Fabric is a global, open network to build, govern, own, and evolve general purpose robots. The protocol coordinates data, computation, and oversight through public ledgers, allowing anyone to contribute and be rewarded.
Fabric is about building a safe, open, and globally beneficial future for AI and robotics, especially as intelligent machines move out of software and into the real world.
At its core, the project focuses on:
Aligning intelligent machines with human intent Making sure AI systems and autonomous machines act in ways that are understandable, predictable, and beneficial to people.
Public-good infrastructure for AI & robotics Supporting open standards, decentralized identity, machine-to-machine coordination, and governance frameworks so no single company or country controls the future of intelligent machines.
Research, policy, and governance Funding and convening researchers, policymakers, and technologists to address hard problems like safety, accountability, and long-term stewardship of AI systems.
Real-world deployment, not just theory the focus is on AI and robotics that operate in the physical world (robots, agents, autonomous systems) not just digital models.
Global participation and access Ensuring people worldwide can contribute to and benefit from these systems, rather than concentrating power in a few institutions.
$ROBO serves six distinct operational functions within the Fabric network, each designed to align participant incentives with network health and create sustainable demand for the token:
1. Access and Work Bonds:
Robot operators’ stake $ROBO as refundable performance bonds to register hardware and provide services. These bonds act as economic security deposits that deter fraud and ensure service quality. Bond requirements scale with declared capacity, creating token demand proportional to network throughput.
2. Transaction Settlement:
$ROBO is used to pay network native fees for services such as data exchange, compute tasks, and API calls. For user convenience, offchain or stablevalue
payments may be converted onchain into $ROBO to complete settlement. Quoted prices for services may be expressed in fiat terms for predictability; $ROBO is not backed by or redeemable for fiat or any other asset.
3. Delegation and Reputation:
Token holders may delegate $ROBO to augment operator bonds, increasing their capacity to accept high-value tasks. Delegation serves as a market_
based reputation signal and requires active operator selection. Delegators share in slash risk, aligning incentives while enabling capital-efficient scaling of network capacity.
4. Governance Signaling:
Token holders may time-lock $ROBO to obtain voting weight on protocol parameters and improvement proposals. Longer lock periods confer greater voting power, rewarding long-term alignment. Governance rights are procedural and do not convey control over legal entities or treasury assets beyond protocol-specified rules.
5. Crowdsourced Ownership:
The protocol enables a crowdsourced process for the genesis and activation of robot hardware through $ROBO -denominated participation units. Participants contribute tokens solely to access protocol functionality and coordinate network initialization. These units are used solely to coordinate participation, access protocol functionality, and support network initialization parameters related to robot deployment. Participation does not represent ownership of robot hardware, fractionalized interests, revenue rights, or economic claims, and $ROBO is not backed by, locked to, or redeemable against any underlying physical assets or productive capacity of the network. Participation in crowd_ sourced robot genesis does not constitute an investment of money, does not create any expectation of profit derived from the efforts of others, and does not satisfy the elements of an investment contract under the Howey Test or equivalent tests applied in other jurisdictions.
6. Token-Based Rewards:
Token Based Rewards. Tokens may be distributed as protocol level incentives designed to support network participation, usage, and operational efficiency.
Any such distributions are discretionary, non-guaranteed, and contingent upon active participation and verified contribution to network operations. Such incentives do not represent any ownership interest, profit-sharing right, or expectation of financial return. These incentives are non-investment in nature, do not constitute consideration for an investment contract, and do not involve an expectation of profit derived from the efforts of others. Recipients must actively participate in network operations to receive any incentives.
Public Sale:
Kaito Public Sale at $400M Valuation (0.5% of the total token supply).
Circulating and Total Supply Data:
As of March 18th, 2026, the initial circulating supply of ROBO will be 2,231,000,000 which represents 22.31% of the total token supply.
Key metrics (as at March 18 2026):
What is Fabric?
Project overview:
Fabric is a global, open network to build, govern, own, and evolve general purpose robots. The protocol coordinates data, computation, and oversight through public ledgers, allowing anyone to contribute and be rewarded.
Project mission:
To ensure that intelligent machines broaden human opportunity, remain aligned with human intent, and benefit people everywhere.
Project value proposition:
AI is leaving the digital realm and entering the world of atoms. Robots and autonomous agents introduce new challenges—physical safety, real-time decision-making, energy and resource constraints, and interaction with human environments.
Today’s institutions and economic rails were not designed for machine participation. Without new governance frameworks, we risk misalignment, unequal access, and concentration of power.
Fabric exists to:
Make machine behavior predictable and observable.
Enable inclusive participation from people, builders, and communities.
Build open, durable infrastructure for a world where machines act as economic contributors without legal personhood.
Project Key Highlights:
The Fabric protocol is a decentralized infrastructure for coordinating robotics and AI workloads across devices and services. It is built to operate as a neutral marketplace where participants exchange verifiable work, data, and compute. The network’s economic mechanisms are designed to prioritise operational reliability and safety; they do not confer ownership in any entity or asset.
Existing Products:
OM1 is a modular AI runtime that empowers developers to create and deploy multimodal AI agents that take multiple sensor inputs, fuse them, and choose the best actions to take. AI models make sense of the environment, plan tasks, and then drive actions including physical movement, self-charging, voice outputs, payments, and emotion display.
For robots to know where they are, who’s nearby, and what to do next in a global, agreed-upon “world state,” Fabric is developing FABRIC, a decentralized protocol for machine identity, context sharing, and secure coordination.
Cross-platform cooperation
Onchain machine identity: 83,017 machines, 152,168 humans
Verifiable coordination: partnership with Succinct and Symbiotic
Machine Settlement Protocol (MSP): partnership with Circle
Token sales and economics:
Token Distribution:
Token Release Schedule
Risk Analysis:
Initial Circulating Retail:Institution Ratio:
Airdrop Cluster Analysis:
Initial TGE Main Bucket On-chain Wallets Addresses:
Disclaimer: This report is written before spot opening to trade, the liquidity token in the liquidity pool may be transferred while opening.
Roadmap & Updates:
Completed Milestones
Current Roadmap
2026 Q1
Deploy initial Fabric components to support robot identity, task settlement, and structured data collection in early deployments.
Begin collecting real-world operational data from active robot usage.
2026 Q2
Introduce contribution-based incentives tied to verified task execution and data sub-mission.
Expand data collection across additional robot platforms, environments, and use cases.
Broaden App Store participation among developers and ecosystem partners.
2026 Q3
Extend incentives to support more complex tasks and sustained, repeated usage.
Scale data pipelines to improve coverage, quality, and validation across deployments.
Support multi-robot workflows in selected real-world scenarios.
2026 Q4
Refine incentive mechanisms and data systems based on observed performance and feedback.
Improve reliability, throughput, and operational stability of the Fabric network.
Prepare the protocol for larger-scale deployments.
Beyond 2026
Progress toward a machine-native Fabric Layer 1 informed by accumulated data and real-world usage.
Support continued expansion of autonomous coordination across robots, data, and skills.
Community:
Telegram: https://t.me/OpenMindKR
Discord: https://discord.com/invite/Fabric