Axiom Temporal Systems is an independent software vendor engineering hardware-enforced separation kernel technology for the Intel®Xeon platform family. Operating from Alabama as a clean-room developer, we deliver kernel-layer security architecture designed for environments where conventional general-purpose operating systems fall short of modern hardware-rooted trust requirements. Our original kernel implementation targets the Intel®Xeon E5 v3 (Haswell-EP) generation and has been developed and iterated on that platform as our primary validation environment. A parallel clean-room engineering effort is now underway to target the Intel®Xeon 6 (Granite Rapids) generation as the forward deployment platform, building natively against the current Intel®security and acceleration feature set: Intel®Trust Domain Extensions (TDX), TDX Connect for device-level attestation, Intel®Advanced Matrix Extensions (AMX), Multi-Key Total Memory Encryption (MKTME), Software Guard Extensions (SGX) where applicable, and CXL 2.0 host and device enablement. Every subsystem — from the UEFI boot path and measured launch sequence through the memory manager, trust-domain governors, storage drivers, and I/O stack — is written clean-room in C and hand-tuned assembly, compiled exclusively with GCC, and structured for long-horizon auditability. Our internal engineering discipline draws on established high-assurance coding and systems practices, including secure coding conventions consistent with MISRA guidance and defensive-programming patterns found in safety-critical and security-critical systems. Architectural structure is intended to preserve future certification optionality should a deployment or acquirer require it. The codebase does not carry any formal third-party certifications at this time; certification is a buyer- or deployment-specific activity we are positioned to support rather than a claim we make today. Target deployment domains include confidential compute for regulated industries, zero-trust critical infrastructure, high-assurance virtualization hosts, trusted AI inference platforms where model and data confidentiality must be hardware-rooted, and specialized compute environments requiring kernel-level isolation guarantees that exceed what commodity operating systems provide. We do not position our work as a general-purpose replacement for Linux, Windows, or FreeBSD — we build where those kernels are architecturally unable to deliver the required trust properties on modern Intel® silicon. As an Intel® Partner Alliance member, we are actively engaging with Intel® enablement channels for Intel® Xeon® 6 Granite Rapids platform validation, TDX and TDX Connect integration testing, and coordinated ecosystem development. We welcome inquiries from OEMs, system integrators, defense technology primes, cybersecurity vendors, confidential-compute cloud operators, and enterprises building high-assurance compute platforms on Intel® silicon. Principal engineer and founder: Jason Lee Smith Registered trade