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
    • 24. 发明申请
    • Single-cell mechanical flotation system
    • 单细胞机械浮选系统
    • US20060169644A1
    • 2006-08-03
    • US11049015
    • 2005-02-02
    • James ChenShaya Movafaghian
    • James ChenShaya Movafaghian
    • C02F1/24
    • C02F1/24B03D1/028B03D1/1412B03D1/1462B03D1/18C02F2101/32
    • A mechanical flotation system having only one cell may be nearly as efficient as one having two or more cells, yet provide an apparatus with a considerably smaller footprint, significantly reduced capital and operating costs, as well as be resistant to floating oil recovery platform wave effects. The single-cell mechanical flotation system may have one skim collection channel that at least partially surrounds a single gas ingestion and mixing mechanism. At least one baffle may direct suspended matter or floc toward the skim collection which may be circular. The gas layer over the liquid is not vented for the purpose of gasification. The vessel may be a cylindrical pressure vessel oriented vertically, and optionally the inlet may be tangential to the periphery of the vessel to impart liquid rotation inside the vessel when liquid is introduced.
    • 仅具有一个电池的机械浮选系统可以具有与具有两个或更多个电池的机器浮选系统相同的效率,但是提供了具有相当小的占地面积的装置,显着降低了资金和运行成本,以及抵抗浮动油回收平台波浪效应 。 单细胞机械浮选系统可以具有至少部分地围绕单一气体摄取和混合机制的一个脱脂收集通道。 至少一个挡板可以将悬浮物或絮凝物引向可能是圆形的脱脂收集。 为了气化,液体上的气体层不排放。 容器可以是垂直取向的圆柱形压力容器,并且任选地,入口可以与容器的周边相切,以在引入液体时赋予容器内的液体旋转。
    • 25. 发明申请
    • Task management in a data processing environment having multiple hardware entities
    • 具有多个硬件实体的数据处理环境中的任务管理
    • US20060161923A1
    • 2006-07-20
    • US11039311
    • 2005-01-20
    • Sangram GhomanJames ChenKevin Gibble
    • Sangram GhomanJames ChenKevin Gibble
    • G06F9/46
    • G06F9/4843
    • A method of task management in a data processing system having a first hardware entity and a second hardware entity, the first and second hardware entities having dissimilar functional capabilities. The method includes providing a task for processing, queuing the task in a priority task queue associated with both the first hardware entity and the second hardware entity, and associating a context designation with the task. In addition, the method includes specifying the minimum hardware entity functional capability necessary to process the task, selecting which one of the hardware entities shall process the task, and submitting the task to the selected hardware entity for processing. The critical step of selecting which one of the first or second hardware entities shall process the task may be accomplished by determining one or more of the following parameters: which of the first hardware entity and the second hardware entity has a minimum functional capability necessary to process the task; which of the hardware entities is associated with a related task; or which of the hardware entities has resources available for processing the task.
    • 一种在具有第一硬件实体和第二硬件实体的数据处理系统中的任务管理方法,所述第一和第二硬件实体具有不同的功能能力。 该方法包括提供处理任务,将任务排队在与第一硬件实体和第二硬件实体相关联的优先级任务队列中,以及将上下文指定与该任务相关联。 此外,该方法包括指定处理任务所需的最小硬件实体功能能力,选择硬件实体中哪一个应处理任务,以及将任务提交给所选择的硬件实体进行处理。 选择第一或第二硬件实体中的哪一个应处理任务的关键步骤可以通过确定以下参数中的一个或多个来实现:第一硬件实体和第二硬件实体中的哪一个具有处理所需的最小功能能力 任务; 哪个硬件实体与相关任务相关联? 或哪些硬件实体具有可用于处理任务的资源。
    • 28. 发明申请
    • Efficient accumulation of performance statistics in a multi-port network
    • 在多端口网络中高效地累积性能统计信息
    • US20060041664A1
    • 2006-02-23
    • US10911904
    • 2004-08-04
    • Matthew KalosMichael BenhaseJames ChenPatricia Lu
    • Matthew KalosMichael BenhaseJames ChenPatricia Lu
    • G06F15/16
    • G06F11/3409G06F3/0605G06F3/0653G06F3/067G06F11/3485G06F2201/88
    • Computer networks are provided with a resource efficient ability to generate link performance statistics. To calculate the average link utilization per I/O operation, a first counter accumulates the number of I/O operations processed by a link and a second counter accumulates the time required by the link to complete each I/O operation. The second value is then divided by the first value. The number of operations per second for a link may be computed by dividing the first number by a predetermined period of time and the average number of operations using the link may be computed by dividing the second number by the predetermined period of time. A third counter may be employed to accumulate the number of bytes transferred by a link during each I/O operation. Then, average size of an I/O operation may be computed by dividing the third number by the first number and the average bandwidth per link operation may be computed by dividing the third number by the predetermined period of time. Separate sets of counters are preferably associated with each of several link types associated with a single port, thereby allowing separate statistics to be generated for each link type. The generated statistics are useful for such activities as problem resolution, load balancing and capacity planning.
    • 计算机网络具有生成链路性能统计资源的资源有效能力。 为了计算每个I / O操作的平均链路利用率,第一计数器累加由链路处理的I / O操作的数量,并且第二计数器累加链接完成每个I / O操作所需的时间。 然后将第二个值除以第一个值。 可以通过将第一个数除以预定时间段来计算每秒链接的操作次数,并且可以通过将第二个数除以预定时间段来计算使用该链接的平均操作次数。 可以使用第三计数器来累积每个I / O操作期间由链路传送的字节数。 然后,可以通过将第三个数除以第一个数字来计算I / O操作的平均大小,并且可以通过将第三个数除以预定时间段来计算每个链接操作的平均带宽。 单独的计数器组优选地与与单个端口相关联的几个链路类型中的每一个相关联,从而允许针对每个链路类型生成单独的统计信息。 生成的统计信息对于解决问题,负载平衡和容量规划等活动非常有用。