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    • 1. 发明申请
    • DRIVER ARCHITECTURE FOR COMPUTER DEVICE HAVING MULTIPLE GRAPHICS SUBSYSTEMS, REDUCED POWER CONSUMPTION MODES, SOFTWARE AND METHODS
    • 具有多个图形子系统的计算机设备的驱动器架构,降低功耗模式,软件和方法
    • US20090153540A1
    • 2009-06-18
    • US12335258
    • 2008-12-15
    • Paul BlinzerPhil Mummah
    • Paul BlinzerPhil Mummah
    • G06F3/038G06F15/16
    • G06F1/3203G06F1/3265G06F1/3293G09G5/12G09G5/363G09G2330/022G09G2340/0435G09G2360/06G09G2370/04Y02D10/122Y02D10/153
    • Many computing device may now include two or more graphics subsystems. The multiple graphics subsystems may have different abilities, and may, for example, consume differing amount of electrical power, with one subsystem consuming more average power than the others. The higher power consuming graphics subsystem may be coupled to the device and used instead of, or in addition to, the lower power consuming graphics subsystem, resulting in higher performance or additional capabilities, but increased overall power consumption. By transitioning from the use of the higher power consuming graphics subsystem to the lower power consuming graphics subsystem, while placing the higher power consuming graphics subsystem in a lower power consumption mode, overall power consumption is reduced. A processor executes application software and driver software. The driver software includes first and second driver components for respectively controlling operation of the first and second graphics subsystems. A further proxy driver component routes calls (e.g. API/DDI calls) to one of said first and second driver components, in dependence on which of the first and second graphics system is in use.
    • 许多计算设备现在可以包括两个或更多个图形子系统。 多个图形子系统可能具有不同的能力,并且可以例如消耗不同的电力量,一个子系统比其他子系统消耗更多的平均功率。 较高功耗的图形子系统可以耦合到该设备,并且被代替或者除了低功耗的图形子系统之外使用,导致更高的性能或附加的能力,但增加了整体的功耗。 通过从使用较高功耗的图形子系统转换到较低功耗的图形子系统,在将较高功率消耗的图形子系统置于较低功耗模式的同时,总体功耗降低。 处理器执行应用软件和驱动程序软件。 驱动器软件包括用于分别控制第一和第二图形子系统的操作的第一和第二驱动器组件。 根据第一和第二图形系统中的哪一个在使用中,另外的代理驱动器组件将呼叫(例如,API / DDI呼叫)​​路由到所述第一和第二驱动器组件之一。
    • 2. 发明授权
    • Driver architecture for computing device having multiple graphics subsystems, reduced power consumption modes, software and methods
    • 具有多个图形子系统的计算设备的驱动程序架构,降低的功耗模式,软件和方法
    • US08487943B2
    • 2013-07-16
    • US12335258
    • 2008-12-15
    • Paul BlinzerPhil Mummah
    • Paul BlinzerPhil Mummah
    • G06F15/16G06F13/14
    • G06F1/3203G06F1/3265G06F1/3293G09G5/12G09G5/363G09G2330/022G09G2340/0435G09G2360/06G09G2370/04Y02D10/122Y02D10/153
    • Many computing device may now include two or more graphics subsystems. The multiple graphics subsystems may have different abilities, and may, for example, consume differing amount of electrical power, with one subsystem consuming more average power than the others. The higher power consuming graphics subsystem may be coupled to the device and used instead of, or in addition to, the lower power consuming graphics subsystem, resulting in higher performance or additional capabilities, but increased overall power consumption. By transitioning from the use of the higher power consuming graphics subsystem to the lower power consuming graphics subsystem, while placing the higher power consuming graphics subsystem in a lower power consumption mode, overall power consumption is reduced. A processor executes application software and driver software. The driver software includes first and second driver components for respectively controlling operation of the first and second graphics subsystems. A further proxy driver component routes calls (e.g. API/DDI calls) to one of said first and second driver components, in dependence on which of the first and second graphics system is in use.
    • 许多计算设备现在可以包括两个或更多个图形子系统。 多个图形子系统可以具有不同的能力,并且可以例如消耗不同的电力量,一个子系统比其他子系统消耗更多的平均功率。 较高功耗的图形子系统可以耦合到该设备,并且被代替或者除了低功耗的图形子系统之外使用,导致更高的性能或附加的能力,但增加了整体的功耗。 通过从使用较高功耗的图形子系统转换到较低功耗的图形子系统,在将较高功率消耗的图形子系统置于较低功耗模式的同时,总体功耗降低。 处理器执行应用软件和驱动程序软件。 驱动器软件包括用于分别控制第一和第二图形子系统的操作的第一和第二驱动器组件。 根据第一和第二图形系统中的哪一个在使用中,另外的代理驱动器组件将呼叫(例如,API / DDI呼叫)​​路由到所述第一和第二驱动器组件之一。
    • 7. 发明授权
    • Software controlled redirection of configuration address spaces
    • 软件控制重定向配置地址空间
    • US08595386B2
    • 2013-11-26
    • US12534351
    • 2009-08-03
    • Paul Blinzer
    • Paul Blinzer
    • G06F3/00
    • G06F1/3287G06F1/3203G06F1/3253G06F12/0638Y02D10/151Y02D10/171
    • A peripheral device can be powered off when not in use by redirecting accesses to the peripheral device's configuration space from the peripheral device to a memory located separate from the peripheral device. A method for redirecting accesses includes copying the current contents of the configuration space to the memory. Accesses to the configuration space are redirected to the memory, whereby the memory services the accesses to the configuration space. After the redirection is enabled, the peripheral device can be powered off. When the peripheral device needs to be used again, it is powered on and the contents of the memory are copied to the configuration space. The configuration space can then resume servicing configuration space accesses.
    • 外围设备在不使用时可以通过将外围设备的配置空间从外围设备重定向到与外围设备分离的存储器而被关闭。 用于重定向访问的方法包括将配置空间的当前内容复制到存储器。 访问配置空间被重定向到内存,从而内存服务对配置空间的访问。 启用重定向后,可以关闭外围设备。 需要再次使用外围设备时,上电并将内存的内容复制到配置空间。 然后,配置空间可以恢复服务配置空间访问。