以这种方式使用中心将使任何分支节点都能访问整个网络中的任何目的地。
Using the hub in this way enables any spoke node to access any destination in the entire network.
需要访问集群文件系统的每个节点都需要存储网络上的一个地址。
Each node requiring access to the clustered file system needs an address on the storage network.
异步作业提交模型可以促进地理上分散并且只能通过低带宽、高延迟网络进行访问的节点的管理。
The asynchronous job submission model facilitates the management of nodes that are geographically dispersed and reachable only through low-bandwidth, high-latency networks.
这对于小型集群来说可以正常工作,但是对于大型集群来说,可能会需要花费很长一段时间来返回,在大型集群中,可能有些节点会由于各种原因而变得不可访问,例如网络问题。
This works for smaller clusters, but it can take a long time to return for a larger cluster where nodes might be unreachable for various reasons, such as network issues.
连接(网络访问)信息存储在System数据库目录、本地数据库目录和节点目录中。
Connectivity (network access) information is stored in the system database directory, local database directory and node directory.
第二个网络则专门针对 GPFS,为那些不具有StorageAreaNetwork (SAN)存储系统直观视图的节点提供经由IP 的存储访问。
The second network is dedicated to GPFS and is used for storage access over IP for those nodes that do not have a direct view of the Storage Area Network (SAN) storage system.
RADIUS客户机是网络访问服务器,它通常是一个路由器、交换机或无线访问点(访问点是网络上专门配置的节点;wap是无线版本)。
The RADIUS client, the network access server, is typically a router, switch, or wireless access point (access points are specially configured nodes on networks; WAPs are wireless versions).
由于每个节点都应该配置一个与节点名对应的主机名,因此也简化了网络访问。
And since each node should be configured with a host name that corresponds to the node name, network access is simplified, as well.
由于每个节点都只能访问自己的内存,如果其他节点需要访问这些内存中的数据,就必须对这些数据结构进行复制并通过网络进行传送,这会导致大量的网络负载。
Because each node has access to only its own memory, data structures must be duplicated and sent over the network if other nodes want to access them, leading to network overhead.
子系统号(SSN)是识别在特定网络节点要访问哪个应用程序的一个号码。
The Subsystem number (SSN) is a number that identifies which application to access on a specific network node.
越来越多的用户希望能够同时访问和处理多个不同网络节点的异构数据源中的数据。
More and more users expect to access and deal with the data stored in heterogeneous sources of different network nodes.
数据分布:客户端机器一般都不是数据节点,所有的数据访问都是远程的,必须通过网络读取。
Data locality: the client machine typically is not a data node. Allthe data accessed is remote and has to be read via the network.
传感器节点能量受限,节能是传感器网络中媒体访问控制(MAC)协议设计的首要问题。
As sensor nodes are energy limited, saving energy is the primary issue in designing Medium Access Control (MAC) protocols in sensor networks.
在P 2 P网络中应用门限DSA算法,提出一种适应网络动态性强等特点的节点认证和访问控制方案。
This paper proposes a authentication and access control scheme which USES modified threshold DSA algorithm in P2P network.
最后本文将组建一个ipv 6网络,ipv 6孤岛之间的通信,并能够访问现有的ipv 4网络中的节点。
Finally, we set up an IPV6 network, communication between IPV6 islands, and the accomplished successfully visit to the existing IPV4 nodes.
在无线传感器网络中,介质访问控制MAC协议决定无线信道的使用方式,在节点之间分配有限的无线通信资源。
In wireless sensor networks, MAC layer Protocols are capable of determining the wireless channel utilization and allocate the limited wireless communication resources between the nodes.
在无线传感器网络中,介质访问控制MAC协议决定无线信道的使用方式,在节点之间分配有限的无线通信资源。
In wireless sensor networks, MAC layer Protocols are capable of determining the wireless channel utilization and allocate the limited wireless communication resources between the nodes.
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