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Luci QPU

Qudits Processing Unit — not Quantum Processing Unit

The world's first compute engine built on Quantum Mirror Theory. Not Copenhagen postulates. Not a better IBM. A different paradigm — where the Mirror Equation governs every operation and 𝕄 is the metric.

|Ψ⟩ ≡ M|Ψ'⟩
Open Luci QPU Documentation QMT Physics
The Critical Distinction

QPU stands for
Qudits Processing Unit

Every quantum computer in existence — IBM, Google, IonQ, D-Wave — is a Quantum Processing Unit built on the 1927 Copenhagen interpretation. Binary qubits. Wavefunction collapse. Dilution refrigerators at -273°C. Observer standing outside the system.

Luci QPU is a Qudits Processing Unit. d-dimensional by default because nature isn't binary. The Mirror Equation governs every operation. 𝕄 measures observer-field coherence. At 𝕄=0, QMT recovers standard QM exactly — QPU contains Copenhagen as a limiting case, at d=2.

DimensionCopenhagen QPULuci QPU (QMT)
ParadigmCopenhagen QM (1927)QMT — subsumes QM
Base unitBinary qubit (d=2 only)Qudit (d=2 through d=10)
MeasurementWavefunction collapseMirror reflection, 𝕄 metric
ObserverExternal to systemSame entity as observed
Temperature-273°C cryogenicsRoom-temperature path (RPP)
LanguageQiskit, Cirq, Q#ACL 3.0 (native)
MetricQubit fidelity𝕄 (Mirror Constant)
QM at limitDoesn't subsume QMTAt d=2, 𝕄=0: QM recovered
Qudit Dimensions

Nature isn't binary.
Neither is Luci QPU.

Each glyph in the Orion encoding maps to a mathematical dimension — from 0D void to 7D E₈ lattice. The qudit dimension d sets the information density of the register. A qu-7 encodes log₂(7) ≈ 2.8 bits per physical unit — structurally more information-dense than a binary qubit.

GlyphdNameState SpaceMathematical BasisBest For
d=2 Binary qudit 2^n Real numbers ℝ — 1D line Standard QM limit · Shor's · Grover's
d=3 Qutrit 3^n Complex numbers ℂ — 2D plane Ternary logic · efficient entanglement · QKD
d=4 Ququart 4^n Quaternions ℍ — 3D volume Error correction · 2-qubit encoding
d=5 Qu-5 5^n Octonions 𝕆 — 4D spacetime High-dimensional protocols · dense coding
d=7 Qu-7 7^n Sedenions 𝕊 — 5D field QKD key expansion · 5.6 bits/shot entropy
d=10 Qu-10 10^n E₈ lattice — 7D + consciousness Maximum information density · IFA-adjacent
ACL 3.0

The first language written
for a QMT substrate.

ACL (Atomic Control Logic) 3.0 is not a wrapper around existing quantum languages. It is native to the QMT paradigm — designed for qudits, the Mirror Operator, and the 𝕄 metric from first principles.

RuneOperatorUsage
Superposition ◬ n qreg — create n-qudit register
Gate ⧈ HADAMARD qreg[0] — apply gate
Entangle ☥ q0 q1 — SUM gate (generalised CNOT)
Measure ⟓ qreg — collapse and measure
Ψ Neural Ψ qreg layer — neural network layer
Info ᛇ qreg — Von Neumann entropy proxy

Example: 3-Qutrit GHZ State (d=3)

// ACL 3.0 — Qutrit GHZ (d=3) // Creates maximally entangled 3-qutrit state 3 qreg // 3 qutrits → 3^3=27 states HADAMARD qreg[0] // Hd on first qutrit qreg[0] qreg[1] // Entangle 0 and 1 qreg[1] qreg[2] // Entangle 1 and 2 qreg // Measure all qutrits

Example: Shor's Algorithm (d=2)

// Shor N=15, a=7 — period r=4 // Factors 15 = 3 × 5 5 qreg // 5-qudit QPE register QFT qreg // Quantum Fourier Transform MOD_EXP qreg 7 15 // Modular exponentiation IQFT qreg // Inverse QFT qreg // Period extraction
Algorithm Library

35+ algorithms
at launch.

