Richmond Global Delta · RG Delta

Deterministic governance for safety-critical AI.

Richmond Global Delta develops verification-first architectures for AI and autonomous systems operating where failure is unacceptable. Our work pairs formal methods, post-quantum cryptography, and constraint-enforced control.

Request briefing View capabilities

Formal verification
Deterministic control
Post-quantum assurance
Auditable autonomy

Mission

Governance and control infrastructure for systems where correctness must be demonstrable.

Richmond Global Delta works on the control layer between AI and consequence. We design and verify the boundaries that determine when an autonomous or model-driven action is permitted to execute, by whom, and under what evidence.

Our approach is conservative on purpose. We prefer decidable properties to probabilistic assurances, signed authorization to trust assumptions, and deterministic enforcement to alignment by training. The result is infrastructure that holds under adversarial conditions and remains explicable after the fact.

Capabilities

Four practice areas, applied to the same control problem.

AI governance and control systems

Policy enforcement layers that constrain model and agent behavior at execution time. Deterministic gates, threshold conditions, and signed authorization paths between decision and action.

Formal verification and assurance architectures

System designs that expose decidable invariants. Composable proof obligations across kernel, policy, and cryptographic layers, with assurance evidence preserved across versions.

Safety-critical autonomy and constraint systems

Hardware- and software-anchored constraints for autonomous platforms. Execution permitted only when stated preconditions evaluate to true at the control boundary.

Cryptographic and policy enforcement infrastructure

Post-quantum signed authorization, deterministic policy evaluation, and tamper-evident audit trails for regulated environments and long-lived systems of record.

Methods

Operating philosophy.

Formal foundations

Specifications precede implementation. Properties are stated in terms a verifier can decide.
Deterministic constraints

Execution is permitted only when stated preconditions evaluate to true at the control boundary. No partial commits.
Human oversight at control boundaries

Authority remains with a human operator at points where consequence is irreversible. Automation does not relocate accountability.
Auditability and assurance evidence

Decisions are logged with cryptographic integrity. Post-hoc review is possible without operator cooperation.

Domains

Where this work applies.

Defense and national security

Mission-critical autonomous systems and command infrastructure.

Critical infrastructure

Energy, water, and transport systems where uptime and integrity are non-negotiable.

Aerospace and autonomous systems

Verified control architectures for flight, space, and unmanned platforms.

Regulated industrial and scientific environments

Process control and laboratory automation under regulatory oversight.

For government and institutional partners

Procurement and capability information.

Capability statement

A current capability statement is available on request. It includes representative problem areas, technical methods, and points of contact for evaluation.

Request capability statement

Partnership and evaluation

For partnership, capability inquiries, and technical evaluation requests, please write directly. We respond to substantive inquiries within five business days.

contact@rgdelta.com

Contact

Start a conversation.

We work with a small number of partners at a time. Briefing requests should describe the system, the assurance question, and the operating environment.