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公开(公告)号:US09277415B2
公开(公告)日:2016-03-01
申请号:US14336585
申请日:2014-07-21
Applicant: Broadcom Corporation
Inventor: Erik John Rivard , Lih-Feng Tsaur , Shawn Shiliang Ding , Hsiao-Kai Wang , Shanshan Jiang , Daochun Liu
Abstract: A device implements multiple protocols that share overlapping resources. In some cases, a first operation, such as a scan, may have a resource conflict with a second operation associated with a different protocol. In some cases, determining grant normal priority level requests associated with the first operation over those at the normal priority level associated with the second operation may lead to operator-noticeable degradation in device performance. A protocol controller may request a selected portion of the first operation at a low priority level. Requesting the selected portion at the low priority level may allow the second operation to selectively override the portion of the first operation. The selective overriding of the first operation may allow for execution of the first and second operations without operator-noticeable performance degradation.
Abstract translation: 设备实现共享重叠资源的多个协议。 在某些情况下,诸如扫描的第一操作可能与与不同协议相关联的第二操作具有资源冲突。 在某些情况下,确定与第一操作相关联的授权正常优先级请求超过与第二操作相关联的正常优先级级别的请求可能导致操作者显着降低设备性能。 协议控制器可以以低优先级来请求第一操作的选定部分。 以低优先级请求所选择的部分可以允许第二操作选择性地覆盖第一操作的部分。 第一操作的选择性覆盖可以允许执行第一和第二操作而没有操作者可察觉的性能下降。
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公开(公告)号:US20140213273A1
公开(公告)日:2014-07-31
申请号:US14231970
申请日:2014-04-01
Applicant: Broadcom Corporation
Inventor: Hongyu Xie , Srikanth Shubhakoti , Matthew James Fischer , Shawn Shiliang Ding , Gang Lu , Yuan Zhuang , Brima Ibrahim , Payam Torab Jahromi , Murat Mese
CPC classification number: H04W72/0446 , H04L5/0092 , H04W72/1268 , H04W72/1289
Abstract: Techniques for localized dynamic channel allocation help meet the challenges of latency, memory size, and channel time optimization for wireless communication systems. As examples, advanced communication standards, such as the WiGig standard, may support wireless docking station capability and wireless streaming of high definition video content between transmitting and receiving stations, or engage in other very high throughput tasks. The techniques help to deliver the desired user experience in such an environment and support desired performance levels for latency and throughput while controlling memory footprint.
Abstract translation: 用于本地化动态信道分配的技术有助于应对无线通信系统的延迟,内存大小和信道时间优化的挑战。 作为示例,诸如WiGig标准的高级通信标准可以支持发射站和接收站之间的高清晰度视频内容的无线对接站能力和无线流,或者参与其它非常高的吞吐量任务。 这些技术有助于在这样的环境中提供所需的用户体验,并在控制内存占用的同时支持延迟和吞吐量的所需性能水平。
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公开(公告)号:US20150031303A1
公开(公告)日:2015-01-29
申请号:US14336585
申请日:2014-07-21
Applicant: BROADCOM CORPORATION
Inventor: Erik John Rivard , Lih-Feng Tsaur , Shawn Shiliang Ding , Hsiao-Kai Wang , Shanshan Jiang , Daochun Liu
Abstract: A device implements multiple protocols that share overlapping resources. In some cases, a first operation, such as a scan, may have a resource conflict with a second operation associated with a different protocol. In some cases, determining grant normal priority level requests associated with the first operation over those at the normal priority level associated with the second operation may lead to operator-noticeable degradation in device performance. A protocol controller may request a selected portion of the first operation at a low priority level. Requesting the selected portion at the low priority level may allow the second operation to selectively override the portion of the first operation. The selective overriding of the first operation may allow for execution of the first and second operations without operator-noticeable performance degradation.
Abstract translation: 设备实现共享重叠资源的多个协议。 在某些情况下,诸如扫描的第一操作可能与与不同协议相关联的第二操作具有资源冲突。 在某些情况下,确定与第一操作相关联的授权正常优先级请求超过与第二操作相关联的正常优先级级别的请求可能导致操作者显着降低设备性能。 协议控制器可以以低优先级来请求第一操作的选定部分。 以低优先级请求所选择的部分可以允许第二操作选择性地覆盖第一操作的部分。 第一操作的选择性覆盖可以允许执行第一和第二操作而没有操作者可察觉的性能下降。
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公开(公告)号:US09042904B2
公开(公告)日:2015-05-26
申请号:US14231970
申请日:2014-04-01
Applicant: Broadcom Corporation
Inventor: Hongyu Xie , Srikanth Shubhakoti , Matthew James Fischer , Shawn Shiliang Ding , Gang Lu , Yuan Zhuang , Brima Ibrahim , Payam Torab Jahromi , Murat Mese
CPC classification number: H04W72/0446 , H04L5/0092 , H04W72/1268 , H04W72/1289
Abstract: Techniques for localized dynamic channel allocation help meet the challenges of latency, memory size, and channel time optimization for wireless communication systems. As examples, advanced communication standards, such as the WiGig standard, may support wireless docking station capability and wireless streaming of high definition video content between transmitting and receiving stations, or engage in other very high throughput tasks. The techniques help to deliver the desired user experience in such an environment and support desired performance levels for latency and throughput while controlling memory footprint.
Abstract translation: 用于本地化动态信道分配的技术有助于应对无线通信系统的延迟,存储器大小和信道时间优化的挑战。 作为示例,诸如WiGig标准的高级通信标准可以支持发射站和接收站之间的高清晰度视频内容的无线对接站能力和无线流,或者参与其它非常高的吞吐量任务。 这些技术有助于在这样的环境中提供所需的用户体验,并在控制内存占用的同时支持延迟和吞吐量的所需性能水平。
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