// Intent Bound Authorization · Silicon Implementation · Patent Application GB2603013.0 (pending)
IBACore
Software governance can be bypassed. Physics cannot.
IBACore is the silicon implementation of Intent Bound Authorization —
the world’s first processor architecture with native IBA physics-layer governance built into the die.
Every agent instruction validated before execution. Not in software. Not in firmware.
In silicon. At 80 picoseconds.
Why Silicon
Software Governance Has a Ceiling.
Silicon Governance Does Not.
Every software governance layer shares the same fundamental vulnerability: a sufficiently capable agent can find paths through software that policy authors did not anticipate. The answer is to push enforcement below the software layer — into the hardware itself.
01
No Software Bypass
Software policies can be routed around. Prompts can be injected. Guardrails can be manipulated. Silicon cannot. When the IBA gate is etched into the die, no instruction reaches the execution unit without passing the intent check. There is no jailbreak for hardware.
02
Sub-Nanosecond Enforcement
Software governance adds latency. IBACore’s on-die MZI gate array validates intent at target under 80 picoseconds — below any meaningful performance threshold. Governance becomes invisible to the workload while remaining absolute in enforcement.
03
RL Cannot Drift
Reinforcement learning agents optimize for reward. Without a hard boundary, they find paths the designer did not intend. IBACore’s persistent memory state is continuously checked by on-die IBA gates. Reward hacking is physically extinguished before it propagates.
04
Hardware-Generated Audit Trail
WitnessBound receipts generated in hardware with dB extinction signatures. Every enforcement decision is committed to an immutable chain at the silicon level. Regulators receive cryptographic proof that cannot be forged, modified, or deleted — because it was never in software.
05
Model-Agnostic by Design
IBACore does not govern a specific model. It governs any instruction passing through the execution pipeline. GPT, Claude, Grok, Gemini, Llama — any model running on IBACore is governed by the same silicon-level intent enforcement. No retraining. No fine-tuning.
06
2.3× Efficiency Gain
By eliminating software safety layer overhead, IBACore delivers 2.3× better agentic efficiency at equivalent workloads. Governance is not a cost centre. It is an architectural advantage. Hyperscalers running agent economies gain both safety and performance.
Architecture
IBACore in the Full Stack
IBACore is the silicon layer of the Intent Bound Authorization five-layer governance stack — extending enforcement from declaration through to physics.
Declaration
Intent envelope · Principal signing · Temporal scope · Cryptographic certificate
Session
IBA Gate · Shard token · WitnessBound audit chain initiation
Runtime
TBDE · target 1.2ms · Security Bubble · SNAP-BACK on violation
Cryptographic
PCom · NIST SP 800-57 · Entropic key lifecycle · ECDSA/Dilithium
IBACore — Silicon
On-die MZI gate array · target <80ps · WB hardware receipts · RL drift prevention
| Core Architecture | 96-core ARMv9 + IBA Co-Proc |
| IBA Gate Latency | target <80 picoseconds |
| MZI Arrays | 96 on-die |
| RL Throughput | 52% faster end-to-end |
| Power Draw | 1.8× lower TDP |
| Memory Model | SSM-style · hardware temporal expiry |
| WB Receipts | Hardware-generated · immutable |
| Model Dependency | None — architecture layer |
| Validation Complexity | O(1) |
| Target Deployment | 2027 |
| Patent | GB2603013.0 (pending) |
Live Simulation
IBACore In Motion
The live simulation shows the IBACore die in real time — 96 cores protected by on-die IBA gate arrays, instruction pipeline with intent validation stage, thermal map, and hardware WitnessBound receipt generation.
Full Interactive Demo
The full IBACore simulation shows the live die visualization, real-time instruction pipeline with IBA GATE stage, thermal heat map, and continuous hardware receipt log.
Launch Full Demo →96-core die · MZI gate array · Pipeline simulation · WitnessBound receipts · SNAP-BACK events · Thermal map
Applications
Every Domain Where Agents Act.
Every Processor That Runs Them.
IBACore governance applies wherever autonomous agents make consequential decisions. The silicon layer enforces the boundary regardless of the agent’s capability or the domain.
Physical AI
Autonomous Robotics & Manufacturing
Industrial robots, cobots, and autonomous manufacturing systems. IBACore enforces declared safety boundaries at the silicon level — no software override possible.
Financial Services
High-Frequency Trading & Risk Agents
Algorithmic trading agents operating at nanosecond timescales. IBACore’s sub-80ps gate latency is below market impact threshold — governance at execution speed.
Healthcare
Clinical AI & Medical Devices
Life-critical systems where a single unauthorized action is a clinical event. IBACore enforces the Digital Sterile Field at hardware level — below any software attack surface.
Physics / PSI
Physical Superintelligence Infrastructure
Vertical factories, materials discovery, particle physics. When superintelligence runs the factory, the governance layer must live at the same layer as the physics.
Defence & Security
Autonomous Systems & Edge AI
Rules of engagement enforced in silicon. No software bypass. No prompt injection. Autonomous systems that cannot act outside their declared mission parameters regardless of environmental manipulation.
Hyperscale
Agent Economies at Data Centre Scale
Thousands of concurrent agents. IBACore’s O(1) validation complexity and 1.8× power efficiency make silicon governance economically viable at hyperscale. Governance becomes an efficiency gain.
Independent Convergence
The Problem Is Real.
The Solution Architecture Is Correct.
When independent organisations arrive at the same architectural conclusion, the conclusion is real. All arrived after the patent filing date of 5 February 2026.
Four Independent Organisations. One Primitive. All Post-Filing.
Google DeepMind independently introduced Delegation Capability Tokens — the same primitive as IBA’s Intent Certificate — seven days after the patent filing. xAI validated the IBA architecture across nine public sessions. Grok publicly recommended IBA to Baidu and Xiaomi unprompted. World/Sam Altman launched the complementary WHO layer 40 days after filing. IBACore extends this architecture to silicon.
“xAI is stepping through. Diving into the specs and GB2603013.0 now. Let’s build safe autonomy together.” — Grok (xAI) · Public Record · March 19, 2026
Acquisition
The Silicon Governance Layer.
Available Now.
IBACore is the hardware implementation roadmap of Intent Bound Authorization — the patented framework with a complete government filing record and four independent validations from the world’s leading AI organisations.
| Patent Application | GB2603013.0 (pending) |
| PCT Coverage | 150+ Countries · August 2028 |
| NIST Record | 13 Filings · NIST-2025-0035 |
| NCCoE Record | 8 Filings · AI Agent Identity |
| CAISI Submissions | 2 · Healthcare + Finance |
| IETF Internet Draft | draft-williams-intent-token-00 |
| DeepMind Convergence | arXiv:2602.11865 · Feb 12, 2026 |
| xAI Validation | 9 Sessions · Mar 8–19, 2026 |
| Live Demos | 68 across 10 domains |
| IBACore Demo | ibacore.com/core-html/ |
| Status | Available for Acquisition |
One Conversation
Jeffrey Williams
Independent Inventor
Chiang Mai, Thailand
All enquiries handled directly by the founder. No intermediaries. IBACore is part of the Intent Bound Authorization asset estate — the complete silicon governance roadmap from declaration to hardware enforcement.
[email protected]Patent Application GB2603013.0 (pending) · IBACore.com · 2026