Likely nowhere is the confusion more pronounced than with the fundamental construct of the blockchain’s distributed peer-to-peer network of participating nodes. The originating, unhindered cryptocurrency platform, with all its controversial and somewhat enigmatic trappings, often confounds those seeking to implement blockchain within corporate and government organizations – even at the most basic of levels. The rampant evolution of blockchain technology has enraptured the world, and in many ways has caught everyone unprepared for what the future holds. IEEE Blockchain Technical Briefs, December 2018 And to try Blockchain Node Engine for yourself, reach out to the Google Cloud sales team for access to the Private Preview.The Essential Diversity of Blockchain Nodes To learn more about Blockchain Node Engine, please visit Google Cloud for Web3. We look forward to supporting organizations with a reliable, easy-to-use blockchain node hosting service so they can focus their time on innovating and scaling their Web3 applications. By reducing the need for a dedicated DevOps team, and by offering Google Cloud’s service level agreement (SLA), Blockchain Node Engine can let your team focus on your users instead of your infrastructure. Google Cloud actively monitors the nodes and restarts them during outages as needed. Blockchain Node Engine is a fully managed service, which can mean you don’t have to worry about availability. Additionally, other Google Cloud services such as Cloud Armor can help protect nodes from DDoS attacks.Įnsuring that blockchain infrastructure is ready and available, typically means having a DevOps team on-hand to monitor the system and remediate problems during an outage. By placing nodes behind a Virtual Private Cloud firewall, only trusted machines and users are able to communicate with client endpoints. Blockchain Node Engine offers security configurations that can help prevent unauthorized access to the nodes. Google Cloud’s Blockchain Node Engine can make this process faster and easier by allowing developers to deploy a new node with a single operation, and specify the desired region and network (mainnet, testnet).Ĭustomers that wish to secure their blockchain infrastructures currently have a limited set of options in the market. Syncing a full node from the first block (i.e., “genesis”) can take several days. geth), and waiting for the node to sync with the network. Today, manually deploying a node is a time-intensive process that involves provisioning a compute instance, installing an Ethereum client (e.g. With Blockchain Node Engine, Web3 organizations enjoy the following benefits: Web3 companies who require dedicated nodes can relay transactions, deploy smart contracts, and read or write blockchain data with the reliability, performance, and security they expect from Google Cloud compute and network infrastructure.Įthereum will be the first blockchain supported by Blockchain Node Engine, enabling developers to provision fully managed Ethereum nodes with secure blockchain access. While self-managed nodes are often difficult to deploy and require constant management, Blockchain Node Engine is a fully managed node-hosting service that can minimize the need for node operations. Nodes on a blockchain form a peer-to-peer network, constantly exchanging the latest blockchain data so that all nodes stay in sync. Instead of relying on a central entity to validate and store data, the governing infrastructure of a blockchain is a node - a device, such as a computer, laptop, or server, that contains a full copy of the transaction history of the blockchain. Building on our commitment to help Web3 developers build and deploy new products on blockchain-based platforms, today we’re thrilled to announce Google Cloud’s Blockchain Node Engine.īlockchains consist of transaction data that is permanently stored and encrypted, acting as decentralized databases of sorts. Blockchain is changing the way the world stores and moves its information.
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