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Horizen BlogBuild Smarter dApps with Real-Time Data on Horizen
Horizen BlogWelcome to Privacy on Base
A new chapter for onchain privacy begins today. Horizen has officially launched its mainnet on Base, bringing a practical and compliance-friendly path to private onchain activity - one that fits seamlessly into the Ethereum environment millions already use. This launch completes our transition from an isolated proof-of-work chain to a fully EVM-native chain that settles to Ethereum. For everyday users, this shift means faster transactions, lower fees, and access to tools and apps that feel fa...
Horizen BlogZenIP 42409: ZenIP 42407 Addendum, Horizen 2.0 Tokenomics Proposal
There is a new ZenIP Proposal that recently passed, ZenIP 42409, which is an Addendum to ZenIP 42407: Horizen Tokenomics Proposal. The timeline for the vote on ZenIP 42409 was that voting opened on Monday, April 21st, 2025, at 12pm EST, and closed on Thursday, April 24th, 2025, at 12pm EST. With a quorum of 142% and 99.39% (1.1M $ZEN) of the votes FOR, the proposal passed! The full results of the vote can be found on Snapshot here. Let’s review this ZenIP proposal below, and we’ll also remind...
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Horizen BlogBuild Smarter dApps with Real-Time Data on Horizen
Horizen BlogWelcome to Privacy on Base
A new chapter for onchain privacy begins today. Horizen has officially launched its mainnet on Base, bringing a practical and compliance-friendly path to private onchain activity - one that fits seamlessly into the Ethereum environment millions already use. This launch completes our transition from an isolated proof-of-work chain to a fully EVM-native chain that settles to Ethereum. For everyday users, this shift means faster transactions, lower fees, and access to tools and apps that feel fa...
Horizen BlogZenIP 42409: ZenIP 42407 Addendum, Horizen 2.0 Tokenomics Proposal
There is a new ZenIP Proposal that recently passed, ZenIP 42409, which is an Addendum to ZenIP 42407: Horizen Tokenomics Proposal. The timeline for the vote on ZenIP 42409 was that voting opened on Monday, April 21st, 2025, at 12pm EST, and closed on Thursday, April 24th, 2025, at 12pm EST. With a quorum of 142% and 99.39% (1.1M $ZEN) of the votes FOR, the proposal passed! The full results of the vote can be found on Snapshot here. Let’s review this ZenIP proposal below, and we’ll also remind...
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In the ever-evolving landscape of blockchain technology, zero-knowledge (ZK) proofs have emerged as a much-needed innovation. These cryptographic methods allow one party to prove the validity of a statement to another without revealing any underlying details.
In this article, we'll explore how Horizen 2.0 leverages ZK technology to address critical challenges in the blockchain space and enable a new generation of decentralized applications.
Zero-knowledge (ZK) proofs are built on three fundamental properties: completeness, soundness, and zero-knowledge.
Completeness ensures that if a statement is true, an honest verifier will be convinced by an honest prover.
Soundness guarantees that if the statement is false, no cheating prover can convince an honest verifier that it's true, except with negligible probability.
The zero-knowledge property ensures that the verifier learns nothing other than the validity of the statement.
These properties make ZKPs invaluable for preserving privacy, enhancing scalability, and minimizing trust requirements in various systems.
Horizen 2.0, a modular L1 blockchain optimized for ZK, is designed to address the limitations of traditional blockchain networks while unlocking new possibilities for developers and users.
By supporting multiple ZK proving schemes, Horizen 2.0 provides developers with the flexibility to choose the most suitable option for their specific applications. This flexibility significantly reduces the complexity and cost of verifying computations on-chain, making ZK-enabled applications more accessible and cheaper.
The platform incorporates the latest advancements in ZK technology, ensuring developers have access to the most novel proving schemes. By enabling proof verification directly within smart contracts on an EVM-compatible Layer 1, Horizen 2.0 reduces the need for Layer 2 solutions and complex interchain communication, decreasing latency and bridging risks. This combination of reduced complexity and enhanced flexibility simplifies the creation and deployment of ZK-powered applications.
Perhaps most importantly, the combination of privacy and verifiability enables entirely new categories of applications that were previously impractical or impossible on existing platforms, acting as a catalyst for innovation in the blockchain space.
Horizen 2.0’s unique architecture opens up a wide range of possibilities for developers and businesses across various industries and sectors.
Identity Verification
Horizen 2.0 simplifies identity verification in decentralized applications, allowing users to prove specific personal details without exposing sensitive information. This is particularly valuable for financial services, healthcare applications, and compliance with regulatory requirements.
DeFi
DeFi platforms can use ZK proofs to safeguard trading strategies, prevent front-running, and offload computational tasks. By enhancing privacy and reducing costs, Horizen 2.0 enables more secure and scalable DeFi applications.
Voting
ZK technology in Horizen 2.0 allows for secure and transparent voting processes. Voters can prove their eligibility and participation without revealing their choices, ensuring privacy while maintaining trust in the results.
