Research Abstract
Edut (Hebrew: עֵדוּת — testimony, witness, evidence) is a systems research and licensing organization focused on deterministic governance infrastructure for real-world operations.
The central thesis is simple: operational dependence should not require permanent dependence on outside control planes. Infrastructure should remain useful under constrained connectivity, changing vendor economics, and long operating horizons.
Edut addresses this through a math-first architecture: deterministic data modeling, verifiable decision paths, and structured evidence before optimization layers are introduced.
Framework Principles
Deterministic Foundations. Core policy and safety decisions are computed from explicit rules and typed inputs. Outputs are testable, reproducible, and auditable.
Operational Ownership. Deployments are designed for client-controlled operation on client-chosen infrastructure, with clear contractual boundaries around rights and responsibilities.
Layered Architecture. The human layer presents simple surfaces. The mathematical layer assembles and scores structured context. The intelligence layer is optional augmentation and never the sole dependency.
Permanence by Design. Systems are engineered for long service life with upgrade paths, compatibility controls, and explicit rollback discipline.
Constitutional Governance. Mechanical invariants enforce safety boundaries consistently across modes, users, and modules.
Research Domains
Current research spans deterministic orchestration, workspace-isolated data graphs, connector contracts, evidence integrity, module governance, and long-horizon operational resilience.
Licensing Model
Edut uses a build-and-license model for governed software systems. Licensing is designed for durable runtime rights with explicit policy, support, and deployment boundaries.
Current Status
The framework is in active implementation and validation. Early designations are being issued for staged launch readiness and controlled deployment onboarding.
Note: This page is intentionally minimal. It reflects a product philosophy where computation is complex and interfaces remain quiet.