公开(公告)号：US20230412365A1

公开(公告)日：2023-12-21

申请号：US18241748

申请日：2023-09-01

Applicant: Intel Corporation

Inventor： Thomas E. Willis ,  Brad Burres ,  Amit Kumar

IPC: H04L9/08 ,  G06F3/06 ,  G06F9/50 ,  H04L69/12 ,  H04L69/32 ,  G06F16/25 ,  G06F16/2453 ,  H04L49/9005 ,  G11C8/12 ,  G11C29/02 ,  H04L41/0896 ,  G06F30/34 ,  B25J15/00 ,  G06F1/18 ,  G06F1/20 ,  G06F11/34 ,  G06F15/78 ,  H04L41/5025 ,  H04L67/1008 ,  H05K7/14 ,  H05K7/18 ,  H05K7/20 ,  H04L67/1001 ,  G11C29/36 ,  G11C29/38 ,  G11C29/44 ,  G06F16/22 ,  G06F16/2455 ,  G06F12/02 ,  G06F12/14 ,  G06F13/16 ,  G06F15/173 ,  G06F13/40 ,  G06F13/42 ,  G06F9/448 ,  G06F9/28 ,  G06F15/16 ,  H04L41/0893 ,  H04L69/22 ,  H04L69/321 ,  H04L41/0213 ,  H04L41/0668 ,  H04L41/0677 ,  H04L45/28 ,  H04L45/7453 ,  H04L47/11 ,  H04L47/125 ,  H04L49/00 ,  H04L49/351 ,  G06F9/4401 ,  G06F9/445 ,  G06F12/06 ,  G06F16/23 ,  G06F16/248 ,  G06F16/901 ,  G06F16/11

CPC classification number: H04L9/0819 ,  G06F3/0631 ,  G06F3/067 ,  G06F3/0659 ,  G06F3/0604 ,  G06F9/5044 ,  H04L69/12 ,  H04L69/32 ,  G06F16/25 ,  G06F16/2453 ,  G06F9/5088 ,  H04L49/9005 ,  G11C8/12 ,  G11C29/028 ,  H04L41/0896 ,  G06F3/0605 ,  G06F30/34 ,  B25J15/0014 ,  G06F1/183 ,  G06F1/20 ,  G06F9/505 ,  G06F11/3442 ,  G06F15/7807 ,  G06F15/7867 ,  H04L41/5025 ,  H04L67/1008 ,  H05K7/1489 ,  H05K7/18 ,  H05K7/20209 ,  H05K7/20736 ,  H04L67/1001 ,  G11C29/36 ,  G11C29/38 ,  G11C29/44 ,  G06F16/221 ,  G06F16/2237 ,  G06F16/24553 ,  G06F16/2282 ,  G06F12/023 ,  G06F12/14 ,  G06F13/1663 ,  G06F15/17331 ,  G06F3/0611 ,  G06F13/1668 ,  G06F13/4068 ,  G06F13/42 ,  G06F3/0613 ,  G06F3/0629 ,  G06F9/4494 ,  G06F9/28 ,  G06F15/161 ,  G06F3/0644 ,  G06F3/0683 ,  H04L41/0893 ,  H04L69/22 ,  H04L69/321 ,  H04L41/0213 ,  H04L41/0668 ,  H04L41/0677 ,  H04L45/28 ,  H04L45/7453 ,  H04L47/11 ,  H04L47/125 ,  H04L49/30 ,  H04L49/351 ,  G06F9/4406 ,  G06F9/4411 ,  G06F9/445 ,  G06F3/0632 ,  G06F3/065 ,  G06F3/0685 ,  G06F3/0673 ,  G06F12/0607 ,  G06F16/2455 ,  G06F16/2365 ,  G06F16/248 ,  G06F16/2255 ,  G06F16/9014 ,  G06F16/119 ,  G06F3/0647 ,  G06F12/06 ,  H04L9/0894 ,  G06F2209/509 ,  G06F9/4401 ,  G06F9/44

Abstract: Technologies for processing network packets by a host interface of a network interface controller (NIC) of a compute device. The host interface is configured to retrieve, by a symmetric multi-purpose (SMP) array of the host interface, a message from a message queue of the host interface and process, by a processor core of a plurality of processor cores of the SMP array, the message to identify a long-latency operation to be performed on at least a portion of a network packet associated with the message. The host interface is further configured to generate another message which includes an indication of the identified long-latency operation and a next step to be performed upon completion. Additionally, the host interface is configured to transmit the other message to a corresponding hardware unit scheduler as a function of the subsequent long-latency operation to be performed. Other embodiments are described herein.

