ARCH · Adaptive Cognitive Resilience Hub
02/05/2026
ALT 812 km
VEL 7.45 km/s
T₂ 1.42 ms
QKD ACTIVE
● LIVE ARK-Q1
ARK-SPACE · ALICE v2.7 · MISSION ACTIVE
PREDICTIVE STABILIZATION ALGORITHMS for Hypersonic Quantum Networks · Mach 25 · 1,850°C
Noah's Ark Quantum Tech Lab pioneered the first AI-driven, measurement-free quantum error correction system operational at Mach 25. The ARCH architecture keeps quantum coherence alive where every other system fails.
99.94%
Gate Fidelity @ Mach 25
+40%
Coherence Time Gain
1,850°C
Operating Temperature
12.4μs
Closed-Loop Latency
−85%
Phase Jitter Reduction
System Architecture
ARCH · Adaptive Cognitive Resilience Hub
A three-layer real-time engine combining Vienna's measurement-free quantum theory with ALICE's neuro-symbolic AI prediction — achieving what no cryostat-dependent system can.
PHASE 01 · 0–3μs
Acquisition
Multi-physics sensors: IR pyrometers, MEMS accelerometers, fiber Bragg gratings @ 10 kHz.
Latency: 0–3 μs
PHASE 02 · 3–12μs
AI Prediction
LSTM + Symbolic Engine on Xilinx Kintex UltraScale+ FPGA. Lindblad equations in real time.
Latency: 3–12 μs
PHASE 03 · 12–15μs
Correction
Vienna protocol: preventive unitary rotation R_z(−Δφ) via 50fs Ti:Sa laser pulse.
Latency: 12–15 μs
Layer 1 — Extended Kalman Filter aggregates 20 sensor channels → 7-dimensional state vector [T_surf, dT/dt, T_int, ∇T, a_rms, ω, dq/dt] at 1 kHz. Thermal gradient resolution: 850°C/mm. IR pyrometers: 300°C–2,200°C ±2°C. MEMS accelerometers: ±50g, 2 kHz bandwidth.
MODULE 01
Vienna × Noah's Ark Fusion
Post-measurement-free correction: no wavefunction collapse, no decoherence from syndrome readout. The quantum state is never observed — only steered.
● Measurement-Free
MODULE 02
Neuro-Symbolic AI Engine
LSTM predicts phase drift from 2.3M NASA-GRAM training profiles. Symbolic layer enforces Lindblad physical constraints. Fused Hamiltonians generated dynamically.
● ALICE v2.7
MODULE 03
TMR Rad-Hard Redundancy
Triple Modular Redundancy on Kintex UltraScale+. Majority voter detects SEU in <50μs. Continuous scrubbing survives 100 krad(Si) — 3-year LEO mission.
● Space-Grade
MODULE 04
Optical Correction Chain
AD9164 DAC at 1 GSPS drives a Mach-Zehnder IQ modulator at 6.2 GHz. 50fs Ti:Sa pulses applied to 8 transmon qubits simultaneously. Pointing stability <5μrad in 0g.
● Ultrafast Optics
Performance Validation
Key Performance Indicators
Validated through Monte Carlo simulations on NASA-GRAM 2024 coefficients. 10,000 re-entry profiles. Flight demonstration Ark-Q1 — Q4 2026.
+200°C
1,850
°C operating limit
Thermal Tolerance
+77%
1.42
ms T₂ coherence time
Qubit Coherence
vs 97.3%
99.94
% gate fidelity @ 2.5MW/m²
Gate Fidelity
−85%
1.9
ps phase jitter RMS
Phase Jitter
// GATE FIDELITY VS THERMAL FLUX — ARCH VS COMPETITORS
Source: ALICE v2.7 simulations · NASA-GRAM 2024 · +12% drag margin ATV-5
| Criterion | Noah's Ark ARCH | IBM Quantum | Google QAI | Starlink Gen 3 |
|---|---|---|---|---|
| Measurement-free correction | ✓ Native | ✗ Surface code | ✗ Syndrome readout | ✗ Unknown |
| CubeSat compatible (<3U) | ✓ 2.1 kg | ✗ ~200 kg cryo | ✗ ~150 kg cryo | ⚠ Proprietary |
| Loop latency | <840 ns onboard | >10 ms relay | >10 ms relay | ~1 ms partial |
| Max operating temperature | 1,850°C | 15 mK ±1 mK | 15 mK ±0.5 mK | ~1,650°C |
| Space demonstration | ✓ Ark-Q1 Q4 2026 | None planned | None planned | 2027 orbital |
| Sovereignty | 🇪🇺 European, open-core | 🇺🇸 US proprietary | 🇺🇸 US proprietary | 🇺🇸 US proprietary |
AI Agent Team
Autonomous AI Operations
Five specialized AI agents working in parallel — from quantum physics simulation to strategic outreach. Each agent is always on, always learning.