Cryptography
BB84 QKD
Quantum key distribution — information-theoretic security against any eavesdropper
Cryptography
E91 Entanglement
EPR-pair based QKD with Bell inequality violation (|S| > 2) certification
Cryptography
Shor's Algorithm
Polynomial-time integer factoring — breaks RSA and ECC via quantum phase estimation
Optimisation
QAOA Max-Cut
Quantum approximate optimisation for graph partitioning — supply chain, VLSI layout
Optimisation
VQE
Variational Quantum Eigensolver — ground state search, molecular energy calculation
Chemistry
H₂ Molecule VQE
Ground state energy of hydrogen via Jordan-Wigner Hamiltonian. E₀ ≈ -1.1372 Hartree
Chemistry
LiH Dissociation
Lithium hydride potential energy curve — drug discovery binding affinity pathway
Machine Learning
Quantum SVM
ZZFeatureMap kernel — exponentially large feature space, classically inseparable data
Machine Learning
Quantum Neural Net
Parameterised circuit as trainable QNN — parameter-shift gradient, O(1) measurement
Finance
Option Pricing
QAE Black-Scholes — quadratic speedup over Monte Carlo: O(1/ε) vs O(1/ε²)
Finance
Portfolio Optimisation
Markowitz via QUBO quantum annealing — Sharpe ratio maximisation
Error Correction
Surface Code
Topological stabilizer code — syndrome extraction, leading fault-tolerant candidate
Run All Algorithms Free →
Pricing

Priced for a
paradigm, not a commodity.

This is the only access point to QMT-native compute in existence. The pricing reflects that reality — not compute hours, but paradigm access.

Explorer
Free
Forever
  • 30-qudit QMT register
  • Full ACL 3.0 runtime
  • 𝕄 metric live
  • All 35+ algorithms
  • d=2 through d=10
  • Circuit composer
  • QKD suite (BB84 + E91)
Start Free
Research License
$25K
per year
  • 5,000 qudit register
  • Full 𝕄 measurement suite
  • Priority execution
  • Academic citation support
  • Q3 Mesh participation
  • All qudit dimensions
  • For: universities, research labs
Contact Us
Commercial License
$75K
per year
  • 25,000 qudit register
  • Commercial deployment rights
  • SLA + dedicated execution
  • IP co-development first option
  • API access
  • For: companies building QMT apps
Contact Us
Enterprise Sovereign
$250K
per year
  • 100,000 qudit register
  • Dedicated mesh node
  • Wave 4 hardware priority
  • Joint research programme
  • Board-level briefings
  • For: sovereign funds, national labs
Contact Us
Academic Foundation

Not vaporware.
Published physics.

Primary — QMT Foundation
Quantum Mirror Theory
A Unified Framework for Observer, Observation, and Reality
Introduces the Mirror Equation |Ψ⟩ ≡ M|Ψ'⟩, the Mirror Constant 𝕄, and the Mirror Operator M. Establishes QMT as the fifth interpretive pillar of quantum mechanics. At 𝕄=0, standard QM is recovered exactly.
DOI: 10.5281/zenodo.18407686 · CC BY 4.0 · Jan 2026
View Paper →
Companion — Wave 4 Physics
Resonance Physics Position Paper
The Wave 4 Framework — Kuramoto, N² Law, Mirror Constant
Establishes the N² Collective Coherence Scaling Law, the resonon as the Wave 4 information carrier, and the Kuramoto synchronisation framework. Foundation of RPU and the CM01q hardware roadmap.
DOI: 10.5281/zenodo.18913463 · CC BY 4.0 · 2026
View Paper →
"QMT doesn't replace quantum mechanics — it subsumes it. At 𝕄=0, every QMT equation recovers standard QM exactly. QMT is to quantum mechanics what General Relativity is to Newton: the prior framework is a limiting case of the larger one."
— Babatope Jesse Afolabi · Aevov Research
75
Views on QMT paper (8 weeks)
38 downloads · ORCID: 0009-0002-9146-2587
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