AIOZ Pin, built as a DePIN data layer, positions itself to keep Web3 files permanently online by anchoring content, metadata, and digital records relied upon by decentralized applications. The network comprises more than 300,000 contributor devices across 198 countries, distributing hosted content across independent nodes. This emphasis on permanence is notable alongside a 2024 Pew Research Center finding that 38% of webpages that existed in 2013 are no longer accessible.
AIOZ Pin is built on a DePIN-based infrastructure that distributes data across independent nodes. The DePIN base ensures no single operator can quietly unhost or alter the data, and the architecture anchors the content, metadata, and digital records that Web3 applications rely on. Data distribution places copies across independent operators rather than relying on centralized hosts. The network’s topology emphasizes replicated, decentralized storage rather than single-point hosting.
AIOZ Pin replicates data as multiple, independent copies that are chunked and addressed using Content Identifiers (CIDs). Files are split into chunks and referenced by CIDs so each piece can be independently located and retrieved. The network uses cryptographic proofs to verify that files are actually stored on contributor devices. SDKs and APIs have been rolled out to make it easier for developers to interact with the system and integrate its storage functions into applications.
Because content is spread across independent nodes, removing it in one place does not erase it from the network. That distribution, together with cryptographic verification and replicated copies, underpins permanence and censorship resistance described in the system materials. Use cases cited for the storage model include securing NFT artwork and metadata and keeping governance archives retrievable for years. AIOZ Pin makes permanence and verifiability part of the infrastructure, presenting a persistent foundation for Web3 content accessibility.
AIOZ Pin supports preservation of NFT artwork and associated metadata, keeping those digital assets secure and accessible. The system is described as enabling long-term retrieval of governance archives, maintaining archive availability for years. These preservation features are presented as specific use cases for the platform. The materials identify archival durability for Web3 content as a primary application.
AIOZ Pin is cited as usable by AI agents to persist prompts, configurations, knowledge, and execution logs, enabling machine processes to store operational data. The platform includes software development kits (SDKs) and application programming interfaces (APIs) that have been rolled out to facilitate developer access. SDKs and APIs are described as tools to integrate storage functions into applications. The documentation highlights developer-focused features to simplify adoption.
These features and applications are listed among the platform’s stated capabilities. Developer tools are provided to support integration with those use cases.
AIOZ Pin’s DePIN data layer contributes to permanence, verifiability, and cost efficiency for Web3 content. It anchors content, metadata, and digital records relied on by Web3 applications and replicates files as multiple independent copies while using cryptographic proofs to verify that files are stored. Content spread across independent nodes prevents erasure from a single location and underpins resilience and continued accessibility.
