公开(公告)号：US20160291653A1

公开(公告)日：2016-10-06

申请号：US14675393

申请日：2015-03-31

Applicant: QUALCOMM INCORPORATED

Inventor： ANIL VOOTUKURU ,  ANKUR JAIN ,  UNNIKRISHNAN VADAKKANMARUVEEDU ,  VINAY MITTER ,  CHRISTOPHER LEE MEDRANO

IPC: G06F1/20 ,  G05B15/02 ,  G01K13/00

CPC classification number: G06F1/206 ,  G01K7/427 ,  G01K13/00 ,  G05B15/02 ,  G06F1/203 ,  G06F1/3206 ,  G06F1/324 ,  G06F1/3243 ,  G06F1/3296 ,  Y02D10/126 ,  Y02D10/152 ,  Y02D10/172

Abstract: Thermal management in a portable computing device differentiates between a temperature increase caused by a steady workload and a temperature increase caused by an instantaneous workload. If it is determined that a detected temperature increase is caused by a steady workload, then a configuration of thermal parameters is applied that optimizes thermal performance for a steady workload. If it is determined that a temperature increase is caused by an instantaneous workload increase, then a configuration of thermal parameters is applied that optimizes thermal performance for an instantaneous workload.

Abstract translation: 便携式计算设备中的热管理区分由稳定的工作负载导致的温度升高和由瞬时工作量引起的温度升高。 如果确定检测到的温度升高是由稳定的工作量引起的，则应用热参数的配置，其优化用于稳定工作负载的热性能。 如果确定温度升高是由瞬间工作量增加引起的，则应用热参数的配置，其优化了瞬时工作负荷的热性能。

公开(公告)号：US20160127259A1

公开(公告)日：2016-05-05

申请号：US14588812

申请日：2015-01-02

Applicant: QUALCOMM INCORPORATED

Inventor： CRISTIAN DUROIU ,  VINOD CHAMARTY ,  SERAG GADELRAB ,  MICHAEL DROP ,  POOJA SINHA ,  RUOLONG LIU ,  JOHN DANIEL CHAPARRO ,  VINODH RAMESH CUPPU ,  JOSEPH SCHWEIRAY LEE ,  JOHNNY JONE WAI KUAN ,  PAUL CHOW ,  ANIL VOOTUKURU ,  VINAY MITTER

IPC: H04L12/911

CPC classification number: H04L47/783 ,  G06F1/32 ,  G06F1/3206 ,  G06F1/3215 ,  G06F1/3225 ,  G06F1/3234 ,  G06F1/3243 ,  G06F1/3275 ,  G06F1/3287 ,  G06F1/3296 ,  G06F3/005 ,  G06F3/061 ,  G06F3/0611 ,  G06F3/0613 ,  G06F9/50 ,  G06F9/5016 ,  G06F9/505 ,  G06F13/00 ,  G06F13/14 ,  G06F13/16 ,  G06F13/1626 ,  H04L47/70 ,  H04L47/72 ,  H04L47/78 ,  H04L47/781 ,  H04L47/788

Abstract: A method and system for managing safe downtime of shared resources within a portable computing device are described. The method may include determining a tolerance for a downtime period for an unacceptable deadline miss element of the portable computing device. Next, the determined tolerance for the downtime period may be transmitted to quality-of-service (“QoS”) controller. The QoS controller may determine if the tolerance for the downtime period needs to be adjusted. The QoS controller may receive a downtime request from one or more shared resources of the portable computing device. The QoS controller may determine if the downtime request needs to be adjusted. Next, the QoS controller may select a downtime request for execution and then identify which one or more unacceptable deadline miss elements of the portable computing device that are impacted by the selected downtime request.

