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    • 2. 发明授权
    • Method for congestion detection in packet transmission networks
    • 分组传输网络拥塞检测方法
    • US08737213B2
    • 2014-05-27
    • US13026364
    • 2011-02-14
    • Radu Victor BalanChih-Wei HuangJustinian RoscaOctavian Sarca
    • Radu Victor BalanChih-Wei HuangJustinian RoscaOctavian Sarca
    • H04J1/16
    • H04L47/10H04L43/00H04L43/0847H04L43/0888H04L43/0894H04L47/11H04L47/14H04L47/28H04W28/10
    • A method for measuring degree of packet congestion on a channel of a packet communication network. The method includes: during a training mode, generating an mathematical relationship between the degree of packet congestion on the channel and a plurality of measurable features of the network over a plurality of network conditions; and, during a subsequent normal operating mode, periodically measuring the plurality of measurable features and applying the generated mathematical relationship to such periodically measured plurality of measurable features to determine actual degree of congestion on the channel; and comparing the actual degree of congestion on the channel with a predetermined channel congestion threshold level. The degree of packet congestion on the channel is saturation level. The measurable features include: time delay between transmission starts and terminations of the previously transmitted packet; the fraction of time the channel is busy; and, average number of packet transmission retries.
    • 一种用于测量分组通信网络的信道上的分组拥塞程度的方法。 该方法包括:在训练模式期间,在多个网络条件下,在信道上的分组拥塞程度与网络的多个可测量特征之间产生数学关系; 并且在随后的正常操作模式期间,周期性地测量所述多个可测量特征并将所生成的数学关系应用于所述周期性测量的多个可测量特征以确定所述信道上的实际拥塞程度; 以及将所述信道上的实际拥塞程度与预定信道拥塞阈值级别进行比较。 信道上的分组拥塞程度是饱和度。 可测量的特征包括:传输开始之间的时间延迟和先前发送的分组的终止; 频道繁忙时间的一小部分; 并且平均分组传输重试次数。
    • 3. 发明授权
    • Automated materials handling system having multiple categories of overhead buffers
    • 具有多类开销缓冲区的自动化材料处理系统
    • US08483866B2
    • 2013-07-09
    • US12433581
    • 2009-04-30
    • Chih-Wei HuangWen-Chi ChienChi-Chau Su
    • Chih-Wei HuangWen-Chi ChienChi-Chau Su
    • H01L21/67
    • H01L21/67733B66F19/00H01L21/67276
    • An automated materials handling system comprises a plurality of overhead hoist buffers (OHBs) for receiving a plurality of semiconductor wafer carriers. Each OHB is assigned to a respective one of a plurality of categories. Each wafer carrier is associated with one or more of the plurality of categories. Each respective category is associated with at least one of a plurality of event trigger types. An overhead transport (OHT) if provided for transporting each of the plurality of wafer carriers to a respective one of the OHBs in response to a respective trigger event. Each trigger event has one of the plurality of event trigger types. Each wafer carrier is stored in a respective one of the plurality of OHBs assigned to a respective one of the categories associated with the respective event trigger type of the trigger event causing that wafer carrier to be transported and stored.
    • 一种自动化材料处理系统包括用于接收多个半导体晶片载体的多个架空提升缓冲器(OHB)。 每个OHB被分配给多个类别中的相应的一个。 每个晶片载体与多个类别中的一个或多个相关联。 每个相应类别与多个事件触发类型中的至少一个相关联。 如果提供用于响应于相应的触发事件将多个晶片载体中的每一个传送到相应的一个OHB,则架空传输(OHT)。 每个触发事件具有多个事件触发类型之一。 每个晶片载体被存储在分配给与触发事件的相应事件触发类型相关联的类别中的相应一个的相应的一个OHB中,导致晶片载体被传送和存储。
    • 5. 发明申请
    • SOLID STATE DRIVE AND DATA STORING METHOD THEREOF
    • 固态驱动及其数据存储方法
    • US20130036259A1
    • 2013-02-07
    • US13412781
    • 2012-03-06
    • Chih-Wei Huang
    • Chih-Wei Huang
    • G06F12/00
    • G06F11/1048G06F3/061G06F3/0679
    • A solid state drive includes a plurality of dies. The dies are divided into first-portion dies and second-portion dies. The first-portion dies are located at a user area. The second-portion dies are located at a reserved area. The solid state drive is in communication with a host. The data storing method of the solid state drive includes the following steps. Firstly, if the host generates a plurality of write data to the solid state drive, the plurality of write data are stored into the reserved area. If there is not accessing action between the host and the solid state drive and if the write data are in the reserved area, the write data are stored into the user area. Afterwards, error correction codes corresponding to the write data in the user area are calculated and stored into the reserved area.
    • 固态驱动器包括多个管芯。 模具分为第一部分模具和第二部分模具。 第一部分模具位于用户区域。 第二部分模具位于保留区域。 固态驱动器与主机通信。 固态驱动器的数据存储方法包括以下步骤。 首先,如果主机向固态驱动器生成多个写入数据,则将多个写入数据存储到保留区域中。 如果主机和固态驱动器之间没有访问动作,并且写入数据在保留区域中,则写入数据被存储到用户区域中。 之后,计算与用户区域中的写入数据相对应的纠错码并将其存储到保留区域中。
    • 8. 发明授权
    • Optical component, manufacturing method of the same and backlight module
    • 光学部件,制造方法和背光模组
    • US07954983B2
    • 2011-06-07
    • US12421816
    • 2009-04-10
    • Yan-Zuo ChenWen-Feng ChengChih-Wei HuangChun-Wei WangCheng Lin
    • Yan-Zuo ChenWen-Feng ChengChih-Wei HuangChun-Wei WangCheng Lin
    • F21V5/00
    • G02B5/045F21V5/002F21V13/04G02F2001/133607
    • The present invention provides an optical component, a manufacturing method of the same and a backlight module including the foregoing optical component. The optical component includes a plurality of microstructures and reflecting members. The microstructure is extended along a first direction and arranged along a second direction on a light exit surface, and a distance between the first curve and the second curve in the second direction is not equal and not parallel, and a distance between the second curve and another first curve in the second direction being not equal and not parallel. Each reflecting member is extended along the first direction and arranged along the second direction on a light entrance surface and the position of each reflecting member is among two microstructures. Each of the reflecting members to the light entrance surface has a thickness t, a length of the microstructure in the second direction is a width P, the optical component has a refractive index n, and t, P and n satisfy a formula of tan−1(P/(10t))>sin−1(1/n). When the design of the optical component satisfies the foregoing formula, it will achieve better optical performance.
    • 本发明提供一种光学部件及其制造方法以及包括上述光学部件的背光模块。 光学部件包括多个微结构和反射部件。 微结构沿着第一方向延伸并且沿着第二方向在光出射表面上布置,并且第一曲线和第二曲线之间的距离在第二方向上不相等且不平行,并且第二曲线与 第二方向上的另一第一曲线不相等而不平行。 每个反射构件沿第一方向延伸并且沿着第二方向在光入射表面上布置,并且每个反射构件的位置在两个微结构中。 每个到光入射表面的反射部件具有厚度t,第二方向上的微结构的长度是宽度P,光学部件具有折射率n,并且t,P和n满足tan- 1(P /(10t))> sin-1(1 / n)。 当光学部件的设计满足上述公式时,将获得更好的光学性能。