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    • 51. 发明申请
    • System and method for reduction of leading zero detect for decimal floating point numbers
    • 用于减小十进制浮点数的前导零检测的系统和方法
    • US20060179098A1
    • 2006-08-10
    • US11054234
    • 2005-02-09
    • Michael KellyWen LiEric SchwarzWai Wong
    • Michael KellyWen LiEric SchwarzWai Wong
    • G06F7/38
    • G06F7/74G06F7/491G06F2207/4911
    • A method for leading zero detection. The method includes receiving DPD encoded data representing a three digit BCD number and determining directly from the DPD encoded data if the BCD number represented by the DPD encoded data contains at least one leading zero digit. A group one switch is set to zero if it was determined that the BCD number represented by the DPD encoded data contains at least one leading zero digit and set to one otherwise. The method also includes determining directly from the DPD encoded data if the BCD number represented by the DPD encoded data contains at least two leading zero digits. A group two switch is set to zero if it was determined that the BCD number represented by the DPD encoded data contains at least two leading zero digits and set to one otherwise. The method further includes determining directly from the DPD encoded data if the BCD number represented by the DPD encoded data contains three leading zero digits. A group three switch is set to zero if was determined that the BCD number represented by the DPD encoded data contains three leading zero digits and set to one otherwise.
    • 一种引导零检测的方法。 如果由DPD编码数据表示的BCD数字包含至少一个前导零数字,则该方法包括接收表示三位BCD号码的DPD编码数据,并直接从DPD编码数据确定。 如果确定由DPD编码数据表示的BCD数字包含至少一个前导零数字并且另外设置为一个,则将一组开关设置为零。 如果由DPD编码数据表示的BCD数字包含至少两个前导零数字,则该方法还包括直接从DPD编码数据确定。 如果确定由DPD编码数据表示的BCD数字包含至少两个前导零数字并且另外设置为一个,则组二开关被设置为零。 如果由DPD编码数据表示的BCD数字包含三个前导零数字,则该方法还包括直接从DPD编码数据确定。 如果确定由DPD编码数据表示的BCD数字包含三个前导零数字并且另外设置为一个,则组三开关被设置为零。
    • 54. 发明申请
    • Optical sight system for use with weapon simulation system
    • 用于武器模拟系统的光学瞄准系统
    • US20050233284A1
    • 2005-10-20
    • US10974543
    • 2004-10-27
    • Pando TraykovZhilie LiYang ShenWen LiJay Luo
    • Pando TraykovZhilie LiYang ShenWen LiJay Luo
    • G09B19/00
    • F41G3/2611F41G3/26
    • An optical sight system is used in conjunction with such a weapon simulation system to immerse a user in the interactive simulation by employing an actual weapon sight with a simulated weapon, such that the view through the weapon sight is a clear view of an image on a primary image display. The system includes a secondary image display electrically connected to an image generator to receive the target corresponding to a magnified version of the scenario displayed on the primary image display. To view the image on the secondary image display with the weapon sight, the optical sight system includes an optical lens to correct the long focal distance of the scope and enable it to focus on the secondary image display. Through the use of a laser on the simulated weapon, the system is able to generate the desired magnified view on the secondary image display. Using a system of interpolation and extrapolation, the optical sight system is able to further create a clear magnified view of the primary image display. The system further provides a method for correcting the angle displayed on the secondary image display to compensate for rotation of the weapon simulator as handled by the user.
