Privacy has long been one of blockchain’s most difficult trade-offs. Transparency secures trust, yet it often exposes sensitive data. Zerobase (ZBT) positions itself at the center of this tension, offering an infrastructure that allows complex computations to remain private while still being verifiable on-chain.
At its core, Zerobase is a decentralized network designed to support privacy-preserving applications without sacrificing performance, auditability, or regulatory alignment. By combining cryptographic techniques with trusted hardware, it opens the door to a new generation of verifiable off-chain computation.
Understanding Zerobase
Zerobase integrates zero-knowledge proofs with Trusted Execution Environments to create a secure workflow for off-chain computation. Sensitive processes, such as identity checks, financial modeling, or trade matching, are executed privately inside TEEs. Once completed, cryptographic proofs are generated and submitted on-chain, allowing anyone to verify the correctness of the result without seeing the underlying data.
This design removes a major bottleneck for privacy-heavy applications. Developers can offload intensive or confidential workloads from the blockchain while maintaining the guarantees that decentralized systems demand.
Within the Zerobase ecosystem, several modular components support this vision. Services such as zkLogin, zkStaking, ProofYield, and the decentralized Proving Network enable reusable, composable building blocks for privacy-aware decentralized applications. Developers can rely on pre-built circuits or customize their own, depending on the complexity of their use case.
Network Architecture and Performance
Zerobase is structured around a multi-Hub and Node architecture built for scalability and resilience. Nodes are distributed across Hubs using a consistent hashing algorithm organized as a virtual ring. This approach ensures that when new Hubs join or existing ones leave, only a minimal number of Nodes need to be reassigned, keeping the network stable and efficient under changing conditions.
To avoid uneven workloads, each Hub is represented by multiple virtual nodes. This abstraction allows the system to distribute tasks more evenly, even if physical resources differ across the network.
Within this architecture, Proving Nodes handle the execution of zero-knowledge proofs inside TEEs and are backed by stablecoin collateral to align economic incentives with honest performance. Hub Nodes, by contrast, focus on routing proofs and managing bandwidth. They do not require collateral but are rewarded according to their contribution to network throughput and reliability.
Because private inputs never leave the secure hardware environment, operators cannot access sensitive data, even while maintaining high throughput and low latency across the system.
Practical Use Cases
Zerobase is built with real-world applications in mind, particularly where privacy and verification must coexist.
zkLogin enables users to authenticate on blockchain platforms using familiar identity providers, without exposing personal credentials or raw identity data on-chain. This lowers onboarding friction while preserving confidentiality.
zkDarkPool introduces confidential trading to decentralized markets. Trade details remain hidden until execution is finalized, reducing the risks of front-running and market manipulation that often plague transparent order books.
In staking and yield strategies, Zerobase allows participants to keep their positions and tactics private while still proving risk exposure and correctness through zero-knowledge attestations. Beyond finance, the network also supports AI inference verification and content authenticity, giving platforms a way to prove that AI-generated outputs or digital media are genuine without revealing proprietary models or datasets.
The Role of the ZBT Token
ZBT is the native utility token that powers the Zerobase network. It is used to access protocol services, incentivize node operators, and participate in governance decisions.
The total supply is capped at one billion tokens, with predefined allocations covering team and advisors, early investors, liquidity provisioning, ecosystem growth, airdrops, and long-term node staking rewards. This structure is designed to balance early development incentives with sustainable network participation.
Node operators earn ZBT by generating proofs or contributing bandwidth, while users interact with services such as zkStaking or proof routing through token-based fees. Governance is handled on-chain, allowing token holders to propose and vote on upgrades, parameter changes, and broader protocol decisions. A DAO oversees mechanisms such as buybacks and token burns, adjusting supply dynamics in response to network usage.
ZBT and Binance HODLer Airdrops
In October 2025, Binance announced ZBT as the 54th project featured in its HODLer Airdrops program. Users who allocated BNB to eligible Simple Earn or On-Chain Yields products during the specified snapshot period received ZBT rewards. Fifteen million tokens were distributed through this initiative, representing 1.5 percent of the maximum supply.
Following the airdrop, ZBT was listed with a Seed Tag and made available for trading against multiple pairs, including major stablecoins and BNB.
Final Thoughts
Zerobase aims to narrow the long-standing gap between privacy and transparency in blockchain systems. By merging zero-knowledge cryptography with trusted hardware execution, it provides a framework where sensitive computations can remain confidential while still being provably correct.
For developers, enterprises, and users seeking privacy-first infrastructure that does not compromise on verifiability, Zerobase represents a meaningful step toward more practical and trustworthy decentralized applications.
