Technical Publications
A growing body of technical literature on Adaptive Cryptographic Surface Engineering — from architectural theory and formal verification to red-team evidence and breach counterfactual analysis. All papers are post-patent-filing public technical disclosures.
ACSE / PME / ASMP·1.0 — Technical Whitepaper
The comprehensive reference document covering the full ACSE stack — architecture, all 11 profiles, ASMP/1.0 wire protocol, red-team results, performance benchmarks, and case studies. The definitive starting point for anyone evaluating ACSE.
ACSE — The Architecture of Continuous Cryptographic Motion
The theory paper. Formal foundations of the Kali Invariant, the three-layer ACSE model, KaliCore governing intelligence, the atomic mutation cycle, and security properties — without implementation code. The definitive architectural reference.
Red Team vs. ACSE — Full-Spectrum Attack Simulation
White-box adversarial evaluation assuming an attacker with full architectural knowledge and optimal algorithms. Linkability L=0.181 (below random guessing), 107/107 Forced Twitch detections, 0% post-mutation exploit success. All 10 test results in full.
How ACSE Would Have Prevented the Decade's Worst Breaches
Counterfactual analysis of six high-impact attacks — Change Healthcare, SolarWinds, Stryker-Handala, Equifax, Colonial Pipeline, and MOVEit/Cl0p. Each breach: timeline, root cause, exact ACSE intervention point, and profiles engaged. Combined real-world impact: $10B+, 500M+ records.
PME — Engineering the Polymorphic Mutation Engine
Deep implementation paper. All five core subsystems, 3-line integration API, entropy architecture, SHA3-256 audit chain, all five production TEE adapters (SGX, Nitro, SEV-SNP, ARM CCA, Mock), and the pme-console management interface.
ASMP/1.0 — A Wire Protocol for Coordinated Surface Mutation
Full protocol specification — all 5 message types in wire format, zero-knowledge peer authentication proof, Defensive Leap cascade mechanism, TEE-rooted management attestation, and ProVerif formal verification results. RFC-candidate format.
The Dasa Mahavidya Profiles — Domain-Adaptive Cryptographic Defence
All 11 profiles in depth — domain, design rationale, performance benchmarks, crown jewel claim, and integration guide for each. The complete reference for profile selection by infrastructure class.
Formal Verification of the Kali Invariant — ProVerif Models and Security Properties
Academic-grade paper. Full ProVerif models, proof of the ZK authentication property, cascade authentication proof, and MSG-005 TEE-binding verification. The kind of paper that gets cited.
Patent Reference
Indian Patent Application IN202641070690
All concepts described in these papers are covered by patent application IN202641070690 filed by Arul Raj with the Indian Patent Office. Expedited examination (Form 18A) and early publication (Form 9) requested. Papers are public technical disclosures published post-filing.
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