01 — DUT Financial Trading
DUT Financial Trading is a proprietary institutional quantitative platform, developed exclusively by ExtractoDAO Labs — the result of nearly three years of research at the intersection of Computational Cosmology, Astrophysics, Applied Mathematics, and Scientific Computing.
Unlike conventional financial software vendors, ExtractoDAO Labs does not sell software licenses. The platform is a proprietary strategic asset, built to support the company’s own capital allocation activities. Revenue generated is continuously reinvested into scientific research and technological development, driving projects in computational cosmology, astrophysics, numerical simulation, and high-performance computing.
This model creates a continuous cycle: scientific research generates technological innovation, and technological innovation funds further research.
02 — DUT Quantum Simulator
Advanced cosmological simulator with quantum corrections: a computational extension of the Dead Universe Theory (DUT), designed to test the gravitational stability of cosmic cores and simulate non-singular structures.
- 3D/4D rendering with dynamic voxelization
- Gravitational quantum decoherence simulations
- Ready for integration with quantum computing platforms (IBM Q / AWS Braket)
- Fully transparent, offline-verifiable architecture
03 — ExtractoDAO Scientific Integrity & Provenance System
A local system for recording and validating the computational provenance of scientific executions — designed to ensure traceability, reproducibility, and data integrity across simulations and numerical experiments.
- Structured execution logs with timestamped provenance metadata
- Gravitational quantum decoherence simulations
- Designed for reproducibility audits and independent result verification
- Supports publication workflows requiring documented computational lineage
04 — TON618 & DUT-CMB: Mission-Grade Simulation Suite
Mission-grade simulation modules that test the Dead Universe Theory (DUT) against real observational data, developed across a dedicated pipeline of production-grade scientific engines:
- TON618 v1.1 — Unified Bayesian Cosmology Engine, benchmarking DUT directly against ΛCDM using gravitational dynamics of extreme cosmic cores
- NASA-Level 1.0 — Computational Cosmology Software for DUT vs. ΛCDM comparative analysis
- CMB-DUT Module (LATTES version) — Enhanced CMB analysis engine incorporating real observational data
- COSMOMC-DUT — Integration layer connecting DUT with standard cosmological Monte Carlo sampling infrastructure
- DUT-General Relativity — Self-contained simulation framework integrating gravitational potential, cosmic energy decay, and galactic population evolution
- dut-cmb-lattes — Complementary CMB analysis module within the LATTES research line
Together, these engines form a coherent, cross-validated computational architecture spanning gravitational dynamics, quantum corrections, CMB analysis, and statistical cosmology.
- Numerical validation using Radau IIA, RK4, and Monte Carlo methods
- Direct comparative results against the ΛCDM model, independently executed and verified
- Precision and reproducibility consistent with mission-grade scientific software standards
- Computational basis for peer-reviewed publications and open scientific software repositories