如第一布线路径,第二布线路径等。两条或多条布线路径被设计成具有匹配的定时,使得信号沿着第一布线路径行进所需的时间 信号沿着第二布线路径,第三路径等移动所需的大致相同的时间。该方法/服务设计一个或所有布线路径,以使路径穿过大约相同长度的线段,并且 在第一布线路径和第二布线路径横越的各布线层内。 此外,该处理使得第一布线路径和第二布线路径在第一布线路径和第二布线路径横越的各布线层内以相同的顺序横穿线段。
    • 8. 发明授权
    • Method of generating wiring routes with matching delay in the presence of process variation
    • 在存在过程变化的情况下生成具有匹配延迟的布线路线的方法
    • US07823115B2
    • 2010-10-26
    • US12108629
    • 2008-04-24
    • Peter A. HabitzDavid J. HathawayJerry D. HayesAnthony D. Polson
    • Peter A. HabitzDavid J. HathawayJerry D. HayesAnthony D. Polson
    • G06F17/50
    • G06F17/5077
    • A method and service of balancing delay in a circuit design begins with nodes that are to be connected together by a wiring design, or by being supplied with an initial wiring design that is to be altered. The wiring design will have many wiring paths, such as a first wiring path, a second wiring path, etc. Two or more of the wiring paths are designed to have matching timing, such that the time needed for a signal to travel along the first wiring path is about the same time needed for a signal to travel along the second wiring path, the third path, etc. The method/service designs one or all of the wiring paths to make the paths traverse wire segments of about the same length and orientation, within each wiring level that the first wiring path and the second wiring path traverse. Also, this process makes the first wiring path and the second wiring path traverse the wire segments in the same order, within each wiring level that the first wiring path and the second wiring path traverse.
    • 电路设计中的平衡延迟的方法和服务从通过布线设计连接在一起的节点开始,或通过提供要被改变的初始布线设计。 布线设计将具有许多布线路径,例如第一布线路径,第二布线路径等。两条或多条布线路径被设计成具有匹配的定时,使得信号沿着第一布线路径行进所需的时间 信号沿着第二布线路径,第三路径等移动所需的大致相同的时间。该方法/服务设计一个或所有布线路径,以使路径穿过大约相同长度的线段,并且 在第一布线路径和第二布线路径横越的各布线层内。 此外,该处理使得第一布线路径和第二布线路径在第一布线路径和第二布线路径横越的各布线层内以相同的顺序横穿线段。