对等节点形成了一个对等节点网络。
利用自定义对等解析程序服务注册对等节点。
这样,已经发生改变的节点与潜在对等节点进行简单的同步。
In this case, the node that had changes simply synchronizes with the latent peer.
系统中的对等节点既是资源的拥有者,也是资源的请求者。
Peer nodes in P2P network are not only owners of resources, but also resources requesters.
而对于主节点而言,每个节点支持写操作,而不会将这些操作传播到对等节点。
While primary, each node permits Write operations, without those operations being propagated to the peer node.
在这种模式下,写操作是在数据存储到本地磁盘并镜像到对等节点内存后被确认的。
In this mode, the Write operation is acknowledged after the data is stored on the local disk and mirrored to the peer node's memory.
此类所定义的信息用于利用对等解析程序服务注册对等节点和网络ID的元组。
This class defines the information used to register the tuple of a peer node and a mesh ID with a peer resolver service.
对等节点可以是资源的提供者和使用者(在客户端-服务器模型中,仅由服务器提供,由客户端使用)。
Peers can be suppliers and consumers of resources (in the client-server model, only servers supply and clients consume).
在异步模式下,写数据被存储到本地节点存储中之后,写事务被认可;对等节点中的数据的副本出现在后台中。
In asynchronous mode, the write transaction is acknowledged after the write data is stored on the local node's storage; the replication of the data to the peer node occurs in the background.
这些协议满足了P 2 P应用的基本需求,其中包括对等节点发现、资源搜索、文件和数据传输等。
These protocols also designed to satisfy the basic requirement of building P2P applications, such as discovery of peers, searching, file or data transfer, etc.
在P 2 P网络中,每个节点都是对等节点,它既是服务器也是客户端,这种架构使得网络趋于扁平。
In P2P network, every node is a peer node, it is either server or client. This architecture makes network more flat.
要求对等节点之间能够相互认证以及在对等节点之间建立安全隧道。保证数据在传输过程中的完整性和机密性。
It is required that Peers in P2P network inter-authenticate to each other and establish secure tunnels between them to ensure the data confidentiality and integrity when in transit.
这样一来,一个节点可以计算一个块的散列值;将较小的签名转移到对等节点,该节点也可以计算散列值,然后对两者进行比较。
In this way, a node computes a hash of a block; transfers the much smaller signature to the peer node, which also calculates the hash; and then compares them.
复制可以以一种基于对等的方式进行,在任何一个节点上都可以获得在其它所有节点上发生的注册中心更新。
Replication can proceed in a peer-based approach where registry updates from all other nodes can be obtained from any one node.
同样地,那种在网上是对等的参观者和被参观者之间的关系—双方都只不过网络的一个节点而已,在画廊里则变得更为层次化了。
Likewise, the relationship between the viewer and the viewed, which on the web is egalitarian-we're all just nodes on a network-becomes much more hierarchical in a gallery.
我们将Napster作为对等计算的第一个流行的示例,它们之间的关键区别在于:网格中的节点(用户)可以直接彼此交换数据(比如音乐)。
Taking Napster as the first popular example of peer-to-peer computing, the key differentiator was the fact that the nodes in the grid (the users) could exchange data (music) directly with one another.
表1显示的是InterChangeServer协作模板节点与BPEL中对等行为的映射。
Table 1 displays the mappings between the InterChange Server collaboration template nodes and the equivalent activities in BPEL.
一旦计算机断开对等网络,网络形成的节点随即不复存在,储存在节点上的密钥数据也随之消失。
When a computer is disconnected from the network, the node it formed ceases to exist and any encryption-key data stored there are lost.
分布式系统的对等模型中,各个节点从功能上看是对等关系,相互之间进行消息的请求和响应。
In Peer-to-Peer model of distributed system, all computers are functionally equal which can request and response messages each other.
在非结构化对等(P 2 P)网络中,节点“搭便车”行为以及用户查询不均匀会造成网络节点负载分布严重失衡。
In the unstructured Peer-to-Peer (P2P) network, free-riding behavior and distributed file request cause node load degree balanced.
P 2 P网络结构中不存在集中式服务器,每个节点既是一个信息消费者,同时也作为一个信息提供者,任何节点所拥有的权利和义务都是对等的。
There is no centralized server in P2P network, and each node is an information consumer, but also an information provider, the rights and obligations of node are equal.
网络搭建方便,不需要基础设施,并且网络节点地位对等,可以自由移动。
Nodes in the same Mobile Ad Hoc network are peer to each other and have flexible mobility.
移除对等网格中某个节点的注册项。
一旦计算机断开对等网络,网络形成的节点随即不复存在,储存在节点上的密钥数据也随之消失。
When a computer is disconnected from the network, the node it formed ceases to exist and any encryption-key data stored there are lost.
提出一种安全结构化对等网络的节点信誉管理机制。
This paper proposes a node reputation management mechanism of secure structured P2P networks.
对等网络的拓扑失配会引起不必要的网络流量,不仅加重了物理网络的负担,而且加大了节点间资源搜索的平均时延。
So both the overhead of the physical network and the average time delay for information searching between peers are aggravated.
一个对等方或节点可以连接到多个群。
A single peer or node may be connected to more than one cloud.
在介绍了IPTV技术和P 2 P对等计算技术基础上,提出了一种基于超级节点的P 2 P -IPTV系统的设计方案,给出了基于超级节点的P 2 P - IPTV体系结构,并介绍了基于该体系结构的P 2 P - IPTV系统原理。
After the presentation of IPTV and P2P technology, a solution of super node based P2P-LPTV system was put forward, including the architecture and the principle of system based on the structure.
指定一个基类型,用于定义对等网格id的注册协定以及将对等网格ID解析为参与网格的节点终结点地址的协定。
Specifies a base type used to define the contract for the registration and resolution of a peer mesh ID to the endpoint addresses of nodes participating in the mesh.
超级点是对等网络中的一个节点,它不但作为一个组中点成员的目录服务器,同时也是一系列超级点所组成的网络中的普通节点。
Super-peer is a node in a peer-to-peer network that operates both as a server to a set of clients, and as an equal in network of super-peers.
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