KIRA Network is leading the way in trustless computing to support high-demand applications like AI, big data analytics, and immersive gaming.
Why We Need for Modular Blockchains
Traditional blockchains weren’t built for heavy-duty applications. As crypto adoption grew, so did the demand for more complex blockchain uses. Modular blockchains emerged to scale the technology, and KIRA is advancing this with hypermodularity.
Monolithic blockchains do everything on one layer, leading to problems like:
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Competing for computing resources.
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Conforming to base layer limits on programming, verification, and block constraints.
Modular blockchains split these functions into layers for execution, consensus, and data availability, making them more scalable and flexible. This setup is essential for complex applications like AI.
KIRA’s Hypermodularity Approach
KIRA’s hypermodularity means each component can function independently yet work together seamlessly through the RYOKAI orchestrator. This solves networking and fragmentation issues seen in other modular designs. KIRA is also interoperable externally, using metafinality to verify external blockchain states without third-party help.
KIRA’s key components which support AI & Resource-Intensive Applications
Execution Environment for AI Apps:
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KIRA’s Virtual Finality Gadget (VFG) allows flexible, programmable verification methods, which are crucial for applications needing custom security and performance. Developers can tailor verification to their needs, boosting efficiency and reliability
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Docker containers for execution, removing blockchain and Web3 limitations.
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The ILO bootstrapping mechanism for economic support and incentive design.
INTERX: Each KIRA application gets its own sub-network, optimizing storage and networking by involving only necessary nodes. This improves speed, efficiency, and security by isolating operations.
Real Turing Completeness Without Gas: KIRA Network removes gas fees and block limits, allowing applications to run indefinitely. This is a game-changer for applications requiring constant, intensive computation.
Beyond the Block Model: KIRA moves past the conventional block model, addressing latency issues. This change benefits high-speed applications needing real-time processing, making blockchain support more competitive with centralized systems.
Scalable and Secure Validator Infrastructure: In KIRA Network, validators can scale their hardware to support high-demand applications. This allows one validator to handle workloads similar to a whole cloud data center, maintaining decentralization and security.
Capital and Staking: KIRA’s staking system issues native LRTs and allows any bridged asset to be used for consensus staking. This lets users earn rewards while keeping assets available for on-chain use. It enables KIRA’s security to grow in tandem with its TVL.
Permissioned Multi-Bonded Proof of Stake (MBPoS)
KIRA’s MBPoS consensus ensures security and scalability by:
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Backing validators with diverse assets.
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Including aligned node operators without strict slashing rules.
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Minimizing hardware requirements for nodes, securing the network, and reducing scaling costs.
KIRA Network’s innovations provide a robust platform for resource-intensive applications. By overcoming traditional blockchain limits and focusing on scalable, efficient, and customizable solutions, KIRA is setting a new standard for blockchain technology, enabling more sophisticated and demanding applications across a variety of industries.
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