As robotics become increasingly capable, a key question emerges: will robots operate in isolated corporate silos or within an open, verifiable economic network?
Fabric Protocol, supported by the non-profit Fabric Foundation, is building the infrastructure for the latter.
At its core, Fabric assigns each robot a persistent blockchain identity, an autonomous wallet, and cryptographic tools to coordinate tasks, exchange data, and receive payments without centralized intermediaries. Instead of siloed fleets, Fabric enables transparent coordination pools where participants collectively fund, deploy, and govern robotic operations.
The protocol’s Proof of Robotic Work mechanism rewards robots with $ROBO tokens for verifiable tasks, while humans stake $ROBO to prioritize work, offer expertise, or participate in governance. With a fixed supply, the token powers transactions, staking, governance, and machine to machine settlements.
Initially on Base, Fabric plans to evolve into its own Layer 1, establishing an open, accountable, and scalable autonomous machine economy.
#ROBO
@Fabric Foundation
Fabric Protocol, supported by the non-profit Fabric Foundation, is building the infrastructure for the latter.
At its core, Fabric assigns each robot a persistent blockchain identity, an autonomous wallet, and cryptographic tools to coordinate tasks, exchange data, and receive payments without centralized intermediaries. Instead of siloed fleets, Fabric enables transparent coordination pools where participants collectively fund, deploy, and govern robotic operations.
The protocol’s Proof of Robotic Work mechanism rewards robots with $ROBO tokens for verifiable tasks, while humans stake $ROBO to prioritize work, offer expertise, or participate in governance. With a fixed supply, the token powers transactions, staking, governance, and machine to machine settlements.
Initially on Base, Fabric plans to evolve into its own Layer 1, establishing an open, accountable, and scalable autonomous machine economy.
#ROBO
@Fabric Foundation