Quantropy
noun • /kwɒn-ˈtrō-pē/
The systematic injection of non-deterministic quantum entropy
into the blockchain environment, replacing vulnerable software simulations
with the absolute, verifiable uncertainty of sub-atomic physics.
A decentralized physical infrastructure network that replaces algorithmic pseudo-randomness with verifiable real-time quantum states.
A decentralized physical infrastructure network that replaces algorithmic pseudo-randomness with verifiable real-time quantum states.
Our non-deterministic stream is synchronized by
Quantum Hardware
, and powered by
Web3 Infrastructure
and verified by
Our non-deterministic stream
is synchronized by
Quantum Hardware
, and powered by
Web3 Infrastructure
.
Our non-deterministic stream
is synchronized by
Quantum Hardware
, and powered by
Web3 Infrastructure
.
How It Works?
How It Works?
From Physics to Protocol
The four-stage pipeline bridging the quantum realm to your on-chain application.
Verifiable Quantum Provenance
Anchoring every entropy request to an immutable, on-chain Quantum Job ID for complete cryptographic auditability.
Verifiable Quantum Provenance
Anchoring every entropy request to an immutable, on-chain Quantum Job ID for complete cryptographic auditability.
Verifiable Quantum Provenance
Anchoring every entropy request to an immutable, on-chain Quantum Job ID for complete cryptographic auditability.
Real-Time QPU Engagement
Bypassing simulations via low-latency bridges to live quantum processors from leaders like IBM, IonQ, and Rigetti.
Real-Time QPU Engagement
Bypassing simulations via low-latency bridges to live quantum processors from leaders like IBM, IonQ, and Rigetti.
Real-Time QPU Engagement
Bypassing simulations via low-latency bridges to live quantum processors from leaders like IBM, IonQ, and Rigetti.
Subatomic Spatial Mapping
Harvesting physical indeterminacy by mapping the exact 3D coordinates of subatomic particle collapse at the moment of measurement.
Subatomic Spatial Mapping
Harvesting physical indeterminacy by mapping the exact 3D coordinates of subatomic particle collapse at the moment of measurement.
Subatomic Spatial Mapping
Harvesting physical indeterminacy by mapping the exact 3D coordinates of subatomic particle collapse at the moment of measurement.
Frictionless API Integration
Delivering sub-second, information-theoretic security directly to your protocol via a single-endpoint API.
Frictionless API Integration
Delivering sub-second, information-theoretic security directly to your protocol via a single-endpoint API.
Frictionless API Integration
Delivering sub-second, information-theoretic security directly to your protocol via a single-endpoint API.
Domains Powered by Quantropy
Empowering the Sovereign Web with Real-Time, Physically Derived Quantum Entropy.
Use Cases
The Quantum Advantage
The Quantum Advantage
The Quantum Advantage
01
01
02
02
03
03
04
04
05
05
System Architecture
System Architecture
System Architecture
The Multi-Layer Quantum Pipeline
Defining the bridge between quantum physics and distributed ledgers.
01
The Quantum Source
The foundation of the stack resides in the physical realm. We utilize the inherent non-determinism of the universe by measuring the wave-function collapse of subatomic particles. This "entropy genesis" ensures that the raw data is physically impossible to predict, bypass, or reverse-engineer.
02
QPU Abstraction Layer
Quantropy interfaces directly with a diversified fleet of Quantum Processing Units (QPUs), including IBM, IonQ, and Rigetti. This layer manages the hardware-specific calibration and executes the high-fidelity measurements required to capture subatomic spatial coordinates in real-time.
03
The Velocity Engine
The raw quantum measurements are fed into our low-latency processing engine. This layer normalizes the entropy, performs cryptographic hardening, and delivers the data via a single-endpoint API. Optimized for 2026 standards, this layer achieves sub-400ms delivery to match the heartbeat of high-performance networks.
04
On-Chain Settlement
The final layer anchors the entropy to the Solana blockchain. Every request generates an immutable Quantum Job ID, creating a permanent link between the physical event and the digital transaction. This provides a decentralized "Root of Trust," allowing any third party to audit the provenance of the entropy.
