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    • 35. 发明授权
    • Multi-owner deployment of firmware images
    • 多业主部署固件映像
    • US08566613B2
    • 2013-10-22
    • US12814246
    • 2010-06-11
    • Palsamy SakthikumarRobert C. SwansonVincent J. ZimmerMichael A. RothmanMallik Bulusu
    • Palsamy SakthikumarRobert C. SwansonVincent J. ZimmerMichael A. RothmanMallik Bulusu
    • G06F11/30
    • G06F21/572G06F2221/2141
    • A method, apparatus, system, and computer program product for multi-owner deployment of firmware images. The method includes obtaining a signed firmware image that comprises a first code module signed by a first code owner and a second code module signed by a second code owner. The method further includes obtaining an updated first code module comprising updated code for the first code module, verifying that the updated first code module is signed by the first code owner, and updating the signed firmware image with the updated first code module in response to verifying that the updated first code module is signed by the first code owner. The signed firmware image may further comprise an access control list that authorizes updates to the first code module by the first code owner and updates to the second code module by the second code owner.
    • 一种用于多所有者部署固件映像的方法,设备,系统和计算机程序产品。 该方法包括获得包括由第一代码所有者签名的第一代码模块和由第二代码所有者签名的第二代码模块的签名固件映像。 该方法还包括获得包括用于第一代码模块的更新的代码的更新的第一代码模块,验证更新的第一代码模块是否被第一代码所有者签名,以及响应于验证更新带有更新的第一代码模块的签名固件图像 更新的第一代码模块由第一代码所有者签名。 签名的固件图像还可以包括访问控制列表,其授权第一代码所有者更新第一代码模块,并由第二代码所有者更新第二代码模块。
    • 37. 发明申请
    • SOFTWARE-DEFINED RADIO SUPPORT IN SEQUESTERED PARTITIONS
    • 软件定义的无线电支持在序列分段中
    • US20130210483A1
    • 2013-08-15
    • US13758918
    • 2013-02-04
    • Vincent J. ZimmerMichael A. RothmanPalsamy SakthikumarMallik BulusuRobert C. Swanson
    • Vincent J. ZimmerMichael A. RothmanPalsamy SakthikumarMallik BulusuRobert C. Swanson
    • H04W88/06
    • H04W88/06G06F9/5077
    • A software-defined radio (SDR) capability may be provided in a general purpose, many core processing system by sequestering one or more partitions running on one or more cores and instantiating a communications capability by having discrete SDR functions performed by the sequestered partitions. Each SDR module embodied in a sequestered partition may be independently upgraded without modifying the hardware of the underlying processing system. By executing SDR modules in cores not accessible by application programs and/or an operating system (OS), a better Quality of Service (QoS) may be provided for wireless communications on the general purpose, multi-core processing system. An embodiment comprises isolating a core of a many core processing system as a sequestered partition, loading a software-defined radio module onto the core, and executing the software-defined module to implement wireless communications.
    • 可以在通用目的的许多核心处理系统中通过隔离在一个或多个核上运行的一个或多个分区并通过具有由隔离分区执行的离散SDR功能来实例化通信能力来提供软件定义无线电(SDR)能力。 实施在隔离分区中的每个SDR模块可以独立升级,而无需修改底层处理系统的硬件。 通过在应用程序和/或操作系统(OS)不可访问的核心中执行SDR模块,可以为通用多核处理系统上的无线通信提供更好的服务质量(QoS)。 一个实施例包括将许多核心处理系统的核心隔离为隔离分区,将软件定义的无线电模块加载到核心上,以及执行软件定义模块以实现无线通信。
    • 38. 发明授权
    • Multi-socket server management with RFID
    • 带RFID的多插槽服务器管理
    • US08499141B2
    • 2013-07-30
    • US12848654
    • 2010-08-02
    • Robert C. SwansonVincent J. ZimmerMallik BulusuMichael A. RothmanPalsamy Sakthikumar
    • Robert C. SwansonVincent J. ZimmerMallik BulusuMichael A. RothmanPalsamy Sakthikumar
    • G06F15/177G06F9/00H04Q5/22
    • H04L45/02H04W4/80H04W84/18
    • Radio frequency identification (RFID) tags embedded in processors within a computing system provide a separate communication path to other components of the computing system during initialization processing, apart from the system interconnect. Upon powering up, each processor causes its RFID tag to broadcast data regarding the processor's interconnect location and initialization status. A RFID receiver senses the RFID tags in the Platform Control Hub (PCH), and each processor's interconnect location and initialization status data is stored in registers within the PCH. During system initialization processing, the BIOS accesses these PCH registers to obtain the processor's data. The interconnect location and initialization status data is used by the BIOS to select the optimal routing table and configure the virtual network within the computing system based on the optimal routing table and the RFID tag data, without interrogating each processor individually over the system interconnect.
    • 除了系统互连之外,嵌入在计算系统内的处理器中的射频识别(RFID)标签在初始化处理期间提供到计算系统的其他组件的单独的通信路径。 上电时,每个处理器使其RFID标签广播关于处理器的互连位置和初始化状态的数据。 RFID接收器感测平台控制中心(PCH)中的RFID标签,并且每个处理器的互连位置和初始化状态数据存储在PCH内的寄存器中。 在系统初始化处理期间,BIOS访问这些PCH寄存器以获得处理器的数据。 BIOS使用互连位置和初始化状态数据,选择最优路由表,并根据最佳路由表和RFID标签数据配置计算系统内的虚拟网络,而不会在系统互连单独询问每个处理器。
    • 40. 发明授权
    • Software-defined radio support in sequestered partitions
    • 隔离分区中的软件定义无线电支持
    • US08391913B2
    • 2013-03-05
    • US11779803
    • 2007-07-18
    • Vincent J. ZimmerMichael A. RothmanPalsamy SakthikumarMallik BulusuRobert C. Swanson
    • Vincent J. ZimmerMichael A. RothmanPalsamy SakthikumarMallik BulusuRobert C. Swanson
    • H04B1/26
    • H04W88/06G06F9/5077
    • A software-defined radio (SDR) capability may be provided in a general purpose, many core processing system by sequestering one or more partitions running on one or more cores and instantiating a communications capability by having discrete SDR functions performed by the sequestered partitions. Each SDR module embodied in a sequestered partition may be independently upgraded without modifying the hardware of the underlying processing system. By executing SDR modules in cores not accessible by application programs and/or an operating system (OS), a better Quality of Service (QoS) may be provided for wireless communications on the general purpose, multi-core processing system. An embodiment comprises isolating a core of a many core processing system as a sequestered partition, loading a software-defined radio module onto the core, and executing the software-defined module to implement wireless communications.
    • 可以在通用目的的许多核心处理系统中通过隔离在一个或多个核上运行的一个或多个分区并通过具有由隔离分区执行的离散SDR功能来实例化通信能力来提供软件定义无线电(SDR)能力。 实施在隔离分区中的每个SDR模块可以独立升级,而无需修改底层处理系统的硬件。 通过在应用程序和/或操作系统(OS)不可访问的核心中执行SDR模块,可以为通用多核处理系统上的无线通信提供更好的服务质量(QoS)。 一个实施例包括将许多核心处理系统的核心隔离为隔离分区,将软件定义的无线电模块加载到核心上,以及执行软件定义模块以实现无线通信。