Abstract translation: 描述了用于管理便携式计算设备内的共享资源的安全停机的方法和系统。 该方法可以包括确定便携式计算设备的不可接受的最后期限缺失元件的停机时间的容差。 接下来，所确定的停机时间的容限可以被发送到服务质量（“QoS”）控制器。 QoS控制器可以确定是否需要调整停机时间的容差。 QoS控制器可以从便携式计算设备的一个或多个共享资源接收停机请求。 QoS控制器可以确定是否需要调整停机请求。 接下来，QoS控制器可以选择用于执行的停机请求，然后识别受所选择的停机时间请求影响的便携式计算设备中哪一个或多个不可接受的最后期限未决元件。

公开(公告)号：US20160117215A1

公开(公告)日：2016-04-28

申请号：US14588798

申请日：2015-01-02

Applicant: QUALCOMM INCORPORATED

Inventor： SERAG GADELRAB ,  CRISTIAN DUROIU ,  VINOD CHAMARTY ,  POOJA SINHA ,  JOHN DANIEL CHAPARRO ,  ANIL VOOTUKURU ,  VINODH RAMESH CUPPU ,  JOSEPH SCHWEIRAY LEE ,  VINAY MITTER ,  PAUL CHOW ,  RUOLONG LIU ,  JOHNNY JONE WAI KUAN

IPC: G06F11/07 ,  G06F1/08 ,  G06F13/40

CPC classification number: G06F11/0781 ,  G06F1/08 ,  G06F11/0742 ,  G06F11/0793 ,  G06F13/4022

Abstract: A method and system for adjusting bandwidth within a portable computing device based on danger signals monitored from one on more elements of the portable computing device are disclosed. A danger level of an unacceptable deadline miss (“UDM”) element of the portable computing device may be determined with a danger level sensor within the UDM element. Next, a quality of service (“QoS”) controller may adjust a magnitude for one or more danger levels received based on the UDM element type that generated the danger level and based on a potential fault condition type associated with the particular danger level. The danger levels received from one UDM element may be mapped to at least one of another UDM element and a non-UDM element. A quality of service policy for each UDM element and non-UDM element may be mapped in accordance with the danger levels.

Abstract translation: 公开了一种用于基于从便携式计算设备的更多元件监控的危险信号来调整便携式计算设备内的带宽的方法和系统。 可以使用UDM元件内的危险水平传感器来确定便携式计算设备的不可接受的期限错误（“UDM”）元件的危险等级。 接下来，服务质量（“QoS”）控制器可以基于产生危险等级的UDM元素类型并且基于与特定危险等级相关联的潜在故障条件类型来调整接收到的一个或多个危险等级的大小。 从一个UDM元件接收到的危险等级可被映射到另一UDM元件和非UDM元件中的至少一个。 可以根据危险等级映射每个UDM元素和非UDM元素的服务质量策略。

公开(公告)号：US20150169016A1

公开(公告)日：2015-06-18

申请号：US14600667

申请日：2015-01-20

Applicant: QUALCOMM INCORPORATED

Inventor： PARAS S. DOSHI ,  ANKUR JAIN ,  UNNIKRISHNAN VADAKKANMARUVEEDU ,  VINJAY MITTER ,  ANIL VOOTUKURU ,  RONALD F. ALTON ,  JON J. ANDERSON

IPC: G06F1/20 ,  G06F11/30 ,  G06F1/32

CPC classification number: G06F1/206 ,  G06F1/3203 ,  G06F1/324 ,  G06F1/3287 ,  G06F1/3296 ,  G06F11/3031 ,  G06F11/3037 ,  G06F11/3058 ,  Y02D10/126 ,  Y02D10/172

Abstract: Various embodiments of methods and systems for adaptive thermal management techniques implemented in a portable computing device (“PCD”) are disclosed. Notably, in many PCDs, temperature thresholds associated with various components in the PCD such as, but not limited to, die junction temperatures, package on package (“PoP”) memory temperatures and the “touch temperature” of the external surfaces of the device itself limits the extent to which the performance capabilities of the PCD can be exploited. It is an advantage of the various embodiments of methods and systems for adaptive thermal management that, when a temperature threshold is violated, the performance of the PCD is sacrificed only as much and for as long as necessary to clear the violation before authorizing the thermally aggressive processing component(s) to return to a maximum operating power.

Abstract translation: 公开了在便携式计算设备（“PCD”）中实现的用于自适应热管理技术的方法和系统的各种实施例。 值得注意的是，在许多PCD中，与PCD中各种组件相关的温度阈值，例如但不限于芯片结温度，封装封装（“PoP”）存储器温度和器件外表面的“触摸温度” 本身限制了可以利用PCD的性能能力的程度。 对于自适应热管理的方法和系统的各种实施例的优点在于，当违反温度阈值时，PCD的性能只能在授权热攻击之前被尽可能多地牺牲，并且在必要时被清除， 处理组件返回到最大操作功率。