Minima secures
DePIN at the edge

Minima enables true decentralization by running full blockchain nodes on edge devices, securing DePIN (Decentralized Physical Infrastructure Networks) with no reliance on centralized servers.

By embedding blockchain directly into IoT devices, vehicles, and sensors, Minima ensures secure, real-time data validation and transactions at the edge, empowering next-gen infrastructure.

Minima vs traditional blockchains for DePIN

Unlike traditional blockchains that rely on centralized infrastructure, Minima enables devices at the edge to run full nodes, ensuring true decentralized operations. It’s more scalable, secure, and energy-efficient, making it the ideal solution for cost efficient DePIN projects.

Modular functions:
Empowering decentralized infrastructure

MEG (Minima E-Gateway)
MEG offers a seamless way to manage and store blockchain data. Web3 developers can access historical transaction data on-demand, ensuring a complete, auditable record of blockchain activity for secure asset management and transparent operations.
Unique device ID (Mx ID)
Every device running a Minima node is assigned a unique, tamper-proof ID. This Mx ID ensures that each device can be securely identified and authenticated, enabling decentralized communication and interaction without reliance on centralized authorities. This is crucial for device trust and verification across autonomous networks.
Token generation
Minima enables the creation of custom tokens directly from the node. These tokens can be used for payments, access control, or resource allocation within DePIN systems. For example, tokens could grant access to shared resources, authorize vehicle charging, or enable machine-to-machine (M2M) transactions, creating seamless digital economies at the edge.
Data attestation: timestamping and hashing
Minima allows edge devices to timestamp and hash critical data directly on the blockchain, ensuring the authenticity and integrity of the data. This modular function is ideal for applications requiring secure proof of data, such as IoT sensors validating environmental readings, or smart city systems ensuring accurate infrastructure data for compliance and auditing.
M2M messaging (Maxima)
Maxima, Minima’s peer-to-peer messaging protocol, enables machine-to-machine (M2M) communication over a secure, decentralized network. This low-latency, encrypted messaging ensures real-time coordination between devices such as autonomous vehicles, drones, or industrial robots, all without the need for intermediaries. It’s designed for fast, reliable data exchange in critical, high-speed environments.
Smart contracts
Minima supports smart contracts that are executed directly on the device, enabling automated agreements between machines. These self-executing contracts can be used for automated workflows. For example, a smart contract could automatically trigger a service when a sensor detects specific conditions, making operations more efficient and trustless.

Use cases

IoT networks

Minima enables secure, device-to-device communication, validating data directly on-chain, ensuring scalable and tamper-proof IoT ecosystems without centralized control.

Smart cities

Minima secures decentralized data flows for smart infrastructure, allowing autonomous management of energy grids, traffic systems, and public services, free from bottlenecks.

Autonomous vehicles

Minima powers trustless vehicle-to-vehicle communication, enabling real-time data verification for safer, decentralized transportation systems.

Robots and drones

Minima supports decentralized control and data exchange for autonomous robots and drones, streamlining operations in industries like logistics and delivery.

Decentralized energy grids

Minima enables decentralized energy grids where devices autonomously manage and transact energy without a central provider, enhancing transparency and efficiency.

Decentralized WiFi networks

Minima supports decentralized WiFi networks, allowing secure, peer-to-peer connectivity without central control, boosting network resilience and security.

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