The architecture based on ENSO’s intention resolves the main challenges of blockchain development, aimed at making technology more accessible.
By removing complex technical obstacles, it allows developers to focus on creating significant applications rather than solving infrastructure problems.
Challenges in the development of blockchain
Blockchain technology often works in what are called “silos”, with tokens, liquidity and status data locked in specific ecosystems.
Blockchain technology often works in “silos”, with tokens, liquidity and status data locked in individual ecosystems.
These isolated environments make it difficult for blockchains to interact with each other, limiting interoperability and increasing the complexity of transversal operations.
In addition, developers are frequently faced with a lack of essential infrastructure.
Instead of working on applications, they must first spend an important time building fundamental tools and manual integrations.
This slows down the release of functional functional applications (DAPP) and, ultimately, innovation.
How intention -based architecture can help
Architecture based on intention aims to simplify these challenges.
It allows users to specify the desired results while the system manages technical execution behind the scenes.
For example, instead of code complex transverse processes, developers can simply indicate what they want the application to do and the system takes care of the rest.
However, for intention systems to work effectively on several blockchains, they require a unifying layer that connects otherwise isolated ecosystems.
Without such a foundation, blockchains remain disconnected, forcing developers to carry out manual integrations that undermine the systems based on the intention of simplicity are supposed to provide.
ENSO: a fundamental layer for development based on intention
Initially launched as a decentralized finance platform (DEFI), ENSO has become an API intermediate layer designed to take charge of architecture based on intention.
Developers can define their objectives, while network participants contribute to abstractions of intelligent contract necessary to respond to these requests for intention.
A key innovation in ENSO’s approach is its shared network state, which centralizes the data from Rollups and indications in a large unified book. This unification reduces complexity, increases precision and improves interoperability between blockchains.
To date, the ENSO has taken care of more than 60 projects, allowing processes such as chip exchanges, development and optimization of yields.
These are delivered via predefined workflows called shortcuts, cataloged in the ENSO smart contract library, which provide clear instructions to interact with specific protocols.
Participants of the ENSO ecosystem
The ENSO network relies on four main roles of participants, each encouraged through the $ native token:
- Action suppliers: Publish abstractions of smart contracts and earn rewards when used.
- Graphics: Create executable solutions from abstractions and compete to respond to requests for intention.
- Validators: Authenticate solutions, ensure quality and compliance while securing the network.
- Consumers: Submit requests for intention and payroll costs for network services.
Expand the accessibility of the blockchain
The architecture based on intention does not only simplify the development of blockchain; It also opens the door of industries and developers outside the web3 space.
Organizations that previously lacked resources or expertise to create blockchain solutions can now use intention -based systems to create tools without the need for deep technical knowledge.
This democratization of the development of blockchain creates a virtuous cycle: more use cases attract more users, familiarity and growing demand for blockchain solutions.
As adoption develops, innovation accelerates, which brings the technology closer to traditional integration.
