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1.发明申请TRANSITION FROM LOW POWER ALWAYS LISTENING MODE TO HIGH POWER SPEECH RECOGNITION MODE 审中-公开低功耗一体化模式转换到高功率语音识别模式公开(公告)号:US20150221307A1
公开(公告)日:2015-08-06
申请号:US14360072
申请日:2013-12-20
申请人: Saurin Shah , Bryan R. Peebler , Francis M. Tharappel , Saurabh Dadu , Pierre-Louis Bossart , Devon Worrell , Edward V. Gamsaragan , Ivan Le Hin , Rakesh A. Ughreja , Singaravelan Nallasellan , Mandar S. Joshi , Ohad Falik
发明人: Saurin Shah , Bryan R. Peebler , Francis M. Tharappel , Saurabh Dadu , Pierre-Louis Bossart , Devon Worrell , Edward V. Gamsaragan , Ivan Le Hin , Rakesh A. Ughreja , Singaravelan Nallasellan , Mandar S. Joshi , Ohad Falik
IPC分类号: G10L15/28
CPC分类号: G10L15/28 , G06F1/325 , G06F1/3293 , G06F3/165 , G10L15/285 , Y02D10/122 , Y02D50/20
摘要: Disclosed are embodiments for seamless, single-step, and speech-triggered transition of a host processor and/or computing device from a low functionality mode to a high functionality mode in which full vocabulary speech recognition can be accomplished. First audio samples are captured by a low power audio processor while the host processor is in a low functionality mode. The low power audio processor may identify a predetermined audio pattern. The low power audio processor, upon identifying the predetermined audio pattern, triggers the host processor to transition to a high functionality mode. An end portion of the first audio samples that follow an end-point of the predetermined audio pattern may be stored in system memory accessible by the host processor. Second audio samples are captured and stored with the end portion of the first audio samples. Once the host processor transitions to a high functionality mode, multi-channel full vocabulary speech recognition can be performed and functions can be executed based on detected speech interaction phrases.
摘要翻译: 公开了用于主处理器和/或计算设备从低功能模式到可以完成全词汇语音识别的高功能模式的无缝,单步和语音触发的转换的实施例。 第一个音频采样由低功耗音频处理器捕获,而主机处理器处于低功能模式。 低功率音频处理器可以识别预定的音频模式。 低功率音频处理器在识别预定音频模式时触发主机处理器转换到高功能模式。 跟随预定音频图案的端点的第一音频样本的结束部分可以存储在主机处理器可访问的系统存储器中。 第二音频样本被捕获并与第一音频样本的结束部分一起存储。 一旦主处理器转换到高功能模式,就可以执行多声道全词汇语音识别,并且可以基于检测到的语音交互短语来执行功能。
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2.发明授权Systems and methods for implementing reliability, availability and serviceability in a computer system 失效在计算机系统中实现可靠性,可用性和可维护性的系统和方法公开(公告)号:US07555671B2
公开(公告)日:2009-06-30
申请号:US11513872
申请日:2006-08-31
IPC分类号: G06F11/00
CPC分类号: G06F9/4812
摘要: Embodiments include systems and methods for processing Reliability, Availability and Serviceability (RAS) events in a computer system. Embodiments comprise processing critical events in a first portion of a Management Interrupt (MI) period. The MI period is chosen to be not greater than a maximum tolerable Operating System (OS) latency period. If time remains in a current MI period after processing critical events, the system then processes non-critical events during the time remaining in the current MI period. If at the end of the current MI period, some non-critical events remain to be processed, a subsequent MI period is scheduled to process the remaining non-critical events.
摘要翻译: 实施例包括用于处理计算机系统中的可靠性,可用性和可服务性(RAS)事件的系统和方法。 实施例包括处理管理中断(MI)周期的第一部分中的关键事件。 MI周期被选择为不大于最大容许的操作系统(OS)等待时间周期。 如果在处理关键事件之后的时间内仍处于当前的MI周期,则系统在当前MI周期的剩余时间内处理非关键事件。 如果在目前的MI期结束时,一些非关键事件仍然待处理,则随后的MI期间被安排处理剩余的非关键事件。
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3.发明申请Systems and methods for implementing reliability, availability and serviceability in a computer system 失效在计算机系统中实现可靠性,可用性和可维护性的系统和方法公开(公告)号:US20080115138A1
公开(公告)日:2008-05-15
申请号:US11513872
申请日:2006-08-31
IPC分类号: G06F9/46
CPC分类号: G06F9/4812
摘要: Embodiments include systems and methods for processing Reliability, Availability and Serviceability (RAS) events in a computer system. Embodiments comprise processing critical events in a first portion of a Management Interrupt (MI) period. The MI period is chosen to be not greater than a maximum tolerable Operating System (OS) latency period. If time remains in a current MI period after processing critical events, the system then processes non-critical events during the time remaining in the current MI period. If at the end of the current MI period, some non-critical events remain to be processed, a subsequent MI period is scheduled to process the remaining non-critical events.
摘要翻译: 实施例包括用于处理计算机系统中的可靠性,可用性和可服务性(RAS)事件的系统和方法。 实施例包括处理管理中断(MI)周期的第一部分中的关键事件。 MI周期被选择为不大于最大容许的操作系统(OS)等待时间周期。 如果在处理关键事件之后的时间内仍处于当前的MI周期,则系统在当前MI周期的剩余时间内处理非关键事件。 如果在目前的MI期结束时,一些非关键事件仍然待处理,则随后的MI期间被安排处理剩余的非关键事件。
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