公开(公告)号：US07660775B2

公开(公告)日：2010-02-09

申请号：US11387253

申请日：2006-03-22

Applicant: Anton A. Bougaev ,  Aleksey M. Urmanov

Inventor： Anton A. Bougaev ,  Aleksey M. Urmanov

IPC: G06E1/00 ,  G06E3/00 ,  G06F15/18 ,  G06G7/00

CPC classification number: G06N7/005 ,  G06K9/6287

Abstract: One embodiment of the present invention provides a system that constructs a classifier that distinguishes between different classes of data points. During operation, the system first receives a data set, which includes class-one data points and class-two data points. For each class-one data point in the data set, the system uses a separating primitive to produce a set of point-to-point separating boundaries, wherein each point-to-point separating boundary separates the class-one data point from a different class-two data point. Next, the system combines separating boundaries in the set of separating boundaries to produce a point-to-class separating boundary that separates the class-one data point from all of the class-two data points in the data set. Finally, the system combines the point-to-class separating boundaries for each of the class-one data points to produce a class-to-class separating boundary for the classifier that separates all of the class-one data points from all of the class-two data points in the data set.

Abstract translation: 本发明的一个实施例提供一种构建区分不同类别的数据点的分类器的系统。 在操作过程中，系统首先接收一个包含一类数据点和二类数据点的数据集。 对于数据集中的每个一类数据点，系统使用分离原语来产生一组点对点分离边界，其中每个点到点分离边界将一类数据点与不同的 二级数据点。 接下来，该系统组合分离边界集合中的分离边界以产生将一类数据点与数据集中的所有二类数据点分离的点对数分离边界。 最后，该系统组合了一类数据点中的每一个数据点的点对点分离边界，从而为分类器生成一个类到类的分离边界，将所有类的一个数据点与所有类分开 - 数据集中的两个数据点。

公开(公告)号：US07659781B2

公开(公告)日：2010-02-09

申请号：US12143991

申请日：2008-06-23

Applicant: Alex Chow ,  Robert J. Drost ,  Robert D. Hopkins

Inventor： Alex Chow ,  Robert J. Drost ,  Robert D. Hopkins

IPC: H03F3/16

CPC classification number: H03F1/34 ,  H03F2200/141

Abstract: An active resistor and its use in a negative feedback amplifier allow wide voltage swings on the input and output signals. One embodiment includes parallel pass-gate MOS transistors of opposite conductivity types connected between the input and output nodes. Bootstrapping transistors are connected between the gates of the pass-gate transistors and respective bias voltages. Coupling capacitors are connected between the gates and the output node. Additional coupling capacitors may be connected between the gates and the input node to make the resistor symmetric. In other embodiments, only one pass-gate transistor is used.

Abstract translation: 有源电阻及其在负反馈放大器中的应用允许输入和输出信号上的宽电压摆幅。 一个实施例包括连接在输入和输出节点之间的相反导电类型的并行栅极MOS晶体管。 自举晶体管连接在通栅晶体管的栅极和相应的偏置电压之间。 耦合电容器连接在门和输出节点之间。 附加耦合电容器可以连接在栅极和输入节点之间，以使电阻器对称。 在其它实施例中，仅使用一个栅极晶体管。

公开(公告)号：US07658323B2

公开(公告)日：2010-02-09

申请号：US11439748

申请日：2006-05-24

Applicant: Ronald J. Kleinman ,  Robert V. Ganley, Jr.

Inventor： Ronald J. Kleinman ,  Robert V. Ganley, Jr.

IPC: G06K5/00

CPC classification number: G07G1/14 ,  G06Q20/202 ,  G06Q20/382

Abstract: A system for using compatible point-of-service (POS) applications to access and control devices of a POS unit. A server runs a POS application and a set of peripheral drivers (or device controls). A networked POS unit communicates with the host server via a communication network, and the networked POS unit includes peripherals connected locally to its I/O ports. The POS unit further includes a device communications management module processing output received from the host server that is generated by the POS application and is targeted at one of the connected peripheral ports. The device communications management module transfers POS device input from the peripherals over the communication network to the host server for processing by the POS application. The POS application interfaces with the peripheral drivers, and the output is provided by one of the peripheral drivers that corresponds to the target peripheral of the networked POS unit.

Abstract translation: 一种用于使用兼容的服务点（POS）应用来访问和控制POS单元的设备的系统。 服务器运行POS应用程序和一组外设驱动程序（或设备控件）。 网络POS单元经由通信网络与主机服务器通信，网络POS单元包括本地连接到其I / O端口的外围设备。 POS单元还包括设备通信管理模块，处理从POS服务器生成的针对所连接的外围端口之一的从主机服务器接收的输出。 设备通信管理模块通过通信网络将外部设备的POS设备输入传送到主机服务器，以便POS应用处理。 POS应用程序与外围设备驱动程序接口，输出由对应于联网POS单元的目标外围设备的外围驱动程序提供。

