Novel Mathematics. Real Quantum Hardware. Results That Speak for Themselves.
Novel mathematical algorithms and frameworks that outperform
30-year industry standards on real quantum hardware — and deliver
measurable advantages on classical systems. All results independently verifiable.
Novel Mathematics. Multiple Breakthroughs.
Phoenix Quantum Labs develops novel mathematical algorithms and frameworks that produce verified results on both quantum and classical hardware. The same core mathematics drives our quantum search algorithm, our state observation methods, and our classical computation tools.
We discovered mathematical structures that unlock computational advantages on any hardware they're applied to — from consumer GPUs to quantum processors. Not simulations. Not incremental improvements. Fundamentally new mathematics.
Quantum Search
Beat Grover's algorithm — the gold standard since 1996 — on real quantum hardware. 32/32 wins across 3-, 4-, and 5-qubit systems. 98.2% vs 79.9% at 3q. 97.7% vs 52.3% at 4q. 97.3% vs 7.3% at 5q. Gets better as noise increases, not worse.
VIEW RESULTS →Non-Destructive Observation
A novel observation method that extracts quantum state information while preserving 93.9% of the original. Independently confirmed as real measurement. 20 recursive observations with no exponential decay.
VIEW RESULTS →VOIS — O(1) Search
GPU-native similarity search with constant-time retrieval. 2.5–4.2x faster than Meta's FAISS at every recall level. 197,000 queries/second on a consumer RTX 4060. Same math, classical hardware.
VIEW BENCHMARKS →GPU Computation & Optimization
PX Compute: CUDA-accelerated library. 200x faster K8s scheduling. 7–11x GPU knapsack speedup. 90% within 2% optimal on TSP. Same mathematical framework, applied to classical workloads.
VIEW BENCHMARKS →Seeking Research Partners & Funding
We are actively seeking SBIR/STTR funding, research partnerships, and strategic investment. U.S. patents filed. Select results available under NDA.
CONTACT US →