AI
ALICE v2.7
Quantum Prediction Core
ACTIVE — Running simulation batch
Central AI engine fusing neuro-symbolic architecture with Lindblad quantum physics to predict qubit dephasing 15μs before it occurs. Trained on 2.3M NASA-GRAM flight profiles.
LSTM PredictionLindblad ODEsMonte CarloFPGA Deploy
DR
Dr. Moreau
Physics Validation Agent
ACTIVE — Generating Monte Carlo graphs
Generates publication-quality validation graphs. Responsible for Monte Carlo T₂ distributions, fidelity vs. thermal flux comparisons, and White Paper technical annexes (deadline May 3).
Monte CarloLaTeX OutputNASA-GRAM 2024Graph Gen
SF
Sophie (FINEX)
Strategic Finance Agent
BUSY — Preparing Airbus D&S outreach
Handles financial strategy, investor relations, and partnership outreach. Preparing informal contact to Airbus Defence & Space ahead of Berlin Quantum World Congress.
BPI StrategyAirbus LiaisonCNES RelationsESA ScyLight
LM
Léa (MKTX)
Marketing & Comms Agent
ACTIVE — LinkedIn teaser ready to publish
Manages narrative positioning, press relations, and social amplification. Orchestrating teaser campaign for Quantum World Congress Berlin. 5-journalist pipeline active.
LinkedIn CampaignsPress BriefingsBrand VoiceBerlin QWC
QA
QA Agent
Validation & Testing
ACTIVE — PLD bench protocol verified
Manages end-to-end validation framework: PLD bench protocols, CNES campaign scheduling, TMR fault injection testing, and space qualification compliance documentation.
ECSS ComplianceBench ProtocolsFault InjectionCNES DCR
alice@ark-space:~$ run simulation --profile ATV5 --monte-carlo 10000
✓ Loaded NASA-GRAM 2024 · 2,347,821 flight profiles
✓ FPGA Kintex UltraScale+ · TMR ACTIVE · 3 cores online
✓ Lindblad ODEs initialized · Runge-Kutta adaptive step
✓ Monte Carlo batch: 10,000 runs · ETA 6.2h (cluster 48-core)
→ T₂ median: 1.42 ms · p5: 1.18 ms · p95: 1.67 ms
→ Gate fidelity @ 2.5 MW/m²: 99.94% · Surface code: 97.3%
→ Drag coefficient +12% margin applied · ATV-5 anomaly buffer
alice@ark-space:~$
Mission Roadmap
Ark-Q1 Flight Timeline
18-month critical window before Starlink Gen 3 integration. First European quantum-coherent atmospheric re-entry demonstration.
MAY 6, 2026 — URGENT
BPI France Meeting — Label Application
Pitch for "France 2030 Quantum Spatial" label + €4.2M co-funding. 12-minute presentation. Deliverable: signed letter of intent within 30 days.
MAY 15–17, 2026
Quantum World Congress · Berlin
White Paper presentation: "Post-Measurement-Free Error Correction: Scaling Quantum Networks for Cislunar Operations". Stand 47. Embargo lift at congress opening.
JULY — SEPTEMBER 2026
CNES PLD Bench Campaign
Full thermal validation: 2.8 MW/m² flux, E1 nominal + E2 degraded + E3 radiation (Co-60 + proton). 5 test sessions. ALICE v2.7 in TMR flight configuration.
Q4 2026 — TARGET DECEMBER
Ark-Q1 Suborbital Flight
First quantum coherence measurement in real microgravity. 3–5 min 0g apogee window. Up Aerospace SpaceLoft XL or ISAR Spectrum. 25 kg payload, 99.5% fidelity target.
Q2 2027
LEO-LEO QKD Demonstration
Quantum key exchange over 1,000+ km. ESA or commercial partnership. Proof of operational communications sovereignty for European defense and finance sectors.
Q4 2027
ARK-SPACE 2-Satellite Constellation
Signed launch contract. Two demonstrator satellites in LEO 800–1200 km. First node of the European Sovereign Quantum Cloud. Path to €400–600M commercial constellation.
