- ORBITAL: An analytic molecular electronic structure engine for the whole periodic table, including FeMoco.
- STRATOS: An analytic trajectory system operating across all regimes, altitudes, and speeds.
Available Online Tools:
- CIQS: A hardware-agnostic, analytic quantum circuit compilation pipeline (Mapper, Router, Optimizer) with native quDit handling. It completely eliminates heuristics, stochastic loops, tunable parameters, or objective functions; the same input consistently generates the same output. Benchmarked on the IBM Benchpress suite (892 tests), it achieved zero failures in 75 minutes on a 2019 Ryzen 5, compared to Qiskit's 17 hours and 15 minutes on a 2023 Ryzen 9. Demonstrates true proportional scaling on linear topologies, compiling 1,000,000 qubits in 93.4 seconds. Ready for production. Free download on GitHub for non-commercial use.
- CIQA: A hardware-agnostic, analytic 1:5 ratio Quantum Error Correction code (based on data qubits) with zero free parameters. It is production-ready, providing full Pauli correction at computational depth during active computation on real hardware. Validated on an uncalibrated IBM Heron r2 layout, it demonstrated a mean fidelity improvement of +0.832 over an unprotected qubit under X error. Paired with CIQS, it successfully ran the deep Hayden-Preskill black hole circuit on quantum hardware, publishing the first empirical data past the Page time. Ready for production. Free online version on arcadialab.fr.
- CASIMIR: An analytic QCD phase diagram calculator for SU(3), Nf = 3. It delivers: Phase boundary Tc(μB), Phase boundary curvature derivatives χ̂₂(μB), χ̂₄(μB), Saddle node terminus analysis (CEP exclusion), Glueball mass spectrum, Dense matter onset boundary, Collider beam energy (μB, Tch, Tc) conversion. Key results: κ₂ and κ₄ match Borsanyi+ 2020 fitted values within the quoted lattice uncertainties, Reconstructed Tc(μB) matches Borsanyi+ 2020 direct Tc points to within 0.15σ at μB = 100, 200 MeV, Phase boundary terminates at μB* = 421.88 MeV, T* = 113.58 MeV in a saddle node bifurcation, No critical endpoint: χ̂₂ and χ̂₄ remain finite at the terminus, Falsifiable prediction: κ₂ₙ = 0 exactly for all n ≥ 4. Instant, no lattice simulations, no Monte Carlo. Ready for production. Free to use on arcadialab.fr & indexed by INSPIRE-HEP.
- CASCADE: An analytic Turbulence Spectrum calculator. Give it three numbers (turbulent velocity u', length scale L, viscosity v) and it instantly returns:, The complete energy spectrum E(k), Structure functions S2 and S3, including the exact 4/5 law, All cascade scales (Kolmogorov length, injection and dissipation wavenumbers), Reynolds numbers Re and Re_lambda. The Kolmogorov constant is derived analytically, not fitted. Validated against DNS from five independent groups spanning Re_λ = 240 to 1201. Ready for production. Free to use on arcadialab.fr.
- DYNAMO: An analytic MHD plasma analyzer. This tool takes 8 inputs and directly computes the complete set of MHD properties without any approximations. DYNAMO has been validated against 16 benchmarks from 3 separate references: Solar wind data at 1 AU, Solar corona reference values, ITER design parameters. DYNAMO requires no simulations, no tuning, and no free parameters. Ready for production. Free to use on arcadialab.fr.
Other Projects:
- ALKM: An Analytic Local Kernel Machine. Fit O(N log N), Pred O(log N). Processes the full 11M Higgs dataset in 15 minutes at 0.71% accuracy (10M fit, 1M pred), dominates CC18 in overall efficiency against SVM and RF, and runs MNIST in ~60s at 0.98%+.
- Advanced systems in superconductivity and standing waves (not public).
The whole pipeline (error correction, mapper, router, optimizer) is available with precise instructions.
A black-hole python runner is available alongside the black-hole circuit published paper linked in the README.
Benchpress is easily available from the IBM Benchpress Git repo.
And IBM QPUs can be used for free (they offer 10 min of free QPU usage with a new quantum account)
So the point is, to me, everything is available and reproducible. You could run the full Hayden-Preskill black hole scramble circuit in 10 min from now.
I'm not dismissing what you're saying, I'm badly trying to explain that I'm doing my best to be transparent and give all the possible tools and data. So I'm not sure what else you want me to do...
You'd have to make LLM access harder, or make all platform harder to access, or both. And both will also penalize the not easy people. Like it always does.