公开(公告)号：US20100031155A1

公开(公告)日：2010-02-04

申请号：US12182417

申请日：2008-07-30

Applicant: Nick Stephen

Inventor： Nick Stephen

IPC: G06F3/01 ,  G06F15/173

CPC classification number: H04L41/22 ,  G06F7/762 ,  H04L41/12

Abstract: One particular implementation of the present invention may take the form of a method for correlating partial views of network resources into normalized or aggregated views for use by an administrator. The implementation may compare a newly detected resource against the known set of normalized resources of the network to correlate the new resource with an existing network resource. More particularly, one method for correlating network resources may compare key/value pairs associated with a new resource with key/value pairs associated with a first normalized resource. If the new resource does not correlate to the first normalized resource, the method may then compare the key/value pairs of the new resource to the key/value pairs of the second normalized resource. A second implementation may compare a unique key/value pair to a map containing the unique key/value pairs of each normalized resource, until the unique key/value pair is found. Once a normalized resource is found with the same unique key/value pair, each remaining key/value pair of the new resource may be compared with the key/value pairs of the matching normalized resource. If the key/value pairs for each resource matches, then the new resource correlates to the normalized resource.

Abstract translation: 本发明的一个特定实现可以采取将网络资源的部分视图相关联的归一化或聚合视图以供管理员使用的方法的形式。 该实现可以将新检测到的资源与网络的已知规范化资源集合进行比较，以将新资源与现有网络资源相关联。 更具体地，一种用于关联网络资源的方法可以将与新资源相关联的密钥/值对与与第一归一化资源相关联的密钥/值对进行比较。 如果新资源与第一归一化资源不相关，则该方法然后可以将新资源的密钥/值对与第二归一化资源的密钥/值对进行比较。 第二个实现可以将唯一的密钥/值对与包含每个归一化资源的唯一密钥/值对的映射进行比较，直到找到唯一的密钥/值对。 一旦找到具有相同唯一密钥/值对的归一化资源，则可以将新资源的每个剩余密钥/值对与匹配的归一化资源的密钥/值对进行比较。 如果每个资源的密钥/值对匹配，则新资源与归一化资源相关。

公开(公告)号：US20100030394A1

公开(公告)日：2010-02-04

申请号：US12183572

申请日：2008-07-31

Applicant: Andrew J. Lewis ,  Aleksey M. Urmanov ,  Kenny C. Gross

Inventor： Andrew J. Lewis ,  Aleksey M. Urmanov ,  Kenny C. Gross

IPC: G05D23/00

CPC classification number: G05D23/19

Abstract: Embodiments of a system for regulating temperature in a computer system are described. During operation, the system estimates a thermal trajectory as a function of time in at least a portion of the computer system. Then, the system modifies a flow resistance of a cooling mechanism in a thermal-regulation system in the computer system based on the estimated thermal trajectory, where the flow resistance is modified to regulate a temperature of at least the portion of the computer system.

Abstract translation: 描述了一种用于调节计算机系统中的温度的系统的实施例。 在操作期间，系统在计算机系统的至少一部分中估计作为时间的函数的热轨迹。 然后，系统基于估计的热轨迹来修改计算机系统中的热调节系统中的冷却机构的流动阻力，其中流动阻力被修改以调节至少部分计算机系统的温度。

公开(公告)号：US07657671B2

公开(公告)日：2010-02-02

申请号：US11406757

申请日：2006-04-19

Applicant: Jeffrey S. Bonwick ,  William H. Moore ,  Matthew A. Ahrens

Inventor： Jeffrey S. Bonwick ,  William H. Moore ,  Matthew A. Ahrens

IPC: G06F12/00 ,  G06F13/00 ,  G06F13/28

CPC classification number: G06F3/0659 ,  G06F3/0611 ,  G06F3/0689

Abstract: In general, the invention relates to a method for storing data. The method includes receiving an Input/Output (I/O) request to store data in a storage pool, determining whether the I/O request is a resilvering I/O request, if the I/O request is a resilvering I/O request: associating the I/O request with a first deadline, wherein the first deadline is associated with a low priority, and determining the quantized deadline for the I/O request using the first deadline. If the I/O request is not the resilvering I/O request: associating the I/O request with a second deadline, determining the quantized deadline for the I/O request using the second deadline, placing the I/O request in the I/O queue using the quantized deadline, and issuing the I/O request to the storage pool using the I/O queue.

Abstract translation: 通常，本发明涉及一种用于存储数据的方法。 该方法包括：如果I / O请求是弹性I / O请求，则接收用于将数据存储在存储池中的输入/输出（I / O）请求，确定I / O请求是否是恢复I / O请求 ：将所述I / O请求与第一截止日期相关联，其中所述第一截止期与低优先级相关联，并且使用所述第一期限确定所述I / O请求的量化期限。 如果I / O请求不是弹性I / O请求：将I / O请求与第二个截止日期相关联，则使用第二个截止日期确定I / O请求的量化期限，将I / O请求放在I / O队列，并使用I / O队列向存储池发出I / O请求。

公开(公告)号：US07657543B1

公开(公告)日：2010-02-02

申请号：US11045961

申请日：2005-01-28

Applicant: Germano Caronni ,  Raphael J. Rom ,  Glenn C. Scott

Inventor： Germano Caronni ,  Raphael J. Rom ,  Glenn C. Scott

IPC: G06F17/30

CPC classification number: G06F9/52 ,  Y10S707/99944 ,  Y10S707/99953

Abstract: A method for storing a first copy of an object, including obtaining the object including a globally unique identifier (GUID), generating a first derived GUID using the GUID of the object, storing the first copy of the object identified by the first derived GUID in a root node of the object, publishing possession of the first copy of the object identified by the first derived GUID by the root node of the object, associating a first shadow root with the first copy of the object, and storing the first copy of the object identified by the GUID in the first shadow root.

