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    • 71. 发明授权
    • Multi-socket boot
    • 多插槽启动
    • US07779244B2
    • 2010-08-17
    • US11647542
    • 2006-12-28
    • Vincent J. ZimmerMichael A. RothmanMallik BulusaRobert C. Swanson
    • Vincent J. ZimmerMichael A. RothmanMallik BulusaRobert C. Swanson
    • G06F15/177
    • G06F9/441
    • In some embodiments, the invention involves a system and method to provide maximal boot-time parallelism for future multi-core, multi-node, and many-core systems. In an embodiment, the security (SEC), pre-EFI initialization (PEI), and then driver execution environment (DXE) phases are executed in parallel on multiple compute nodes (sockets) of a platform. Once the SEC/PEI/DXE phases are executed on all compute nodes having a processor, the boot device select (BDS) phase completes the boot by merging or partitioning the compute nodes based on a platform policy. Partitioned compute nodes each run their own instance of EFI. A common memory map may be generated prior to operating system (OS) launch when compute nodes are to be merged. Other embodiments are described and claimed.
    • 在一些实施例中,本发明涉及为将来的多核,多节点和多核系统提供最大引导时间并行性的系统和方法。 在一个实施例中,在平台的多个计算节点(套接字)上并行执行安全性(SEC),预EFI初始化(PEI)以及随后的驱动器执行环境(DXE)阶段。 一旦在具有处理器的所有计算节点上执行SEC / PEI / DXE阶段,引导设备选择(BDS)阶段通过基于平台策略合并或划分计算节点来完成引导。 分区计算节点每个运行自己的EFI实例。 在计算节点要合并时,可能会在操作系统(OS)启动之前生成公共存储器映射。 描述和要求保护其他实施例。
    • 74. 发明申请
    • Multi-socket boot
    • 多插槽启动
    • US20080162878A1
    • 2008-07-03
    • US11647542
    • 2006-12-28
    • Vincent J. ZimmerMichael A. RothmanMallik BulusaRobert C. Swanson
    • Vincent J. ZimmerMichael A. RothmanMallik BulusaRobert C. Swanson
    • G06F9/40
    • G06F9/441
    • In some embodiments, the invention involves a system and method to provide maximal boot-time parallelism for future multi-core, multi-node, and many-core systems. In an embodiment, the security (SEC), pre-EFI initialization (PEI), and then driver execution environment (DXE) phases are executed in parallel on multiple compute nodes (sockets) of a platform. Once the SEC/PEI/DXE phases are executed on all compute nodes having a processor, the boot device select (BDS) phase completes the boot by merging or partitioning the compute nodes based on a platform policy. Partitioned compute nodes each run their own instance of EFI. A common memory map may be generated prior to operating system (OS) launch when compute nodes are to be merged. Other embodiments are described and claimed.
    • 在一些实施例中,本发明涉及为将来的多核,多节点和多核系统提供最大引导时间并行性的系统和方法。 在一个实施例中,在平台的多个计算节点(套接字)上并行执行安全性(SEC),预EFI初始化(PEI)以及随后的驱动器执行环境(DXE)阶段。 一旦在具有处理器的所有计算节点上执行SEC / PEI / DXE阶段,引导设备选择(BDS)阶段通过基于平台策略合并或划分计算节点来完成引导。 分区计算节点每个运行自己的EFI实例。 在计算节点要合并时,可能会在操作系统(OS)启动之前生成公共存储器映射。 描述和要求保护其他实施例。