    • 光学瞄准系统与这样的武器模拟系统结合使用,以将用户通过使用具有模拟武器的实际武器瞄准器来将用户浸入到交互式模拟中,使得通过武器瞄准镜的视野是清晰的视野 主图像显示。 该系统包括电连接到图像发生器以接收对应于在主图像显示器上显示的场景的放大版本的目标的次要图像显示。 要使用武器瞄准镜观看二次图像显示器上的图像,光学瞄准器系统包括一个光学透镜,用于校正示波器的长焦距并使其能够聚焦在二次图像显示上。 通过在模拟武器上使用激光,系统能够在次要图像显示器上产生期望的放大视图。 使用插值和外推系统,光学瞄准系统能够进一步创建主要图像显示的清晰放大视图。 该系统还提供了一种用于校正显示在次级图像显示器上的角度以补偿由用户处理的武器模拟器的旋转的方法。
    • 56. 发明授权
    • Apparatus for minimization of data line coupling in a semiconductor memory device
    • 用于使半导体存储器件中的数据线耦合最小化的装置
    • US06320781B1
    • 2001-11-20
    • US09824363
    • 2001-04-02
    • Wen LiManny K. Ma
    • Wen LiManny K. Ma
    • G11C506
    • G11C7/18G11C5/063G11C7/1048
    • The present disclosure includes a twist architecture useful for the data lines in a memory device. The architecture involves the twisting of four data lines to create four portions such that each data line occupies a different position in each of the four portions. Specifically, in the first portion, the first data line is adjacent to the second data line, the second data line is adjacent to the third data line, and the third data line is adjacent to the fourth data line; in the second portion, the third data line is adjacent to the first data line, the first data line is adjacent to the fourth data line, and the fourth data line is adjacent to the second data line; in the third portion, the fourth data line is adjacent to the third data line, the third data line is adjacent to the second data line, and the second data line is adjacent to the first data line; and in the fourth portion, the second data line is adjacent to the fourth data line, the fourth data line is adjacent to the first data line, and the first data line is adjacent to the third data line. Such an architecture reduces unwanted parasitic capacitive coupling between the data lines and hence improves speed.
    • 本公开包括对存储器设备中的数据线有用的扭曲架构。 该体系结构涉及四条数据线的扭转以产生四个部分,使得每个数据线在四个部分的每一个中占据不同的位置。 具体地说,在第一部分中,第一数据线与第二数据线相邻,第二数据线与第三数据线相邻,第三数据线与第四数据线相邻; 在第二部分中,第三数据线与第一数据线相邻,第一数据线与第四数据线相邻,第四数据线与第二数据线相邻; 在第三部分中,第四数据线与第三数据线相邻,第三数据线与第二数据线相邻,第二数据线与第一数据线相邻; 并且在第四部分中,第二数据线与第四数据线相邻,第四数据线与第一数据线相邻,并且第一数据线与第三数据线相邻。 这种架构减少了数据线之间的不必要的寄生电容耦合,从而提高了速度。
    • 57. 发明授权
    • Method and apparatus for minimization of data line coupling in a semiconductor memory device
    • 用于最小化半导体存储器件中的数据线耦合的方法和装置
    • US06259621B1
    • 2001-07-10
    • US09610760
    • 2000-07-06
    • Wen LiManny K. Ma
    • Wen LiManny K. Ma
    • G11C506
    • G11C7/18G11C5/063G11C7/1048
    • The present disclosure includes a twist architecture useful for the data lines in a memory device. The architecture involves the twisting of four data lines to create four portions such that each data line occupies a different position in each of the four portions. Specifically, in the first portion, the first data line is adjacent to the second data line, the second data line is adjacent to the third data line, and the third data line is adjacent to the fourth data line; in the second portion, the third data line is adjacent to the first data line, the first data line is adjacent to the fourth data line, and the fourth data line is adjacent to the second data line; in the third portion, the fourth data line is adjacent to the third data line, the third data line is adjacent to the second data line, and the second data line is adjacent to the first data line; and in the fourth portion, the second data line is adjacent to the fourth data line, the fourth data line is adjacent to the first data line, and the first data line is adjacent to the third data line. Such an architecture reduces unwanted parasitic capacitive coupling between the data lines and hence improves speed.
    • 本公开包括对存储器设备中的数据线有用的扭曲架构。 该体系结构涉及四条数据线的扭转以产生四个部分,使得每个数据线在四个部分的每一个中占据不同的位置。 具体地说,在第一部分中,第一数据线与第二数据线相邻,第二数据线与第三数据线相邻,第三数据线与第四数据线相邻; 在第二部分中,第三数据线与第一数据线相邻,第一数据线与第四数据线相邻,第四数据线与第二数据线相邻; 在第三部分中,第四数据线与第三数据线相邻,第三数据线与第二数据线相邻,第二数据线与第一数据线相邻; 并且在第四部分中,第二数据线与第四数据线相邻,第四数据线与第一数据线相邻,并且第一数据线与第三数据线相邻。 这种架构减少了数据线之间的不必要的寄生电容耦合,从而提高了速度。