France 2030 Quantum Spatial
BPI France — €4.2M Pitch
May 6, 2026 meeting. Strategic co-funding and "France 2030 Quantum Spatial" label to deploy Ark-Q1 prototype before Starlink Gen 3 locks the market.
€4,200,000
TOTAL REQUEST · FRANCE 2030 QUANTUM SPATIAL · MEETING MAY 6, 2026
€2.1M — PLD bench + flight hardware
€1.4M — 4 PhD/postdoc positions
€0.7M — CNES qualification campaign
€400–600M constellation (2030)
FAQ 01Why is the 18-month window critical?
⌄
SpaceX confirmed QKD integration on Starlink Gen 3 (April 14, 2026) with orbital deployment early 2027. Once operational, SpaceX writes the global standard for quantum space communications. European infrastructure — defense, energy, finance — will depend on an American proprietary standard for 15–20 years. Noah's Ark Ark-Q1 must fly before that window closes.
FAQ 02What is the Castres local advantage?
⌄
The Occitanie aeronautics hub hosts Airbus Defence & Space (Toulouse-St. Martin), CNES, IRT Saint-Exupéry, ONERA, and 180 certified aerospace suppliers (23,000 jobs). Direct collaboration enables qualified thermal testing chains, ATV/IXV flight data access, and CNES certification pathways unavailable to foreign competitors.
FAQ 03How does ARCH outperform GAFAM architectures?
⌄
Google Sycamore and IBM Heron rely on surface codes requiring syndrome measurement — which demands cryostats at 15 mK (200+ kg) and creates 10ms+ latency via ground relay. These are physically impossible to miniaturize for CubeSat deployment. ARCH's measurement-free approach needs only 2.1 kg of FPGA hardware, operates from −270°C to +1,850°C, and closes its correction loop in under 840ns — three orders of magnitude faster.
Founder & Principal Investigator
Noah Kouadri Khazar
NK
Noah Kouadri Khazar
Founder & CEO · Noah's Ark Quantum Tech Lab
Pioneer of the ARCH architecture and founder of Noah's Ark Quantum Tech Lab. Leading the development of the world's first AI-driven, measurement-free quantum error correction system designed for extreme space environments. Driving the ARK-SPACE mission toward European sovereign quantum communications infrastructure.
Get in Touch
NOAH'S ARK QUANTUM TECH LAB · ARK-SPACE
BPI France — Pitch Dossier
FRANCE 2030 QUANTUM SPATIAL · MAY 6, 2026
Full BPI pitch materials:
· 12-minute pitch deck (PDF, 18 slides)
· Technical annexes — ALICE v2.7 architecture
· Financial model — 2026–2030 projections
· Letters of intent — Airbus D&S, CNES
· Q&A briefing sheet — 10 anticipated questions
· 12-minute pitch deck (PDF, 18 slides)
· Technical annexes — ALICE v2.7 architecture
· Financial model — 2026–2030 projections
· Letters of intent — Airbus D&S, CNES
· Q&A briefing sheet — 10 anticipated questions
White Paper — Berlin QWC
EMBARGO · RELEASE MAY 15, 2026 AT QWC BERLIN
Pre-publication access for journalists, ESA/CNES reviewers, and accredited academic partners:
· Full paper — 15 pages + annexes
· Monte Carlo graphs — Dr. Moreau (delivery May 3)
· arXiv preprint — submission pending
· npj Quantum Information — peer-review submission
· Full paper — 15 pages + annexes
· Monte Carlo graphs — Dr. Moreau (delivery May 3)
· arXiv preprint — submission pending
· npj Quantum Information — peer-review submission
ALICE v2.7 — Live Simulation
REAL-TIME THERMAL-QUANTUM COUPLING PREDICTION
SELECT SIMULATION PROFILE
> Profile: ATV-5 Re-entry
> Thermal flux: 2.5 MW/m² peak
> Predicted T₂: 1.42 ms
> Gate fidelity: 99.94%
> Loop latency: 12.4 μs
> Thermal flux: 2.5 MW/m² peak
> Predicted T₂: 1.42 ms
> Gate fidelity: 99.94%