01
The Quantum Source
The foundation of the stack resides in the physical realm. We utilize the inherent non-determinism of the universe by measuring the wave-function collapse of subatomic particles. This "entropy genesis" ensures that the raw data is physically impossible to predict, bypass, or reverse-engineer.
02
QPU Abstraction Layer
Quantropy interfaces directly with a diversified fleet of Quantum Processing Units (QPUs), including IBM, IonQ, and Rigetti. This layer manages the hardware-specific calibration and executes the high-fidelity measurements required to capture subatomic spatial coordinates in real-time.
03
The Velocity Engine
The raw quantum measurements are fed into our low-latency processing engine. This layer normalizes the entropy, performs cryptographic hardening, and delivers the data via a single-endpoint API. Optimized for 2026 standards, this layer achieves sub-400ms delivery to match the heartbeat of high-performance networks.
04
On-Chain Settlement
The final layer anchors the entropy to the Solana blockchain. Every request generates an immutable Quantum Job ID, creating a permanent link between the physical event and the digital transaction. This provides a decentralized "Root of Trust," allowing any third party to audit the provenance of the entropy.
01
The Quantum Source
The foundation of the stack resides in the physical realm. We utilize the inherent non-determinism of the universe by measuring the wave-function collapse of subatomic particles. This "entropy genesis" ensures that the raw data is physically impossible to predict, bypass, or reverse-engineer.
02
QPU Abstraction Layer
Quantropy interfaces directly with a diversified fleet of Quantum Processing Units (QPUs), including IBM, IonQ, and Rigetti. This layer manages the hardware-specific calibration and executes the high-fidelity measurements required to capture subatomic spatial coordinates in real-time.
03
The Velocity Engine
The raw quantum measurements are fed into our low-latency processing engine. This layer normalizes the entropy, performs cryptographic hardening, and delivers the data via a single-endpoint API. Optimized for 2026 standards, this layer achieves sub-400ms delivery to match the heartbeat of high-performance networks.
04
On-Chain Settlement
The final layer anchors the entropy to the Solana blockchain. Every request generates an immutable Quantum Job ID, creating a permanent link between the physical event and the digital transaction. This provides a decentralized "Root of Trust," allowing any third party to audit the provenance of the entropy.
13.8 Billion years of
universal chaos refined into
instant on-chain truth.
Global Latency
<
ms
Request-to-Chain Finality
Global Latency
<
ms
Request-to-Chain Finality
Global Latency
<
ms
Request-to-Chain Finality
Network Capacity
+
Concurrent Entropy Requests
Network Capacity
+
Concurrent Entropy Requests
Network Capacity
+
Concurrent Entropy Requests
Hardware Fleet
+
Available Quantum Qubits
Hardware Fleet
+
Available Quantum Qubits
Hardware Fleet
+
Available Quantum Qubits
Throughput Scale
M+
Daily Verifiable Requests
Throughput Scale
M+
Daily Verifiable Requests
Throughput Scale
M+
Daily Verifiable Requests
Platform Capabilities
Platform Capabilities
Platform Capabilities
Engineering the Standard for High-Stakes Web3
Harnessing physical reality to power the high-velocity machine economy.
Entropy for the AI Era
AI agents require physical indeterminacy to secure their identities and decision logic against adversarial simulation. We provide the "Quantum Seed" necessary to ensure autonomous machines remain unpredictable and un-clonable.
Built for Hyper-Growth
A multi-hardware infrastructure designed to scale with your protocol across thousands of active qubits.
Velocity Without Compromise
Physically derived measurements delivered to the ledger in under 400ms for real-time protocol execution.
Unified Provenance
Every subatomic event is permanently fused to a Solana transaction via a Quantum Job ID. This creates a single, immutable record of truth that merges physical reality with cryptographic proof for absolute auditability.
Token Economics
Token Economics
Token Economics
$QPY Growth Engine
A circular economy where protocol utility directly drives token scarcity.
A circular economy where protocol utility directly drives token scarcity.
Resource Ignition
01
API Fuel Consumption
$QPY acts as the fundamental fuel for the Quantropy ecosystem. To access quantum entropy and initiate high-fidelity API calls, users must spend $QPY, creating a direct correlation between platform demand and token utility.