Good luck with that. If something is easily accessible, it will be accessed by easy people, and if it can flood a platform, it will. Easy people don't care. Easy people will never care.
Well, the user guide for the physics of the universe might be powerful and speculative, it still doesn't allow wrong physics anyway.
Your relativistic counterweight doesn't work. Relativistic mass increase is internal to the system.
Conservation of momentum doesn't care how fast your counterweights spin. You still need to eject mass.
You have unlimited range with that open question, I'm sure you can find correct amazing physics to suggest :)
Not sure, the city sized craft hovering in the sky maybe.
The tone sounded not serious as well. And because I haven't seen any physics claims per se I went for the humorous tone. Did I make a mistake?
What would be your answer to the OG question?
- ORBITAL: An analytic molecular electronic structure engine for the whole periodic table, including FeMoco.
- STRATOS: An analytic trajectory system operating across all regimes, altitudes, and speeds.
Available Online Tools:
- CIQS: A hardware-agnostic, analytic quantum circuit compilation pipeline (Mapper, Router, Optimizer) with native quDit handling. It completely eliminates heuristics, stochastic loops, tunable parameters, or objective functions; the same input consistently generates the same output. Benchmarked on the IBM Benchpress suite (892 tests), it achieved zero failures in 75 minutes on a 2019 Ryzen 5, compared to Qiskit's 17 hours and 15 minutes on a 2023 Ryzen 9. Demonstrates true proportional scaling on linear topologies, compiling 1,000,000 qubits in 93.4 seconds. Ready for production. Free download on GitHub for non-commercial use.
- CIQA: A hardware-agnostic, analytic 1:5 ratio Quantum Error Correction code (based on data qubits) with zero free parameters. It is production-ready, providing full Pauli correction at computational depth during active computation on real hardware. Validated on an uncalibrated IBM Heron r2 layout, it demonstrated a mean fidelity improvement of +0.832 over an unprotected qubit under X error. Paired with CIQS, it successfully ran the deep Hayden-Preskill black hole circuit on quantum hardware, publishing the first empirical data past the Page time. Ready for production. Free online version on arcadialab.fr.
- CASIMIR: An analytic QCD phase diagram calculator for SU(3), Nf = 3. It delivers: Phase boundary Tc(μB), Phase boundary curvature derivatives χ̂₂(μB), χ̂₄(μB), Saddle node terminus analysis (CEP exclusion), Glueball mass spectrum, Dense matter onset boundary, Collider beam energy (μB, Tch, Tc) conversion. Key results: κ₂ and κ₄ match Borsanyi+ 2020 fitted values within the quoted lattice uncertainties, Reconstructed Tc(μB) matches Borsanyi+ 2020 direct Tc points to within 0.15σ at μB = 100, 200 MeV, Phase boundary terminates at μB* = 421.88 MeV, T* = 113.58 MeV in a saddle node bifurcation, No critical endpoint: χ̂₂ and χ̂₄ remain finite at the terminus, Falsifiable prediction: κ₂ₙ = 0 exactly for all n ≥ 4. Instant, no lattice simulations, no Monte Carlo. Ready for production. Free to use on arcadialab.fr & indexed by INSPIRE-HEP.
- CASCADE: An analytic Turbulence Spectrum calculator. Give it three numbers (turbulent velocity u', length scale L, viscosity v) and it instantly returns:, The complete energy spectrum E(k), Structure functions S2 and S3, including the exact 4/5 law, All cascade scales (Kolmogorov length, injection and dissipation wavenumbers), Reynolds numbers Re and Re_lambda. The Kolmogorov constant is derived analytically, not fitted. Validated against DNS from five independent groups spanning Re_λ = 240 to 1201. Ready for production. Free to use on arcadialab.fr.
- DYNAMO: An analytic MHD plasma analyzer. This tool takes 8 inputs and directly computes the complete set of MHD properties without any approximations. DYNAMO has been validated against 16 benchmarks from 3 separate references: Solar wind data at 1 AU, Solar corona reference values, ITER design parameters. DYNAMO requires no simulations, no tuning, and no free parameters. Ready for production. Free to use on arcadialab.fr.
Other Projects:
- ALKM: An Analytic Local Kernel Machine. Fit O(N log N), Pred O(log N). Processes the full 11M Higgs dataset in 15 minutes at 0.71% accuracy (10M fit, 1M pred), dominates CC18 in overall efficiency against SVM and RF, and runs MNIST in ~60s at 0.98%+.
- Advanced systems in superconductivity and standing waves (not public).