Genesis Platform
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IP PORTFOLIO
A unified computational physics IP portfolio. Every provisional patent is backed by validated solvers, reproducibility scripts, and machine-readable evidence artifacts. All claims are computationally verified.
Each data room is a self-contained proof package containing patent filings, source code, simulation data, validation reports, reproducibility scripts, and design-around analyses. Below is the complete inventory with verified metrics.
Systems and Methods for Physics-Informed Azimuthal Stiffness Modulation and Real-Time Deformation Control in High-NA EUV Lithography
Predicts and corrects wafer warpage during EUV lithography using biharmonic FEM, iterative learning control, and ROM surrogates. Targets ASML scanner integration.
Geometry-Adaptive Substrate Support, Process History Compensation, and AI-Accelerated Inverse Design in Advanced Semiconductor Packaging
Solves rectangular substrate warpage for CoWoS/chiplet packaging. Proves rectangular immunity, provides Kirchhoff von Karman solver, and ships an AI compiler for inverse design.
Solutal Marangoni Effect in Binary Cooling Fluids for Electronics Thermal Management
Self-pumping cooling using solutal Marangoni effect in binary fluids. No mechanical pump needed. Validated for NVIDIA B200/H100/GB200 and zero-gravity.
Glass Firewall, Zernike-Zero Substrate, Low-Index Optical Lattice, Smart Substrate
Four photonic inventions for glass substrates: quarter-wave RF firewall, Zernike-optimized substrates, low-index optical lattice with 25% phase-velocity speedup, smart substrates.
AI-Designed Molecular Architectures for Strategic Mineral Independence, PFAS Remediation, and Ion-Selective Membranes
Janus ligands for rare-earth extraction (20-40% CapEx reduction, Kremser validated), fluorocatchers for PFAS remediation, and steric-sieve membranes with ~10x Li/Na selectivity.
Gradient-Stiffness Gyroid Architecture for Dendrite-Suppressing Solid-State Battery Electrolyte
Gyroid LLZO passes Monroe-Newman dendrite suppression at all porosities up to 60%. Phase-field is qualitative only (Cahn-Hilliard correct model). Four pillars: stiffness trap, steric sieve, internal tensegrity, smart fuse (19 Pareto configs). 0.112 mS/cm conductivity.
Glass PDK -- The Complete Design Platform for Glass Substrate Interposers
Automated design platform for through-glass via (TGV) interposers. 16+ physics solvers, EDA export (HFSS, Sigrity), Monte Carlo yield analysis. 605 analytically screened design points.
Automated Electromagnetic Isolation Synthesis for Multi-Die Chiplet Packages
Analyzes EM coupling between chiplets, synthesizes isolation structures (via fences, EBG, metasurfaces), optimizes with adjoint (r=1.0) and Nevergrad, exports foundry-ready GDSII with DRC.
Physics Simulation Platform for Hybrid Bonding Yield Prediction in Semiconductor Manufacturing
Simulates hybrid bonding from GDS layout through CMP, contact mechanics (p_void fixed via JKR Maugis 1992), void formation, thermal stress, Cu2O delamination risk, and Monte Carlo yield. Neural surrogate, gradient-compensated fill, and KLA Archer integration now implemented. TSMC deployment kit with 3 die layouts. Note: correlation_length requires fab calibration.
Our IP strategy is built on computational evidence, not hand-waving. Every claim is machine-verifiable.
Every patent claim is backed by runnable simulation code, validated against analytical benchmarks. No claim relies on unverified assumptions.
Each data room includes a defensive moat section that maps competitor design-around paths and demonstrates why they fail or infringe.
All simulation outputs carry SHA-256 hashes for forensic traceability. Every Inductiva cloud task ID is recorded and verifiable.
Failed experiments and dead-end paths are documented honestly. This strengthens credibility and accelerates due diligence.
| # | Name | Files | Claims | Status | Key Metric |
|---|---|---|---|---|---|
| 1 | Fab OS (YieldOS) | 2,399 | 112 claims (10 sections A-J, 5 utility drafts) | Verified | 90.3% warpage reduction (315 cases, 0 failures) |
| 2 | Packaging OS | 3,597 | 150 claims (26 independent, 124 dependent) | 5/5 Green | 0.000% azimuthal effect (30 NLGEOM FEM cases) |
| 3 | Thermal Core | 2,229 | ~200 claims (110 core omnibus) | Strict Mode | 68.9 C junction at 133 W/cm² (B200 GPU, simulation design envelope) |
| 4 | Photonics | 794 | Multi-patent (4 inventions) | Audited | 40-55 dB practical RF isolation (TMM validated at 100 GHz) |
| 5 | Smart Matter | 4,090 | 51 claims (8 families, 3 inventions) | S-Tier | 730 candidate scaffolds (20 DFT-verified) |
| 6 | Solid-State Battery | 2,489 | 96 claims (15 families, 4-pillar architecture) | Consolidated | Gyroid passes Monroe-Newman to 60% porosity (1.8x threshold) |
| 7 | Glass PDK | 726 | 8 patents (all reduced to practice) | Reduced to Practice | 2-4x cheaper than silicon CoWoS ($1,100/wafer glass vs $5,000/wafer silicon) |
| 8 | Isocompiler | 490 | 72 claims (draft) | 132 Tests Pass | 22-39 dB frequency-dependent isolation (adjoint r=1.0, 27 dB topology optimization) |
| 9 | Bondability | 1,159 | 25 claims (all implemented in code) | v2.0 — all patent claims implemented, JKR Maugis 1992 fix | Full GDS-to-yield physics chain (fab calibration required) |
| Total | 19,400+ | 900+ | 104 solvers | 9 data rooms | |