Resource Ignition
01
API Fuel Consumption
$QPY acts as the fundamental fuel for the Quantropy ecosystem. To access quantum entropy and initiate high-fidelity API calls, users must spend $QPY, creating a direct correlation between platform demand and token utility.
Resource Ignition
01
API Fuel Consumption
$QPY acts as the fundamental fuel for the Quantropy ecosystem. To access quantum entropy and initiate high-fidelity API calls, users must spend $QPY, creating a direct correlation between platform demand and token utility.
Supply Contraction
02
The Burn Equilibrium
Quantropy utilizes a symmetric spend-and-burn mechanism. Every token used to power an entropy request is permanently removed from the circulating supply, ensuring that as protocol usage grows, the total $QPY supply decreases.
Supply Contraction
02
The Burn Equilibrium
Quantropy utilizes a symmetric spend-and-burn mechanism. Every token used to power an entropy request is permanently removed from the circulating supply, ensuring that as protocol usage grows, the total $QPY supply decreases.
Supply Contraction
02
The Burn Equilibrium
Quantropy utilizes a symmetric spend-and-burn mechanism. Every token used to power an entropy request is permanently removed from the circulating supply, ensuring that as protocol usage grows, the total $QPY supply decreases.
Economic Hardening
03
Deflationary Floor
The automated burn protocol serves as a physical barrier against inflation. By systematically reducing the number of tokens in existence with every call, the network creates a deflationary pressure that rewards long-term ecosystem stability.
Economic Hardening
03
Deflationary Floor
The automated burn protocol serves as a physical barrier against inflation. By systematically reducing the number of tokens in existence with every call, the network creates a deflationary pressure that rewards long-term ecosystem stability.
Economic Hardening
03
Deflationary Floor
The automated burn protocol serves as a physical barrier against inflation. By systematically reducing the number of tokens in existence with every call, the network creates a deflationary pressure that rewards long-term ecosystem stability.
Scalable Liquidity
04
Global Demand Integration
$QPY is the universal medium for accessing the "Layer Zero" of physical reality. As the connected grid of dApps and AI agents expands globally, the continuous burn of $QPY across every node supports the token's scarcity on a worldwide scale.
Scalable Liquidity
04
Global Demand Integration
$QPY is the universal medium for accessing the "Layer Zero" of physical reality. As the connected grid of dApps and AI agents expands globally, the continuous burn of $QPY across every node supports the token's scarcity on a worldwide scale.
Scalable Liquidity
04
Global Demand Integration
$QPY is the universal medium for accessing the "Layer Zero" of physical reality. As the connected grid of dApps and AI agents expands globally, the continuous burn of $QPY across every node supports the token's scarcity on a worldwide scale.
FAQS
FAQS
FAQS
The Knowledge Base
Decoding the mechanics of physics-based consensus and the $QPY economy.
01
General Questions
What is Quantropy?
Quantropy is a high-velocity infrastructure project designed to provide verifiable quantum randomness as a core utility on the Solana blockchain. It bridges physical subatomic events with digital ledgers to ensure absolute cryptographic integrity.
What is Quantropy?
Quantropy is a high-velocity infrastructure project designed to provide verifiable quantum randomness as a core utility on the Solana blockchain. It bridges physical subatomic events with digital ledgers to ensure absolute cryptographic integrity.
What is the $QPY token?
$QPY is the native utility token that fuels the Quantropy ecosystem. It is used to pay for API calls and follows a deflationary "spend-and-burn" model to align protocol growth with token scarcity.
What is the $QPY token?
$QPY is the native utility token that fuels the Quantropy ecosystem. It is used to pay for API calls and follows a deflationary "spend-and-burn" model to align protocol growth with token scarcity.
02
Services & Solutions
Who should integrate Quantropy?
The platform is engineered for developers building high-stakes dApps, GameFi protocols, and automated trading bots that require mathematically fair and unpredictable entropy.
Who should integrate Quantropy?
The platform is engineered for developers building high-stakes dApps, GameFi protocols, and automated trading bots that require mathematically fair and unpredictable entropy.
Does Quantropy support AI applications?
Yes, the protocol provides "Quantum Seeds" to secure the digital identities and decision-making logic of autonomous AI agents, preventing adversarial simulation or cloning.
Does Quantropy support AI applications?
