Why can ipfs mining technology make data faster, safer and more open? The Interplanetary File System (IPFS) is a promising choice for building the next generation of Web3.0. It is a relatively new hypermedia protocol and a decentralized data storage system, which uses a point-to-point network structure. that Ipfs mining Why can technology make data faster, safer and more open? Today we focus on ipfs mining Server hosting Let's take a look at the Micron Network, and hope it can help you.
The science fiction name IPFS comes from the idea of "interstellar computer network" proposed by American computer scientist Lecrid in the 1960s. IPFS was originally developed in 2014 by Juan Benet and the founder of the US computer scientist and protocol laboratory, aiming to solve some HTTP problems. Juan's goal is to create something that may eventually become a "new major subsystem of the Internet", taking into account the development of updates, such as distributed ledger technology that supports blockchain.
Mike Rogers, the engineering manager of a protocol lab, explained: "IPFS is a decentralized data network. Any person in the world can access data through the network, and any person in the world can access data safely. IPFS has been and is now developed as Web3.0, a data transmission protocol. Because this protocol is completely decentralized and all data is solved by hashing, it is very suitable for blockchain applications that need to process data that cannot be contained by the huge data chain itself.
The decentralized mode based on IPFS is completely different from the client server mode of HTTP operation. HTTP was originally used to transmit information between the web browser and the web server. It uses location-based address addresses to allow users to access data stored on the central server. Although this can simplify the management and distribution of data, its efficiency is not high. Because when you click a site, your web browser must be directly connected to the server hosting the site. In large audio and video files, it requires a lot of bandwidth, even quite expensive, especially when the source server is far away. Searching or downloading popular content can also lead to network congestion. HTTP also has a potential privacy and security problem: data may be accessed or modified by users of the server, or become inaccessible by hackers' DDoS attacks.
In contrast, IPFS uses content-based addressing to enable content to be verified and the data storage source is closer to the user. This is achieved by using content identifiers (CID), which are used to point to materials in IPFS. CID is generated based on the encrypted hash value of content. It can also be said that it is a function that uses mathematical algorithms to obtain some arbitrary inputs and return a fixed length value.
Rogers said: "When data is put into IPFS, it can be obtained through its hash address or CID. Anyone in the world can take this address, put it into their own computer, and then retrieve data. Just as anyone in the world can put the URL into a browser and retrieve it, anyone with a CID can retrieve data in IPFS networks."
Any difference in content will lead to different CIDs. Adding the same CID to different IPFS nodes means that users can easily verify the integrity of data.
In addition to providing distributed content storage and verification functions, IPFS can also be used to build and host distributed applications (DApps), that is, open source computer applications running back-end code on peer-to-peer networks.
With CID, the hash value of the data you want to find is in the address, so you can get the data from anywhere, because you can verify whether the data is correct by comparing the hash values. Rogers added: "This is why you have a decentralized network, because you can retrieve data from anywhere, from anywhere, and you can confirm whether it is correct through encryption."
In addition, the content addressing of IPFS is more efficient than the location addressing of HTTP, because data can be retrieved from the nearest node in the network, rather than from a remote server. This configuration also means that even if a node fails, all its contents can still be retrieved from other nodes. Even if part of the network is down, data will continue to exist because it may occur during large-scale power outages or censorship activities.
"The main difference of IPFS is that CID can be obtained from anyone who wants to provide this data in the world. For HTTP, the website must be located at a specific location of URL encoding." Rogers noticed.
In order to access or store content on the IPFS network, people must install software and run an IPFS node. To access IPFS through HTTP without installing software, people can use distributed gateways such as IPFS public gateway and Cloudflare management. Both gateways allow users to get content from anyone in the network.
The above is why the ipfs mining technology introduced by Micronet can make data faster, more secure and more open. I hope it will be helpful to you. Micronet focuses on the rental and hosting of ipfs mining servers, and its services include single line and multi line cabinet rental services such as Mobile Telecom Unicom. It is a professional IDC data cabinet rental provider in Jiangsu Province, Professionally provide services such as ipfs mining server rental, ipfs mining server hosting, Baidu standard customized cabinet, 48U super capacity, and reduce user cabinet rental fees. If necessary, please contact Micronet.
Ipfs mining server hosting: hopechilam.com
