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    • 6. 发明授权
    • Hierarchical asymmetric mesh with virtual routers
    • 虚拟路由器的层次化非对称网格
    • US09253085B2
    • 2016-02-02
    • US13723732
    • 2012-12-21
    • Sailesh KumarEric NorigeJoji PhilipMahmud HassanSundari MitraJoseph Rowlands
    • Sailesh KumarEric NorigeJoji PhilipMahmud HassanSundari MitraJoseph Rowlands
    • H04L12/775H04L12/715
    • H04L45/58H04L45/04
    • A network-on-chip configuration includes a first plurality of cores arranged in a two-dimensional mesh; a first plurality of routers, each of the first plurality of routers associated with a corresponding local one of the first plurality of cores, each of the first plurality of routers having a plurality of directional ports configured to provide connections to other ones of the first plurality of routers; a second plurality of cores disposed around a periphery of the two-dimensional mesh arrangement; and a second plurality of routers, each of the second plurality of routers associated with a corresponding local one of the second plurality of cores, and having a directional port configured to provide a connection to a neighboring one of the first plurality of routers.
    • 片上网络配置包括以二维网格布置的第一多个核心; 第一多个路由器,所述第一多个路由器中的每一个与所述第一多个核中的相应的本地路由器相关联,所述第一多个路由器中的每一个具有多个定向端口,所述多个定向端口被配置为提供到所述第一多个核心中的其他核心 的路由器 设置在所述二维网状布置的周围的第二多个芯; 以及第二多个路由器,所述第二多个路由器中的每一个与所述第二多个核中的对应的本地核心相关联,并且具有被配置为提供到所述第一多个路由器中的相邻路由器的连接的定向端口。
    • 7. 发明授权
    • Multiple heterogeneous NoC layers
    • 多个异质的NoC层
    • US09160627B2
    • 2015-10-13
    • US13856835
    • 2013-04-04
    • Sailesh KumarEric Norige
    • Sailesh KumarEric Norige
    • H04L12/28H04L12/24H04L12/933
    • H04L41/12H04L49/10H04L49/109
    • Systems and methods described herein are directed to solutions for Network on Chip (NoC) interconnects that automatically and dynamically determines the topology of different NoC layers and maps system traffic flows to various routes in various NoC layers that satisfies the latency requirements of the flows. The number of layers and their topology is dynamically allocated and optimized by performing load balancing of the traffic flows between the channels and routes of different NoC layers and updating the topology of the NoC layers as they are mapped. In addition to allocating additional NoC layers and topologies to satisfy the latency requirements of the flows, the NoC layers and topologies may also be allocated to satisfy the bandwidth requirements of the flows or to provide the additional virtual channels that may be needed for deadlock avoidance and to maintain the isolation properties between various flows.
    • 本文描述的系统和方法涉及针对片上网络(NoC)互连的解决方案,其自动和动态地确定不同NoC层的拓扑,并将系统业务流映射到满足流的等待时间要求的各种NoC层中的各种路由。 通过对不同NoC层的信道和路由之间的业务流进行负载分担,映射了NoC层的拓扑,动态分配和优化层数及拓扑结构。 除了分配额外的NoC层和拓扑以满足流的延迟要求之外,还可以分配NoC层和拓扑以满足流的带宽需求或提供可能需要用于死锁避免的附加虚拟通道, 以保持各种流动之间的隔离性能。
    • 9. 发明申请
    • MULTIPLE HETEROGENEOUS NOC LAYERS
    • 多个异质NOC层
    • US20140301241A1
    • 2014-10-09
    • US13856835
    • 2013-04-04
    • Sailesh KUMAREric NORIGE
    • Sailesh KUMAREric NORIGE
    • H04L12/24
    • H04L41/12H04L49/10H04L49/109
    • Systems and methods described herein are directed to solutions for Network on Chip (NoC) interconnects that automatically and dynamically determines the topology of different NoC layers and maps system traffic flows to various routes in various NoC layers that satisfies the latency requirements of the flows. The number of layers and their topology is dynamically allocated and optimized by performing load balancing of the traffic flows between the channels and routes of different NoC layers and updating the topology of the NoC layers as they are mapped. In addition to allocating additional NoC layers and topologies to satisfy the latency requirements of the flows, the NoC layers and topologies may also be allocated to satisfy the bandwidth requirements of the flows or to provide the additional virtual channels that may be needed for deadlock avoidance and to maintain the isolation properties between various flows.
    • 本文描述的系统和方法涉及针对片上网络(NoC)互连的解决方案,其自动且动态地确定不同NoC层的拓扑,并将系统业务流映射到满足流的等待时间要求的各种NoC层中的各种路由。 通过对不同NoC层的信道和路由之间的业务流进行负载分担,映射了NoC层的拓扑,动态分配和优化层数及拓扑结构。 除了分配额外的NoC层和拓扑以满足流的延迟要求之外,还可以分配NoC层和拓扑以满足流的带宽需求或提供可能需要用于死锁避免的附加虚拟通道, 以保持各种流动之间的隔离性能。