QBIT is a decentralized quantum computing platform that brings live quantum hardware to the Web3 ecosystem. It offers permissionless access to QPUs, programmable entropy tools, and quantum-powered solutions that integrate directly with smart contracts, dApps, and on-chain protocols.

Our platform bridges the gap between raw quantum machines and modern digital infrastructure, making quantum computing programmable, accessible, and verifiable for developers and enterprises.

QBIT aims to democratize quantum computing by creating the application layer for quantum compute. We envision a future where quantum capabilities are as accessible as traditional cloud computing, integrated seamlessly into Web3 applications and smart contracts.

QBIT Dock provides direct access to quantum processing units (QPUs). Users can connect via wallet signature, select backend hardware, adjust execution parameters, and dispatch quantum jobs to real quantum computers.

QBIT Craft is a visual circuit design suite that allows users to build quantum circuits using a drag-and-drop interface. It automatically compiles circuits to QASM format and provides templates for common quantum algorithms.

QBIT Sim is a quantum simulator for local development and testing. It provides step-by-step circuit visualization, real-time probability graphs, and entanglement previews without consuming quantum hardware resources.

The Quantum-Secure Key Generator (QSKG) creates cryptographically secure keys using quantum entropy. These keys are designed to be resistant to both classical and quantum attacks.

Quantum Random Number Generator APIs provide verifiable randomness derived from quantum measurements. This true randomness is essential for gaming, cryptography, and fair protocol execution.

QBIT integrates with leading quantum hardware providers to offer access to state-of-the-art quantum processors. Our platform supports multiple QPU architectures and provides real-time backend metadata.

Direct access to quantum processing units through QBIT's platform provides developers with the ability to execute quantum circuits on real hardware with transparent pricing and queue management.

Every quantum job execution generates a cryptographic receipt that includes the job hash, result histogram, and backend metadata. These receipts provide verifiable proof of quantum computation execution.

QBIT enables truly random and fair gaming experiences by providing quantum-generated randomness that cannot be predicted or manipulated. This creates new possibilities for gaming mechanics and virtual world generation.

Decentralized finance and DAO governance can benefit from quantum-secure cryptography and verifiable randomness for fair protocol execution and enhanced security measures.

QBIT's quantum-secure key generation and entropy services provide enhanced security for applications requiring protection against both current and future quantum attacks.

The $QBIT token is the native utility token of the QBIT platform, used for accessing quantum computing services, paying execution fees, and participating in platform governance.

QBIT generates revenue through quantum computing service fees, API usage, and premium platform features. A portion of platform revenue is used for token buybacks and holder rewards.

$QBIT token holders receive various benefits including revenue sharing, priority access to platform services, and governance participation rights.

QBIT is currently in the foundation phase, focusing on core platform development, quantum hardware integration, and building the essential tools for quantum computing access.

The next phases will introduce core platform utilities, quantum integration features, and developer ecosystem tools.

QBIT's long-term vision includes building a comprehensive quantum computing ecosystem with AI integration, hybrid quantum-classical agents, and widespread Web3 adoption.