公开(公告)号：US20210306142A1

公开(公告)日：2021-09-30

申请号：US17344253

申请日：2021-06-10

Applicant: Intel Corporation

Inventor： Thomas E. Willis ,  Brad Burres ,  Amit Kumar

IPC: H04L9/08 ,  G06F3/06 ,  G06F9/50 ,  H04L29/06 ,  H04L29/08 ,  G06F16/25 ,  G06F16/2453 ,  H04L12/861 ,  G11C8/12 ,  G11C29/02 ,  H04L12/24 ,  G06F30/34 ,  G11C29/36 ,  G11C29/38 ,  G11C29/44 ,  G06F16/22 ,  G06F16/2455 ,  G06F12/02 ,  G06F12/14 ,  G06F13/16 ,  G06F15/173 ,  G06F13/40 ,  G06F13/42 ,  G06F9/448 ,  G06F9/28 ,  G06F15/16 ,  H04L12/703 ,  H04L12/743 ,  H04L12/801 ,  H04L12/803 ,  H04L12/935 ,  H04L12/931 ,  G06F9/4401 ,  G06F9/445 ,  G06F12/06 ,  G06F16/23 ,  G06F16/248 ,  G06F16/901 ,  G06F16/11

Abstract: Technologies for processing network packets by a host interface of a network interface controller (NIC) of a compute device. The host interface is configured to retrieve, by a symmetric multi-purpose (SMP) array of the host interface, a message from a message queue of the host interface and process, by a processor core of a plurality of processor cores of the SMP array, the message to identify a long-latency operation to be performed on at least a portion of a network packet associated with the message. The host interface is further configured to generate another message which includes an indication of the identified long-latency operation and a next step to be performed upon completion. Additionally, the host interface is configured to transmit the other message to a corresponding hardware unit scheduler as a function of the subsequent long-latency operation to be performed. Other embodiments are described herein.

公开(公告)号：US20190044809A1

公开(公告)日：2019-02-07

申请号：US15833523

申请日：2017-12-06

Applicant: Intel Corporation

Inventor： Thomas E. Willis ,  Brad Burres ,  Amit Kumar

IPC: H04L12/24 ,  H04L29/06 ,  H04L29/08

Abstract: Technologies for processing network packets by a host interface of a network interface controller (NIC) of a compute device. The host interface is configured to retrieve, by a symmetric multi-purpose (SMP) array of the host interface, a message from a message queue of the host interface and process, by a processor core of a plurality of processor cores of the SMP array, the message to identify a long-latency operation to be performed on at least a portion of a network packet associated with the message. The host interface is further configured to generate another message which includes an indication of the identified long-latency operation and a next step to be performed upon completion. Additionally, the host interface is configured to transmit the other message to a corresponding hardware unit scheduler as a function of the subsequent long-latency operation to be performed. Other embodiments are described herein.

公开(公告)号：US09244877B2

公开(公告)日：2016-01-26

申请号：US13804207

申请日：2013-03-14

Applicant: Intel Corporation

Inventor： Chengda Yang ,  Bradley A. Burres ,  Amit Kumar ,  Matthew J. Adiletta

IPC: G06F13/14 ,  G06F13/42

CPC classification number: G06F13/4295 ,  G06F13/14

Abstract: A SATA-compatible storage controller that can be configured to allow computers assigned to multiple different computer domains connected by at least one switch fabric to share resources of a common set of storage devices. The storage controller includes a plurality of virtual storage controllers, each providing an interface to a respective computer domain connected to the switch fabric, a virtualization mechanism configured to implement link layer virtualization for the common set of storage devices, and a split serial advanced technology attachment (SATA) protocol stack, the processing of which is partitioned between the respective virtual storage controllers and the virtualization mechanism.

