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    • 21. 发明授权
    • Post facto identification and prioritization of causes of buffer consumption
    • 缓冲区消费原因的事后识别和优先级排序
    • US08776008B2
    • 2014-07-08
    • US12610228
    • 2009-10-30
    • Ajai KapoorRavi ShankarXiangting YuanAnthony H. HoangPrakash K. Pati
    • Ajai KapoorRavi ShankarXiangting YuanAnthony H. HoangPrakash K. Pati
    • G06F9/44G06Q10/00
    • G06Q10/06
    • Some embodiments of the present invention provide systems and techniques for collecting task status information. During operation, the system can receive a status update for a task from a task manager through a GUI. Next, the system can determine whether the first status update for the task indicates that the task is delayed. If the status update indicates that the task is delayed, the system can request the task manager to indicate the help needed to resolve the task delay. Next, the system can receive a help needed descriptor from the task manager. Subsequently, the system can receive another status update for the task from the task manager, wherein the status update indicates that the help specified in the help needed descriptor is no longer required. Next, the system can determine an amount of delay associated with the help needed descriptor.
    • 本发明的一些实施例提供了用于收集任务状态信息的系统和技术。 在操作期间,系统可以通过GUI从任务管理器接收任务的状态更新。 接下来,系统可以确定任务的第一状态更新是否指示任务被延迟。 如果状态更新指示任务延迟,则系统可以请求任务管理器指示解决任务延迟所需的帮助。 接下来,系统可以从任务管理器接收需要帮助的描述符。 随后,系统可以从任务管理器接收任务的另一状态更新,其中状态更新指示不再需要在帮助需求描述符中指定的帮助。 接下来,系统可以确定与帮助需要的描述符相关联的延迟量。
    • 25. 发明授权
    • Zero-gap playback using predictive mixing
    • 使用预测混合的零间隙播放
    • US08069051B2
    • 2011-11-29
    • US11860786
    • 2007-09-25
    • Aram LindahlAnthony J. Guetta
    • Aram LindahlAnthony J. Guetta
    • G10L21/04G10L19/00H04B15/00G06F7/38
    • G10L21/04G11B27/038G11B27/105G11B27/28
    • Circuits and methods for providing zero-gap playback of consecutive data streams in portable electronic devices, such as media players, are described. In some embodiments, a circuit includes a decoder circuit configured to receive encoded audio data and to output decoded audio data including data streams associated with a data file and a subsequent data file. Moreover, a predictive circuit, which is electrically coupled to the decoder circuit, is configured to selectively generate additional samples based on samples in the data file, where the additional samples correspond to times after the end of a data stream associated with the data file. Additionally, a filter circuit, which is electrically coupled to the decoder circuit and selectively electrically coupled to the predictive circuit, is configured to selectively combine or blend samples at a beginning of the subsequent data file with the additional samples. Note that the circuit may be included in an integrated circuit.
    • 描述了用于在诸如媒体播放器的便携式电子设备中提供连续数据流的零间隙回放的电路和方法。 在一些实施例中,电路包括解码器电路,其被配置为接收经编码的音频数据并输出解码的音频数据,其包括与数据文件和后续数据文件相关联的数据流。 此外,电耦合到解码器电路的预测电路被配置为基于数据文件中的样本选择性地生成附加采样,其中附加样本对应于与数据文件相关联的数据流结束之后的时间。 另外,电耦合到解码器电路并且选择性地电耦合到预测电路的滤波器电路被配置为在随后的数据文件的开始处选择性地组合或混合样本与附加采样。 注意,电路可以包括在集成电路中。
    • 26. 发明授权
    • Transmission control protocol queue sorting
    • 传输控制协议队列排序
    • US07876677B2
    • 2011-01-25
    • US11805503
    • 2007-05-22
    • Stuart D. Cheshire
    • Stuart D. Cheshire
    • G01R31/08
    • H04L47/34H04L47/10H04L47/193H04L47/50H04L47/624
    • A device that queues and transmits data packets is described. This device includes: a queue configured to store data packets awaiting transmission; a controller configured to dynamically determine an order in which the data packets are transmitted from the queue; and a transmission mechanism configured to transmit the data packets from the queue in the determined order. The transmission order is determined using Transmission Control Protocol (TCP) sequence numbers and/or TCP timestamps contained in the data packets in the queue in order to provide increased utility without reducing existing fairness between independent data streams.
    • 描述了排队和传输数据包的设备。 该设备包括:被配置为存储等待传输的数据分组的队列; 控制器,被配置为动态地确定从队列发送数据分组的顺序; 以及发送机构,被配置为以确定的顺序从队列发送数据分组。 使用包含在队列中的数据分组中的传输控制协议(TCP)序列号和/或TCP时间戳来确定传输顺序,以提供增加的效用而不减少独立数据流之间的现有公平性。
    • 30. 发明授权
    • Method and apparatus for determining a process model that models the impact of a CAR/PEB on the resist profile
    • 用于确定对CAR / PEB对抗蚀剂轮廓的影响的模型的过程模型的方法和装置
    • US07934176B2
    • 2011-04-26
    • US12774522
    • 2010-05-05
    • Jensheng HuangChun-chieh KuoLawrence S. Melvin, III
    • Jensheng HuangChun-chieh KuoLawrence S. Melvin, III
    • G06F17/50
    • G03F7/70675G03F7/705G03F7/70666
    • An embodiment provides systems and techniques for determining a process model. During operation, the system may receive a first optical model which models a first optical system of a photolithography process. Next, the system may use the first optical model to determine a second optical model that models a second latent image that is formed by the first optical system at a second distance. The system may also use the first optical model to determine a third optical model that models a third latent image that is formed by the first optical system at a third distance. Next, the system may receive process data which is obtained by subjecting a test layout to the photolithography process. The system may then determine a process model using the first optical model, the second optical model, the third optical model, the test layout, and the process data.
    • 实施例提供了用于确定过程模型的系统和技术。 在操作期间,系统可以接收对光刻工艺的第一光学系统建模的第一光学模型。 接下来,系统可以使用第一光学模型来确定在第二距离上对由第一光学系统形成的第二潜像建模的第二光学模型。 系统还可以使用第一光学模型来确定在第三距离上对由第一光学系统形成的第三潜像进行建模的第三光学模型。 接下来,系统可以接收通过对测试布局进行光刻处理而获得的处理数据。 然后,系统可以使用第一光学模型,第二光学模型,第三光学模型,测试布局和过程数据来确定过程模型。