Decentralized Storage

Immutable, Redundant, and Censorship-Resistant by Design

Encryptum transforms the foundation of data infrastructure by replacing centralized systems with a fully decentralized, trustless, and encrypted storage protocol. Leveraging IPFS as its backbone and integrating with Filecoin, Arweave, and Flux, Encryptum provides a secure, fault-tolerant environment where data is permanently accessible, cryptographically protected, and governed by smart contracts.

Files are encrypted at the client level and split into content-addressable fragments. These fragments are distributed across independent storage nodes, while all metadata, permission policies, and integrity hashes are immutably anchored to the Ethereum blockchain. The result is a storage solution with no single point of failure, no central control, and complete transparency.

Key Capabilities and Features

End-to-End Encrypted Storage Architecture Files are encrypted using robust cryptographic standards such as AES-256 and zero-knowledge-enabled protocols. Data is fragmented before leaving the device, ensuring storage nodes cannot access original content or full context.

Multi-Network Redundancy Encryptum supports redundancy across IPFS, Filecoin, Arweave, and Flux. This ensures short-term flexibility (via IPFS) and long-term archival certainty (via Arweave and Filecoin), offering unmatched reliability across jurisdictions and timeframes.

On-Chain Access and Permissions Management Permission layers are enforced by smart contracts deployed on Ethereum. Access is governed by wallet-based authentication, programmable role systems, and logic that supports time-bound sharing, revocation, or multi-user collaboration.

Data Versioning and Integrity Anchoring All file versions and metadata changes are time-stamped and hashed on-chain, allowing verification of authenticity, authorship, and historical lineage. This provides immutable provenance for critical documents and files.

Decentralized Identity Compatibility Access permissions can be linked to Decentralized Identifiers (DIDs) and wallet-bound credentials using protocols like ENS, Ceramic, or verifiable credentials, supporting sovereign identity-driven access control.

Compliance-Ready Infrastructure Encryptum is designed to support regulatory compliance frameworks including GDPR, HIPAA, ISO/IEC 27001, and SOC 2. Every file interaction can be logged, audited, and cryptographically verified without compromising privacy.

Illustrative Use Cases

Legal Sector A global law firm uses Encryptum to securely store and manage client contracts, case files, and internal records. Every document is encrypted, fragmented, and distributed across decentralized networks, ensuring jurisdictional independence and complete confidentiality. Immutable audit trails satisfy international compliance requirements, while smart contracts enable secure client collaboration through expiring links and permission-controlled access.

Government Archives A national archive digitizes official records including birth certificates, land ownership documents, and legislative proceedings using Encryptum. These records are made tamper-proof, censorship-resistant, and verifiable by the public, while internal permissions ensure that only authorized departments can update records. The decentralized design guarantees resilience against disasters, political interference, or infrastructure failure.

Scientific Research Repositories Leading universities and laboratories utilize Encryptum to store and share experiment data, simulations, academic papers, and AI model weights. All contributions are cryptographically signed and stored immutably, supporting data reproducibility and verifiable authorship. Researchers across the world can securely collaborate, access version-controlled datasets, and publish results with confidence that their findings are preserved and protected from tampering.