Platform Hardening

Secure. Hardened. Battle-Tested.

Overview

Cyber threats evolve daily β€” your infrastructure should evolve faster. At Lyon Industries Global, platform hardening is more than security patches and access logs. We audit, reinforce, and fortify your entire cloud estate, reducing your attack surface without compromising agility.

Whether you're recovering from an incident or building from scratch, we treat resilience and security as foundational β€” not optional. From IAM policies to runtime sandboxes, every layer is considered.

What’s Included

πŸ›‘οΈ Threat Surface Audit

Comprehensive review of entry points, lateral movement vectors, and over-permissioned services.

πŸ§ͺ Posture Validation

Validation of implemented policies, encryption schemes, and tenant isolation models.

πŸ” Identity & Access Refactor

Principle-of-least-privilege enforcement across roles, policies, and federated access.

πŸ“œ Logging & Observability Controls

Security-aware observability with audit trail retention and tamper detection.

πŸ—‚οΈ Secrets & Credential Management

Centralised secret rotation and environment isolation across all CI/CD flows.

πŸ’₯ Attack Simulation & Recovery Planning

Red team tactics applied to validate hardening efforts and guide incident response prep.

Our Edge

🧠 Built by Incident Veterans

We’ve rebuilt platforms in the aftermath of real-world breaches β€” and we bring that insight forward.

βš–οΈ Compliance Meets Practicality

Hardened architectures that meet ISO 27001, NHS DSPT, or SOC 2 β€” without slowing you down.

🧭 Guidance You Can Act On

Clear remediation plans and implementation support β€” not just PDFs and checklists.

Pricing

Select Region:

πŸ” Posture Audit – Β£2,500

Point-in-time security review of an existing cloud estate with prioritised risks and fixes.

πŸ›  Full Hardening Package – Β£5,750

Audit + IAM refactor, secrets management overhaul, and observability redesign.

🧯 Incident Response + Hardening – from Β£8,750

Includes breach analysis, recovery planning, and forensic-driven rebuild recommendations.