Abstract translation: 一种用于存储对象的第一副本的方法，包括获取包含全局唯一标识符（GUID）的对象，使用对象的GUID生成第一派生GUID，将由第一派生GUID标识的对象的第一副本存储在 所述对象的根节点，通过所述对象的根节点发布由所述第一派生GUID标识的所述对象的第一副本的所有权，将所述第一影子根与所述对象的第一副本相关联，以及存储所述对象的所述第一副本 由GUID在第一个阴影根中标识的对象。

公开(公告)号：US07656805B2

公开(公告)日：2010-02-02

申请号：US11219153

申请日：2005-09-02

Applicant: Xavier-Francois Vigouroux ,  Bernard Tourancheau ,  Cedric Koch-Hofer

Inventor： Xavier-Francois Vigouroux ,  Bernard Tourancheau ,  Cedric Koch-Hofer

IPC: G01R31/08 ,  G06F15/173 ,  G06F17/20

CPC classification number: H04L45/122 ,  H04L45/06

Abstract: An electronic system in which integrated circuits employing cornered I/O are arranged in a framework including an optional path manager and at least one updateable routing table. Packet routing options are described with solutions being provided to minimize transmission latency and pathway alternatives.

Abstract translation: 一种电子系统，其中采用角化I / O的集成电路被布置在包括可选路径管理器和至少一个可更新路由表的框架中。 使用提供的解决方案来描述数据包路由选项，以最小化传输延迟和路由选择。

公开(公告)号：US20100023702A1

公开(公告)日：2010-01-28

申请号：US11824850

申请日：2007-07-02

Applicant: Erez Landau ,  Dean R. E. Long ,  Nedim Fresko

Inventor： Erez Landau ,  Dean R. E. Long ,  Nedim Fresko

IPC: G06F12/08

CPC classification number: G06F9/44563

Abstract: Techniques are disclosed for sharing programmatic modules among isolated virtual machines. A master JVM process loads data from a programmatic module, storing certain elements of that data into its private memory region, and storing other elements of that data into a “read-only” area of a shareable memory region. The master JVM process copies loaded data from its private memory region into a “read/write” area of the shareable memory region. Instead of re-loading the data from the programmatic module, other JVM processes map to the read-only area and also copy the loaded data from the read/write area into their own private memory regions. The private memory areas of all of the JVM processes begin at the same virtual memory address, so references between read-only data and copied data are preserved correctly. As a result, multiple JVM processes start up faster, and memory is conserved by avoiding the redundant storage of shareable data.

Abstract translation: 公开了用于在隔离的虚拟机之间共享程序化模块的技术。 主JVM进程从编程模块加载数据，将该数据的某些元素存储到其专用存储器区域中，并将该数据的其他元素存储到可共享存储器区域的“只读”区域中。 主JVM进程将加载的数据从其专用存储器区域复制到可共享内存区域的“读/写”区域。 代替从编程模块重新加载数据，其他JVM进程映射到只读区域，并将加载的数据从读/写区域复制到自己的专用存储器区域中。 所有JVM进程的专用内存区域都从同一个虚拟内存地址开始，因此只读数据和复制的数据之间的引用被正确保存。 因此，多个JVM进程启动速度更快，并且通过避免可共享数据的冗余存储来节省内存。

公开(公告)号：US20100023280A1

公开(公告)日：2010-01-28

申请号：US12220815

申请日：2008-07-28

Applicant: Dan Vacar ,  Anton A. Bougaev ,  David K. McElfresh ,  Kenny C. Gross

Inventor： Dan Vacar ,  Anton A. Bougaev ,  David K. McElfresh ,  Kenny C. Gross

IPC: G06F19/00

CPC classification number: G01M7/022

Abstract: Some embodiments of the present invention provide a system that characterizes a response of a device in a computer system to vibration over a frequency range. During operation, the device is vibrated at each frequency in a set of frequencies in the frequency range, wherein the device is vibrated at each frequency, one frequency at a time, until a stabilized response of the device is determined. The response of the device to vibration over the frequency range is then characterized based on information related to the stabilized response at each frequency in the set of frequencies.

Abstract translation: 本发明的一些实施例提供了表征计算机系统中的设备对频率范围内的振动的响应的系统。 在操作期间，设备以频率范围内的一组频率在每个频率处振动，其中设备以每个频率振动，一次一个频率，直到确定了设备的稳定响应。 然后，基于与频率范围内的每个频率处的稳定响应相关的信息来表征设备在频率范围上振动的响应。