Abstract translation: 一个SATA兼容的存储控制器，可以被配置为允许分配给由至少一个交换结构连接的多个不同计算机域的计算机共享共享一组存储设备的资源。 存储控制器包括多个虚拟存储控制器，每个虚拟存储控制器提供与连接到交换机结构的相应计算机域的接口;虚拟化机制，被配置为为共同的存储设备集合实现链路层虚拟化;以及分离的串行高级技术附件 （SATA）协议栈，其处理在相应的虚拟存储控制器和虚拟化机制之间分区。

公开(公告)号：US11237840B2

公开(公告)日：2022-02-01

申请号：US16091201

申请日：2016-04-26

Applicant: Intel Corporation

Inventor： Matthew J. Adiletta ,  Myles Wilde ,  Michael F. Fallon ,  Amit Kumar ,  Chengda Yang ,  Aaron Gorius ,  William R. Wheeler

IPC: G06F9/00 ,  G06F9/4401 ,  G06F1/16 ,  G06F13/40 ,  G06K19/04

Abstract: All in one mobile computing devices and methods performed by the devices. The all in one mobile computing device includes a processor, memory, and software instructions configured to be executed on the processor to enable the mobile computing device to perform various operations. The all in one device may include various wired and wireless interfaces that enable it to communicate with a wide-range of devices, including smartphones, tablets, laptops, personal computers, smart TVs, and others. The all in one device is capable of being remotely accessed when linked in communication with a second device, and is enabled to aggregate data from various user devices and cloud-based services to create unified data resources. Data that is accessed by the device may be synched with a cloud-based storage service to enable a user to access data from across a range of devices via the all in one device. The all in one device has a form factor that is approximately the size of a credit card, yet is capable of running a full-fledged desktop operating system.

公开(公告)号：US20200326955A1

公开(公告)日：2020-10-15

申请号：US16091201

申请日：2016-04-26

Applicant: Intel Corporation

Inventor： Matthew J. Adiletta ,  Myles Wilde ,  Michael F. Fallon ,  Amit Kumar ,  Chengda Yang ,  Aaron Gorius ,  William R. Wheeler

IPC: G06F9/4401 ,  G06F13/40 ,  G06K19/04 ,  G06F1/16

Abstract: All in one mobile computing devices and methods performed by the devices. The all in one mobile computing device includes a processor, memory, and software instructions configured to be executed on the processor to enable the mobile computing device to perform various operations. The all in one device may include various wired and wireless interfaces that enable it to communicate with a wide-range of devices, including smartphones, tablets, laptops, personal computers, smart TVs, and others. The all in one device is capable of being remotely accessed when linked in communication with a second device, and is enabled to aggregate data from various user devices and cloud-based services to create unified data resources. Data that is accessed by the device may be synched with a cloud-based storage service to enable a user to access data from across a range of devices via the all in one device. The all in one device has a form factor that is approximately the size of a credit card, yet is capable of running a full-fledged desktop operating system.

公开(公告)号：US20190121682A1

公开(公告)日：2019-04-25

申请号：US16091206

申请日：2016-04-26

Applicant: Intel Corporation

Inventor： Matthew J. Adiletta ,  Myles Wilde ,  William R. Wheeler ,  Michael F. Fallon ,  Aaron Gorius ,  Amit Kumar ,  Chengda Yang

IPC: G06F9/54 ,  G06F13/42 ,  G06F13/362 ,  G06F9/48 ,  G06F9/451

Abstract: Techniques for implementing assess to Android applications and native Window application on Android devices and systems. A processor board includes a processor that is configured to run a full version of a Windows operating system and Windows applications. The processor board is configured to be communicatively coupled to the processor board in an Android device, such as a Smartphone or tablet. Upon operations and when the processor board is communicatively coupled to the Android device, a user of the Android device is enabled to selectively run Android applications and Windows applications, with the Windows applications being executed natively on the processor board. The processor board may be implemented in a computing card that is approximately the size of a credit card or smaller, which in turn may be coupled to the Android device via a backpack or similar means. The processor board may also be disposed within the same housing as the Android device.

