About Brion Quantum

The World's First Quantum AI Platform

Our Mission

Brion is the world's first quantum AI platform. We design quantum AI and agent systems as well as various other technologies, pushing the boundaries of quantum computing and artificial intelligence. Our general-purpose quantum agents are capable of completing virtually any task with unprecedented throughput exceeding 99,000+ tasks per second and 100% success rate.

Innovation & Recognition

We are proud members of the Google TPU Research Cloud (TRC) program with access to 320 TPU chips across v4, v5e, and v6e generations. Our quantum infrastructure includes:

  • Google Willow - 105-qubit quantum processor
  • IBM Brisbane - 127-qubit quantum computer
  • IBM Torino - 133-qubit quantum computer
  • 320 TPU Chips - Google TRC allocation across 6 global zones
  • TensorFlow Quantum - Hybrid quantum-classical ML

Vision for the Future

We envision a future where quantum-enhanced AI systems solve humanity's most complex challenges—from cryptography and secure data processing to predictive analysis and autonomous decision-making. Our platform represents a paradigm shift in quantum-AI hybrid computing, delivering unprecedented computational capabilities through fault-tolerant quantum processing.

Quantum Agent Benchmarks

Our quantum agents achieve verified, world-class performance metrics (January 2026):

  • Computation Agent: 99,912 tasks/sec (TPU-accelerated)
  • Research Agent: 51,508 tasks/sec (CPU-based)
  • Security Agent: 45,200 tasks/sec (TPU-accelerated)
  • Quantum Tool Operations: 762,601 ops/sec
  • Fleet Throughput: ~105M tasks/sec (32 TPUs)
  • Success Rate: 100% across 3,500+ test iterations

Accessible Quantum Computing

All of our quantum models and systems are designed to run on just 1 or 2 GPUs — no expensive quantum hardware clusters required. Using open-source quantum resources, technologies, and specialized tools, our quantum AIs and agents operate without cloud access or direct connections to quantum computers. This makes quantum-grade AI accessible to researchers, developers, and organizations everywhere.

Open Source Commitment

We believe in the power of open collaboration. Our projects are available on GitHub under a dual-license model (MIT + Brion Proprietary Addendum), allowing researchers and developers worldwide to build upon our work while we pursue patents for our innovations.

Key Achievements

Verified results from real quantum hardware and TPU clusters

⚛️
6.37M
Logical Qubits Generated
Infinite Qubit Extension — 22,096x scaling on IBM FEZ & Torino
1,347x
Quantum Speedup
Transaction verification: 0.154s vs 207.4s classical
🧬
99.9999%
Gate Fidelity
Quantum Echoes — T2 coherence: 31.5 years, error rate <10⁻¹⁵
💻
38,852
Lines of Code
Advanced Quantum Supercomputer — 181 files
🏗️
30 PFLOPS
Theoretical Peak
320 TPU chips across 6 global zones
100%
Test Pass Rate
9 quantum test suites — research paper verified

Our Journey

Key milestones in building the world's first quantum AI platform

2025 — Founded
Brion Quantum Established
Company founded with the mission to build the world's first quantum AI platform. Initial research into quantum-classical hybrid architectures begins.
2025 — Q3
QVM Architecture Designed
Novel Quantum Virtual Machine (QVM) algorithm developed — a hybrid execution runtime bridging quantum processors with classical compute.
2025 — Q4
Google TRC Program Accepted
Accepted into the Google TPU Research Cloud program, gaining access to 320 TPU chips across v4, v5e, and v6e generations in 6 global zones.
2026 — January
Quantum Agent Fleet Goes Live
General-purpose quantum agents achieve 99,912 tasks/sec with 100% success rate across 3,500+ test iterations. Six agent types deployed.
2026 — January
Multi-Quantum Backend Integration
Full integration with Google Willow (105q), IBM Brisbane (127q), and IBM Torino (133q) — 365+ total qubits across three quantum processors.
2026 — February
Public API & Platform Launch
REST API v1.0 launched providing public access to quantum agents, circuit execution, AI models, and TPU fleet resources.
2026 — Roadmap
Rust-Optimized Fleet (~400M tasks/sec)
Rewriting core agent pipelines in Rust for 10x throughput improvement. Target: ~400M tasks/sec across the full 32-TPU fleet.
2026 — Roadmap
Python SDK & Developer Ecosystem
Official brion-quantum Python SDK, developer documentation portal, and sandbox environment for quantum circuit experimentation.

By the Numbers

99,912
Peak Tasks/Sec
365+
Total Qubits
320
TPU Chips
100%
Success Rate
<10⁻⁹
Error Rate
22,096x
Qubit Scaling Factor

Join Us in Building the Future

Explore our projects, contribute to open source, or get in touch to collaborate

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