Patent Portfolio — 59 Innovations

A New Paradigm in Quantum Computing & AI

Comprehensive patent portfolio transforming error correction from reactive to proactive across quantum, classical, and AI systems.

"Don't correct errors — prevent them."

Core Innovations

Flagship Technologies

SlimeTree Filed JPO

Flexible Semantic Memory for LLMs

Universal semantic architecture compatible with any Large Language Model — Claude, GPT, Llama, Gemini — without retraining.

4×faster 78%hallucination↓ Zeroretraining

SlimeQLie Pending

Lie Algebra for Quantum Gates

Mathematical framework evaluating quantum gate non-commutativity through Lie algebraic structures.

18,000×speedup Allplatforms

SlimeQCNA-M Pending

Quantum Error Pre-Suppression

Transform quantum error correction from reactive to proactive with measurement-based structural analysis.

150×improvement DFSintegrated

SlimeCodec Pending

Video Encoding Revolution

Dynamic encoding order optimization achieving next-generation compression with current-generation codecs.

20-50%bitrate↓ H.264→ H.265 level

SlimeQThermal Pending

Thermal Noise as Resource

Revolutionary approach transforming thermal noise from enemy into structural signal source for quantum state detection.

θ-TaNphase engineering Roomtemp pathway

SlimeQHeteroFractal Pending

Fractal Quantum Architecture

Multi-track heterogeneous fractal circuits inheriting Collins radio resonance selection principles.

20-30 dBsuppression Multitrack

Complete Coverage

Patent Portfolio

Category	Patents	Focus Areas	Status
Quantum Core	13	Error suppression, autonomous operation, security	Complete
Quantum Physics	7	CV systems, thermal noise, fractal architectures	Complete
Hardware & Architecture	14	Phase synchronization, processor optimization	Complete
Signal & Codec	4	Dynamic parallelization, video encoding	Complete
Molecular & Bio	2	Genomics, molecular interaction	Complete
AI Inference	8	Semantic knowledge, inference optimization	Complete
Safety & Ethics	5	AI safety constraints, distributed ethics	Complete
System Infrastructure	2	Event processing, predictive systems	Complete
Fundamental Theory	4	Resonance theory, probability foundations	Complete

Mathematical Basis

Technical Foundation

Non-commutative to Commutative Mapping

Many computational problems involve operations where order matters (A×B ≠ B×A). The Slime approach identifies, quantifies, and transforms these non-commutative relationships into tractable commutative mappings.

This enables optimization, parallelization, and error prevention previously impossible.

Quantum gates → Lie algebra evaluation
Signal processing → Commutator norm analysis
Genomics → Attribute separation structures
AI inference → Semantic slot architectures

Non-Comm
→
Comm

Real-World Impact

Applications

⚛

Quantum Computing

Error-resilient processors
Measurement-free control
Room-temperature pathways

🧠

AI & Machine Learning

Hallucination resistance
Legacy code transformation
Ethical constraints

📡

Signal Processing

Next-gen video compression
Dynamic DSP parallelization
Adaptive resonance control

🧬

Life Sciences

10²² search space reduction
Molecular interaction prediction
Drug discovery optimization

Background

Inventor

60+ Years

Hiroshi Sasaki

Independent inventor with over six decades of experience in analog circuit engineering, applying classical RF engineering wisdom to quantum-age challenges.

Philosophy: The principles that governed Collins Radio receivers—resonance selection, phase synchronization, structural stability—provide the foundation for next-generation quantum error suppression.

Heritage: Collins Radio Company Engineering Principles

Current Progress

Filing Status

SlimeTree

Filed (JPO)

Remaining 58 Patents

Filing from February 2026

International

PCT Planned