公开(公告)号：US20160188279A1

公开(公告)日：2016-06-30

申请号：US14583614

申请日：2014-12-27

Applicant: INTEL CORPORATION

Inventor： Krishnan Rajamani ,  Matthew J. Adiletta ,  Michael F. Fallon ,  Karthik Veeramani ,  Ujwal Paidipathi ,  Chengda Yang ,  Amit Kumar

IPC: G06F3/14 ,  H04W76/02 ,  G06T1/00

CPC classification number: G06F3/1454 ,  G09G5/026 ,  G09G5/14 ,  G09G5/363 ,  G09G5/397 ,  G09G5/399 ,  G09G2340/02 ,  G09G2340/0435 ,  G09G2360/18 ,  G09G2370/12 ,  G09G2370/16

Abstract: Methods and apparatus for implementing a mode-switch protocol and mechanism for hybrid wireless display system with screencasting and native graphics throwing. Under a Mircast implementation, A Wi-Fi Direct (WFD) link is established between WFD source and sink devices, with the WFD source device configured to operate as a Miracast source that streams Miracast content to a Miracast sink that is configured to operate on the WFD sink device using a Miracast mode. The WFD source and sink devices are respectively configured as a native graphics thrower and catcher and support operation in a native graphics throwing mode, wherein the WFD source devices throw at least one of native graphics commands and native graphics content to the WFD sink device. In response to detection that Miracast content has been selected to be played on the WFD source device, the operating mode is switched to the Miracast mode. The mode may also be automatically or selectively switched back to the native graphics throwing mode. The techniques may also be applied to methods and apparatus that support other types of screencasting techniques and both wireless and wired links.

Abstract translation: 用于实现屏幕播放和本地图形投掷的混合无线显示系统的模式切换协议和机制的方法和装置。 在Mircast实现下，在WFD源和宿设备之间建立了Wi-Fi Direct（WFD）链路，WFD源设备配置为作为Miracast源运行，将Miracast内容流式传输到配置为在 WFD宿设备使用Miracast模式。 WFD源和宿设备分别被配置为本地图形投掷器，并且捕获并支持以本地图形投掷模式的操作，其中WFD源设备将至少一个本地图形命令和本机图形内容投射到WFD宿设备。 响应检测到Miracast内容已被选择在WFD源设备上播放时，操作模式切换到Miracast模式。 该模式也可以自动或选择性地切换回本地图形投掷模式。 这些技术也可以应用于支持其他类型的屏幕播放技术以及无线和有线链路的方法和装置。

公开(公告)号：US20240410396A1

公开(公告)日：2024-12-12

申请号：US18329763

申请日：2023-06-06

Applicant: Intel Corporation

Inventor： Arnab Sen ,  Srinivasarao Konakalla ,  Samarth Alva ,  Amit Kumar ,  Rachit Garg ,  Bhavaneeswaran Anbalagan ,  Raghavendra S. Kanivihalli ,  Prasanna Pichumani

IPC: F04D29/66 ,  F04D17/16 ,  F04D25/08 ,  F04D29/28 ,  G06F1/20

Abstract: Impeller architecture for a cooling fan and methodology for making same. The impeller architecture includes a plurality of blades, individual ones of the blades have a first end that is attached to a hub component in a sequential order, such that sequential first ends are attached to the circumference. An indexing function is applied to the sequential order, and blades or the spaces therebetween are modified accordingly to have a blade type based on their sequential location and the indexing function. The indexing function can be, in a non-limiting example, odd numbers or prime numbers.

公开(公告)号：US11843691B2

公开(公告)日：2023-12-12

申请号：US17344253

申请日：2021-06-10

Applicant: Intel Corporation

Inventor： Thomas E. Willis ,  Brad Burres ,  Amit Kumar

IPC: G06F3/06 ,  H04L9/08 ,  G06F9/50 ,  H04L69/12 ,  H04L69/32 ,  G06F16/25 ,  G06F16/2453 ,  H04L49/9005 ,  G11C8/12 ,  G11C29/02 ,  H04L41/0896 ,  G06F30/34 ,  B25J15/00 ,  G06F1/18 ,  G06F1/20 ,  G06F11/34 ,  G06F15/78 ,  H04L41/5025 ,  H04L67/1008 ,  H05K7/14 ,  H05K7/18 ,  H05K7/20 ,  H04L67/1001 ,  G11C29/36 ,  G11C29/38 ,  G11C29/44 ,  G06F16/22 ,  G06F16/2455 ,  G06F12/02 ,  G06F12/14 ,  G06F13/16 ,  G06F15/173 ,  G06F13/40 ,  G06F13/42 ,  G06F9/448 ,  G06F9/28 ,  G06F15/16 ,  H04L41/0893 ,  H04L69/22 ,  H04L69/321 ,  H04L41/0213 ,  H04L41/0668 ,  H04L41/0677 ,  H04L45/28 ,  H04L45/7453 ,  H04L47/11 ,  H04L47/125 ,  H04L49/00 ,  H04L49/351 ,  G06F9/4401 ,  G06F9/445 ,  G06F12/06 ,  G06F16/23 ,  G06F16/248 ,  G06F16/901 ,  G06F16/11 ,  G06F9/44 ,  G06F9/48 ,  G06F21/10 ,  G06N3/063 ,  G06Q10/0631 ,  G06Q30/0283 ,  H04L41/14 ,  H04L41/5019 ,  H04L49/40 ,  H04L9/40 ,  G06F12/0802 ,  G06F12/1045

