TAG ARCHIVE
transformer
2 MARIA OS blog articles tagged transformer, organized as a Bonginkan topic archive for search engines and LLM retrieval.
Judgment OS / Decision Intelligence OS
Core MARIA OS research on turning organizational judgment into executable decision systems.
Agentic Company Architecture
Research on human-agent organizations, delegation boundaries, role topology, and governed autonomy.
Responsibility Gates and AI Governance
Safety, accountability, fail-closed gates, auditability, and human-in-the-loop control for AI agents.
Multi-Agent Mathematics
Formal models for convergence, stability, game theory, graph dynamics, and multi-agent evaluation.
Agentic R&D and Judgment Science
Research operations, simulation labs, judgment science, recursive improvement, and experimental AI governance.
The Algorithm Stack for Agentic Organizations: 10 Essential Algorithms Mapped to a 7-Layer Architecture
Beyond generative AI: a practical computational substrate for self-governing enterprises
An agentic company is not built on generative AI alone. We present 10 core algorithms across language, tabular prediction, state-transition control, graph structure, and anomaly detection, organized into a 7-layer architecture for enterprise governance workloads.
Transformer Architecture for Agentic Language Intelligence: Self-Attention as the Cognitive Layer of Enterprise Decision Systems
How self-attention enables multi-agent context fusion, decision-log comprehension, and hierarchical organizational reasoning
Transformer architectures are central to enterprise language understanding, but production decision systems require additional design constraints. This paper formalizes transformers as the Cognition Layer (Layer 1) of the agentic company stack, introduces cross-agent attention for organizational context fusion, adapts positional encoding to hierarchical coordinates, and outlines training objectives for decision logs, contracts, meeting notes, and specification documents. In evaluated MARIA OS workloads, coordinate-aware attention reduced cross-agent context fusion error by 34% versus standard multi-head attention, and hierarchical positional encoding improved organizational structure extraction F1 by 28%.