Gaming
Horizen 2.0 opens new possibilities in gaming by proving possession of in-game items, ensuring fair play, and protecting sensitive data. ZK proofs can verify actions and outcomes without compromising privacy.
Verifiable Computing
For applications requiring intensive computation, Horizen 2.0 offers verifiable computing solutions. By offloading tasks and verifying results through ZK proofs, the platform ensures efficient and trustworthy execution.
Bridge Technology
Horizen 2.0 addresses blockchain interoperability challenges by enabling secure communication between different networks. ZK proofs reduce the need for centralized systems, enhancing the security and reliability of cross-chain bridges.
zkML (Zero-Knowledge Machine Learning)
Horizen 2.0 supports the intersection of AI and blockchain. By verifying machine learning models and ensuring data privacy, the platform enables trustless AI applications.
Combating Deep Fakes
Horizen 2.0 can help combat deep fakes and misinformation by authenticating media files on-chain. ZK proofs ensure that any edits or transformations to the original content are legitimate.
By leveraging the power of zero-knowledge proofs and building on a ZK-focused EVM, Horizen 2.0 is designed to address many of the key challenges facing the blockchain industry today.
Stay ahead of the curve and keep in touch!
In the ever-evolving landscape of blockchain technology, zero-knowledge (ZK) proofs have emerged as a much-needed innovation. These cryptographic methods allow one party to prove the validity of a statement to another without revealing any underlying details.
In this article, we'll explore how Horizen 2.0 leverages ZK technology to address critical challenges in the blockchain space and enable a new generation of decentralized applications.
Zero-knowledge (ZK) proofs are built on three fundamental properties: completeness, soundness, and zero-knowledge.
Completeness ensures that if a statement is true, an honest verifier will be convinced by an honest prover.
Soundness guarantees that if the statement is false, no cheating prover can convince an honest verifier that it's true, except with negligible probability.
The zero-knowledge property ensures that the verifier learns nothing other than the validity of the statement.
These properties make ZKPs invaluable for preserving privacy, enhancing scalability, and minimizing trust requirements in various systems.
Horizen 2.0, a modular L1 blockchain optimized for ZK, is designed to address the limitations of traditional blockchain networks while unlocking new possibilities for developers and users.
By supporting multiple ZK proving schemes, Horizen 2.0 provides developers with the flexibility to choose the most suitable option for their specific applications. This flexibility significantly reduces the complexity and cost of verifying computations on-chain, making ZK-enabled applications more accessible and cheaper.
The platform incorporates the latest advancements in ZK technology, ensuring developers have access to the most novel proving schemes. By enabling proof verification directly within smart contracts on an EVM-compatible Layer 1, Horizen 2.0 reduces the need for Layer 2 solutions and complex interchain communication, decreasing latency and bridging risks. This combination of reduced complexity and enhanced flexibility simplifies the creation and deployment of ZK-powered applications.
Perhaps most importantly, the combination of privacy and verifiability enables entirely new categories of applications that were previously impractical or impossible on existing platforms, acting as a catalyst for innovation in the blockchain space.
Horizen 2.0’s unique architecture opens up a wide range of possibilities for developers and businesses across various industries and sectors.
Identity Verification
Horizen 2.0 simplifies identity verification in decentralized applications, allowing users to prove specific personal details without exposing sensitive information. This is particularly valuable for financial services, healthcare applications, and compliance with regulatory requirements.
DeFi
DeFi platforms can use ZK proofs to safeguard trading strategies, prevent front-running, and offload computational tasks. By enhancing privacy and reducing costs, Horizen 2.0 enables more secure and scalable DeFi applications.
Voting
ZK technology in Horizen 2.0 allows for secure and transparent voting processes. Voters can prove their eligibility and participation without revealing their choices, ensuring privacy while maintaining trust in the results.
Gaming
Horizen 2.0 opens new possibilities in gaming by proving possession of in-game items, ensuring fair play, and protecting sensitive data. ZK proofs can verify actions and outcomes without compromising privacy.
Verifiable Computing
For applications requiring intensive computation, Horizen 2.0 offers verifiable computing solutions. By offloading tasks and verifying results through ZK proofs, the platform ensures efficient and trustworthy execution.
Bridge Technology
Horizen 2.0 addresses blockchain interoperability challenges by enabling secure communication between different networks. ZK proofs reduce the need for centralized systems, enhancing the security and reliability of cross-chain bridges.
zkML (Zero-Knowledge Machine Learning)
Horizen 2.0 supports the intersection of AI and blockchain. By verifying machine learning models and ensuring data privacy, the platform enables trustless AI applications.
Combating Deep Fakes
Horizen 2.0 can help combat deep fakes and misinformation by authenticating media files on-chain. ZK proofs ensure that any edits or transformations to the original content are legitimate.
By leveraging the power of zero-knowledge proofs and building on a ZK-focused EVM, Horizen 2.0 is designed to address many of the key challenges facing the blockchain industry today.
Stay ahead of the curve and keep in touch!
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