Yes, the protocol provides "Quantum Seeds" to secure the digital identities and decision-making logic of autonomous AI agents, preventing adversarial simulation or cloning.
03
Technology & Tools
What hardware powers the network?
Quantropy interfaces directly with a diversified fleet of Quantum Processing Units (QPUs) from industry leaders including IBM, IonQ, and Rigetti.
What hardware powers the network?
Quantropy interfaces directly with a diversified fleet of Quantum Processing Units (QPUs) from industry leaders including IBM, IonQ, and Rigetti.
Why is the protocol built on Solana?
Solana’s 400ms block times are the only settlement layer capable of matching the speed of quantum measurements, allowing for request-to-chain finality in under 380ms.
Why is the protocol built on Solana?
Solana’s 400ms block times are the only settlement layer capable of matching the speed of quantum measurements, allowing for request-to-chain finality in under 380ms.
04
Pricing & Packages
How are API calls priced?
API calls are priced in $QPY, creating a direct link between the physical resources consumed at the hardware layer and the utility value of the token.
How are API calls priced?
API calls are priced in $QPY, creating a direct link between the physical resources consumed at the hardware layer and the utility value of the token.
What happens to $QPY after it is spent?
To support the economic health of the coin, every $QPY token spent on entropy requests is permanently burned and removed from the circulating supply.
What happens to $QPY after it is spent?
To support the economic health of the coin, every $QPY token spent on entropy requests is permanently burned and removed from the circulating supply.
05
Process & Timeline
How fast can I integrate the API?
Quantropy is designed as an "API-first" solution, allowing developers to initialize their setup and begin harvesting quantum entropy in under five minutes.
How fast can I integrate the API?
Quantropy is designed as an "API-first" solution, allowing developers to initialize their setup and begin harvesting quantum entropy in under five minutes.
What is the current scale of the network?
As of early 2026, the network supports over 250,000 concurrent requests and utilizes a fleet of more than 5,000 active qubits.
What is the current scale of the network?
As of early 2026, the network supports over 250,000 concurrent requests and utilizes a fleet of more than 5,000 active qubits.
06
Security & Compliance
How do I verify the origin of the randomness?
Every request generates a public "Quantum Job ID" on the Solana ledger, allowing any third party to audit the cryptographic proof and physical provenance of the data.
How do I verify the origin of the randomness?
Every request generates a public "Quantum Job ID" on the Solana ledger, allowing any third party to audit the cryptographic proof and physical provenance of the data.
Is Quantropy post-quantum secure?
The architecture is built with a focus on post-quantum hardening, utilizing physical indeterminacy to protect protocol integrity against 2026-era computational threats.
Is Quantropy post-quantum secure?
The architecture is built with a focus on post-quantum hardening, utilizing physical indeterminacy to protect protocol integrity against 2026-era computational threats.
General Questions
01
What is Quantropy?
What is Quantropy?
What is the $QPY token?
What is the $QPY token?
02
Services & Solutions
Who should integrate Quantropy?
Who should integrate Quantropy?
Does Quantropy support AI applications?
Does Quantropy support AI applications?
03
Technology & Tools
What hardware powers the network?
What hardware powers the network?
Why is the protocol built on Solana?
Why is the protocol built on Solana?
04
Pricing & Packages
How are API calls priced?
How are API calls priced?
What happens to $QPY after it is spent?
What happens to $QPY after it is spent?
05
Process & Timeline
How fast can I integrate the API?
How fast can I integrate the API?
What is the current scale of the network?
What is the current scale of the network?
06
Security & Compliance
How do I verify the origin of the randomness?
How do I verify the origin of the randomness?
Is Quantropy post-quantum secure?
Is Quantropy post-quantum secure?
Let’s Talk.
Bridge the gap between subatomic reality and your next-gen protocol.
Architect Support
Get direct assistance for deploying our API-first quantum entropy into your smart contracts or autonomous AI agent fleet. Our engineering team is available to help you optimize for sub-400ms execution and verify your on-chain provenance.
Strategic Partnerships
Discuss enterprise-grade scaling, $QPY utility integration, and dedicated hardware access for high-stakes decentralized infrastructure. We offer tailored solutions for protocols ready to transition from digital simulation to physical consensus.