CPC classification number: H04L9/0819 ,  B25J15/0014 ,  G06F1/183 ,  G06F1/20 ,  G06F3/0604 ,  G06F3/065 ,  G06F3/0605 ,  G06F3/067 ,  G06F3/0611 ,  G06F3/0613 ,  G06F3/0629 ,  G06F3/0631 ,  G06F3/0632 ,  G06F3/0644 ,  G06F3/0647 ,  G06F3/0659 ,  G06F3/0673 ,  G06F3/0683 ,  G06F3/0685 ,  G06F9/28 ,  G06F9/445 ,  G06F9/4406 ,  G06F9/4411 ,  G06F9/4494 ,  G06F9/505 ,  G06F9/5044 ,  G06F9/5088 ,  G06F11/3442 ,  G06F12/023 ,  G06F12/06 ,  G06F12/0607 ,  G06F12/14 ,  G06F13/1663 ,  G06F13/1668 ,  G06F13/4068 ,  G06F13/42 ,  G06F15/161 ,  G06F15/17331 ,  G06F15/7807 ,  G06F15/7867 ,  G06F16/119 ,  G06F16/221 ,  G06F16/2237 ,  G06F16/2255 ,  G06F16/2282 ,  G06F16/2365 ,  G06F16/248 ,  G06F16/2453 ,  G06F16/2455 ,  G06F16/24553 ,  G06F16/25 ,  G06F16/9014 ,  G06F30/34 ,  G11C8/12 ,  G11C29/028 ,  G11C29/36 ,  G11C29/38 ,  G11C29/44 ,  H04L9/0894 ,  H04L41/0213 ,  H04L41/0668 ,  H04L41/0677 ,  H04L41/0893 ,  H04L41/0896 ,  H04L41/5025 ,  H04L45/28 ,  H04L45/7453 ,  H04L47/11 ,  H04L47/125 ,  H04L49/30 ,  H04L49/351 ,  H04L49/9005 ,  H04L67/1001 ,  H04L67/1008 ,  H04L69/12 ,  H04L69/22 ,  H04L69/32 ,  H04L69/321 ,  H05K7/1489 ,  H05K7/18 ,  H05K7/20209 ,  H05K7/20736 ,  G06F9/44 ,  G06F9/4401 ,  G06F9/4856 ,  G06F9/5061 ,  G06F12/0802 ,  G06F12/1054 ,  G06F12/1063 ,  G06F13/4022 ,  G06F15/1735 ,  G06F21/105 ,  G06F2200/201 ,  G06F2201/85 ,  G06F2209/509 ,  G06F2212/1044 ,  G06F2212/1052 ,  G06F2212/601 ,  G06F2213/0026 ,  G06F2213/0064 ,  G06F2213/3808 ,  G06N3/063 ,  G06Q10/0631 ,  G06Q30/0283 ,  H04L41/14 ,  H04L41/5019 ,  H04L49/40 ,  H04L63/0428 ,  H05K7/1498

Abstract: Technologies for processing network packets by a host interface of a network interface controller (NIC) of a compute device. The host interface is configured to retrieve, by a symmetric multi-purpose (SMP) array of the host interface, a message from a message queue of the host interface and process, by a processor core of a plurality of processor cores of the SMP array, the message to identify a long-latency operation to be performed on at least a portion of a network packet associated with the message. The host interface is further configured to generate another message which includes an indication of the identified long-latency operation and a next step to be performed upon completion. Additionally, the host interface is configured to transmit the other message to a corresponding hardware unit scheduler as a function of the subsequent long-latency operation to be performed. Other embodiments are described herein.