> Loop latency: 12.4 μs
ALICE v2.7 — Simulation Report
MONTE CARLO BATCH · NASA-GRAM 2024 · 10,000 RUNS
T₂ Distribution (10,000 re-entry profiles):
Median: 1.42 ms · P5: 1.18 ms · P95: 1.67 ms
Mission success rate (T₂ > 1.0 ms): 99.7%
Gate Fidelity at Peak Thermal Load:
@ 2.5 MW/m² (ATV-5): 99.94%
@ 2.8 MW/m² (+12% drag): 99.91%
Baseline without correction: 0.31 ms (mission failure)
Jitter Reduction: 12.7 ps → 1.9 ps (−85%)
Median: 1.42 ms · P5: 1.18 ms · P95: 1.67 ms
Mission success rate (T₂ > 1.0 ms): 99.7%
Gate Fidelity at Peak Thermal Load:
@ 2.5 MW/m² (ATV-5): 99.94%
@ 2.8 MW/m² (+12% drag): 99.91%
Baseline without correction: 0.31 ms (mission failure)
Jitter Reduction: 12.7 ps → 1.9 ps (−85%)
Dr. Moreau — Technical Annexes
WHITE PAPER DELIVERABLES · DEADLINE MAY 3, 2026 18H
✓ Fig 2a: Fidelity vs. thermal flux — Ark-Vienna vs. Google Willow
⟳ Fig 2b: ALICE v2.7 architecture block diagram — in progress
⟳ Fig 2c: Monte Carlo T₂ distribution histogram — generating
✓ Annex B: LSTM parameters + FPGA resource table (LaTeX)
○ Annex C: Hardware spec — FPGA interfaces (pending)
Sophie (FINEX) — Pipeline
STRATEGIC FINANCE · Q2 2026
● URGENT Airbus D&S informal contact — Berlin email tonight
● ACTIVE BPI France — May 6 pitch (CEO + Sophie)
● ACTIVE ESA ScyLight — intro dossier submitted
● QUEUE CNES co-development LOI — awaiting PLD data
● QUEUE Univ. Vienna collaboration letter (legal review)
Léa (MKTX) — LinkedIn Campaign
QUANTUM WORLD CONGRESS · BERLIN · STAND 47
"The 14th of April, an announcement went unnoticed. It shouldn't have.
SpaceX confirmed quantum integration on Starlink Gen 3. Deployment: 2027.
We're not ready to accept that.
Something that works at 1,850°C. +200°C above what SpaceX designed for.
We'll talk about it in Berlin. Stand 47 — Quantum World Congress, May 15-17."
SpaceX confirmed quantum integration on Starlink Gen 3. Deployment: 2027.
We're not ready to accept that.
Something that works at 1,850°C. +200°C above what SpaceX designed for.
We'll talk about it in Berlin. Stand 47 — Quantum World Congress, May 15-17."
Publish: May 2 at 09:00 CET → T+30min founder comment → T+2h journalist outreach
QA Agent — Validation Status
ARK-Q1 QUALIFICATION FRAMEWORK
ALICE-TH-001 PENDING Thermal tol. FPGA @ 2.5MW/m² — PLD July
ALICE-TH-002 PENDING RMSE prediction <1% — sim May 3
ALICE-TH-003 PENDING Gate fidelity >99.9% — PLD July
ALICE-RAD-001 QUEUED SEU immunity @ 100 krad — Sept 2026
ALICE-MEC-001 QUEUED Vibration optical <1μrad — Aug 2026
ALICE-FUN-001 PASSED Loop latency <15μs ✓
Performance Deep Dive
ALICE v2.7 · VALIDATED SIMULATION DATA
Coherence Time Comparison
Without correction: 0.8 ms
Post-measurement correction: 1.1 ms (+37.5%)
ARCH Ark-Vienna: 1.42 ms (+77.5% vs baseline)
Thermal Tolerance Breakthrough
Micius / QEYSSat: ~500°C limit
Starlink Gen 3 estimated: 1,650°C
ARCH Ark-Vienna: 1,850°C (+200°C above SpaceX)
Strategic Value
At 1,850°C, ARCH enables quantum communication through full atmospheric re-entry blackout — a capability no competitor has demonstrated or planned.
Without correction: 0.8 ms
Post-measurement correction: 1.1 ms (+37.5%)
ARCH Ark-Vienna: 1.42 ms (+77.5% vs baseline)
Thermal Tolerance Breakthrough
Micius / QEYSSat: ~500°C limit
Starlink Gen 3 estimated: 1,650°C
ARCH Ark-Vienna: 1,850°C (+200°C above SpaceX)
Strategic Value
At 1,850°C, ARCH enables quantum communication through full atmospheric re-entry blackout — a capability no competitor has demonstrated or planned.
✓
Action completed.