SOFTWARE PEER PEER COMPUTER

Brand Owner (click to sort) Address Description
OPTDYN Optimal Dynamics 257 Old Churchmans Road NEW CASTLE DE 19720 Software for a peer-to-peer computer network for providing cloud computing services via access to computers in the peer-to-peer network; Software for a peer-to-peer computer network providing exchange services for buying, bartering and selling goods via access to computers in the peer-to-peer network; and Software for a peer-to-peer computer network for connecting, operating, and managing networked devices in the internet of things (IoT); Software for enabling development, exchange, and analytics of blockchain-based technologies, namely, digital currency; and Computer network adapters, switches, routers and hubs;Operating an online market place for sellers and buyers of goods, sellers and buyers of cloud computing services, and sellers and buyers of networked devices in the internet of things (IoT), all via access to computers in the peer-to-peer network;
SUBUTAI Optimal Dynamics 257 Old Churchmans Road NEW CASTLE DE 19720 Software for a peer-to-peer computer network for providing cloud computing services via access to computers in the peer-to-peer network; software for a peer-to-peer computer network providing exchange services for buying, bartering and selling goods via access to computers in the peer-to-peer network; and software for a peer-to-peer computer network for connecting, operating, and managing networked devices in the internet of things (IoT); and computer network adapters, switches, routers and hubs;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. System and method for the dynamic and transparent migration of services in a peer-to-peer networking environment. Member peers in a peer group using a peer-to-peer platform may cooperate to provide redundant instances of services to member peers. Dynamic migration of a service may be performed by unbinding one or more peer-to-peer platform pipes from a peer hosting an instance of the service and binding the pipes to another peer hosting a different instance of the service. Using pipes, services may transparently failover from one physical peer endpoint to another in order to mask a service or peer failure, or to access a newly published instance of a service. Thus, a collection of peers may provide a high level of fault tolerance, where, for example, a new peer at a different location may replace a crashed peer, with the new peer taking over the existing pipe to keep the communication going.