IPFS

IPFS is a peer-to-peer content delivery network that uses content addressing to store, retrieve, and locate data based on the fingerprint of its actual content rather than its name or location. The network is distributed and participatory, reducing data silos. Data integrity is verified using hash functions, and files can be stored across multiple nodes for resilience.

You can get started by joining thousands of developers who use IPFS to build open, verifiable, and resilient software. Popular implementations are available in Go, Rust, and TypeScript, with support for desktop, browsers, mobile, and embedded devices. You can also explore documentation, case studies, and community resources to begin.

IPFS is used across various industries, such as developing offline-native productivity tools, making archives and content libraries censorship-resistant, speeding up gameplay for superfans, guaranteeing a permanent home for digital art, publishing scientific research, sharing verifiable scientific datasets, enabling data transparency in Web3, and even storing data out of this world with Lockheed Martin's orbital IPFS node.

IPFS ensures data security and integrity through content addressing and hash functions. Each piece of data is assigned a unique identifier based on its content, and the integrity of all data is verified using hash functions. This ensures that you always get the data you're looking for, and files can be stored across multiple nodes for resilience.

Yes, you can use IPFS for large-scale data storage and compute. IPFS allows you to store and manage your data using content addressing, giving your data unique identifiers. This makes it suitable for large-scale data storage and compute tasks.

You can contribute to the IPFS community by joining the network as a node, participating in discussions, contributing to open-source projects, or sharing your use cases and implementations. The IPFS protocol's success hinges on participation from all users, and each new node makes the network stronger for everyone.

Real-world examples include Anytype using IPFS for personal knowledge webs, Wikipedia being restored on IPFS after being blocked in Turkey, 3S Studios reducing game content size using IPFS, Nancy Baker Cahill storing digital art assets on IPFS, WeatherXM sharing weather patterns, and Lockheed Martin launching an IPFS node into orbit for interplanetary communication.

IPFS integrates with various tools and platforms, such as GitHub Actions for publishing to IPFS, IPFS Desktop and Browser Extension for easy access, and support for geospatial Zarr data. It also works with NFT.storage for digital art, and is used by companies like Cloudflare and 3Box Labs for decentralized applications and data integrity.