会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Layout impact reduction with angled phase shapes
    • 具有角度相位形状的布局冲击减少
    • US07135255B2
    • 2006-11-14
    • US10249317
    • 2003-03-31
    • Scott J. BukofskyJohn K. DeBrosseMarco HugLars W. LiebmannDaniel J. NickelJuergen Preuninger
    • Scott J. BukofskyJohn K. DeBrosseMarco HugLars W. LiebmannDaniel J. NickelJuergen Preuninger
    • G01F9/00
    • G03F1/30
    • A phase shift mask shape that reduces line-end shortening at the critical feature without changing layout size increases required of requisite phase shift rules. The phase feature is given an angled extension, which includes the lithographic shortening value. This allows the critical shape to be designed much closer to the reference layer then it could without the angled extension feature. Phase mask extension features beyond a given device segment are significantly reduced by lengthening the feature along an uncritical portion; moving the feature reference point to the device layer; and flattening the phase extension feature into an L-shape or T-shape along the uncritical parts of a device segment. Applying these design rules allows a draw of the gate conductor under current conditions and puts phase shapes inside without extending the gate conductor dimensions to the next feature.
    • 减少关键特征而不改变布局尺寸的线端缩短的相移掩模形状增加了所需的相移规则。 相位特征给出一个有角度的延伸,其包括光刻缩短值。 这允许将临界形状设计得更接近参考层,然后它可以没有成角度的延伸特征。 通过沿着非临界部分延长特征,显着减少了给定装置段之外的相位掩模延伸特征; 将特征参考点移动到设备层; 并且将相延伸特征沿着装置段的非关键部分平坦化为L形或T形。 应用这些设计规则允许在当前条件下绘制栅极导体,并将相位形状置于内部,而不会将栅极导体尺寸延伸到下一个特征。
    • 4. 发明授权
    • Method of automated ESD protection level verification
    • 自动化ESD保护等级验证方法
    • US6086627A
    • 2000-07-11
    • US15825
    • 1998-01-29
    • Roy S. Bass, Jr.Daniel J. NickelDaniel C. SullivanSteven H. Voldman
    • Roy S. Bass, Jr.Daniel J. NickelDaniel C. SullivanSteven H. Voldman
    • G06F17/50
    • G06F17/5081
    • A integrated circuit (IC) chip with ESD protection level and the system and method of wiring the IC chip. Minimum wire width and maximum resistance constraints are applied to each of the chip's I/O ports. These constraints are propagated to the design and array pads are wired to I/O cells located on the chip. Thus, wiring is such that wires and vias to ESD protect devices are wide enough to provide adequate ESD protection level. The design is then verified by first identifying the chip pads, I/O cells and ESD protect devices. Connections between these three structures are verified. Wires between the ESD protect devices and the chip pads and I/O cells are shrunk such that unsuitable connections becomes opens (disconnected) and are found in subsequent checking. Finally connections to guard rings are checked. Power rails are checked in a similar manner.
    • 具有ESD保护等级的集成电路(IC)芯片,以及IC芯片接线的系统和方法。 每个芯片的I / O端口都应用最小导线宽度和最大电阻约束。 这些约束被传播到设计,并且阵列焊盘被连接到位于芯片上的I / O单元。 因此,布线使得ESD保护器件的导线和通孔足够宽以提供足够的ESD保护等级。 然后通过首先识别芯片焊盘,I / O单元和ESD保护器件来验证该设计。 验证这三个结构之间的连接。 ESD保护器件与芯片焊盘和I / O单元之间的电线会收缩,使得不合适的连接变得断开(断开),并在随后的检查中找到。 最后检查与保护环的连接。 以类似的方式检查电源轨。
    • 5. 发明授权
    • IC design density checking method, system and program product
    • IC设计密度检测方法,系统和程序产品
    • US07093212B2
    • 2006-08-15
    • US10708820
    • 2004-03-26
    • William F. DeCampDaniel J. Nickel
    • William F. DeCampDaniel J. Nickel
    • G06F17/50
    • G06F17/5081
    • A system, method and program product for performing density checking of an IC design. The invention establishes an evaluation array for the IC design including an array element for each evaluation window of the IC design. The number of evaluation windows is based on a smallest necessary granularity. A single pass through shape data for the IC design is then conducted to populate each array element with a shape area for a corresponding evaluation window. Density checking is performed by iterating over the evaluation array using a sub-array. The sub-array may have the size of the preferred density design rule window. The invention removes the need for repetitive calculations, and results in a more efficient approach to density checking.
    • 一种用于执行IC设计的密度检查的系统,方法和程序产品。 本发明建立了用于IC设计的评估阵列,其包括用于IC设计的每个评估窗口的阵列元件。 评估窗口的数量基于最小的必要粒度。 然后对IC设计进行单次通过形状数据,以便为每个阵列元素填充相应评估窗口的形状区域。 通过使用子数组迭代评估数组来执行密度检查。 子阵列可以具有优选密度设计规则窗口的大小。 本发明消除了对重复计算的需要,并且导致了更有效的密度检查方法。