Protect Your Linux Environments From Undetectable Attacks
Proactive Protection for Linux Devices
Our Moving Target Defense technology creates an unpredictable attack surface in memory at runtime that proactively prevents known, unknown, evasive, and zero-day threats that are largely undetectable.
Protect your Linux Servers and Devices with our MTD Solution
Protect Linux servers from advanced threats
Negligible workload performance impact
Slash alert overload and SOC OPEX costs
Reduce patch vulnerability risks
Proven results against Linux attacks
Harden virtual and physical server security
Moving Target Defense For Linux Servers
Linux employs a revolutionary, patented technology called Moving Target Defense (MTD).
- Morphing logic and runtime traps create a dynamic attack surface threat actors can’t penetrate.
- Blocks remote, unauthorized, and otherwise weaponized code execution; living off the land (LoTL) and man-in-the-middle (MiTM) privilege escalation, fileless attacks, polymorphic defense evasion, and other advanced tactics.
- Gartner affirms MTD is easy to implement, complementary, and scalable.
Security Benefits
- Stop supply chain, fileless, unknown, zero-day, and other stealthy and evasive attacks at runtime
- Deterministically block advanced remote code execution (RCE) and privilege escalation (PE)
- Unrivaled protection for legacy and under-protected Linux systems
- Augments detection and response solutions without relying on signatures or behavioral analysis for ultra-effective Defense-in-Depth
- Makes every system look different over time, as well as different from all other systems
Operational Benefits
- Negligible memory and CPU footprint
- No active internet connection needed, air-gap compatible
- Ultra-low maintenance, slashes false positive alert overload
- No additional headcount required
- Protects OT/IoT devices + on-premises, cloud, and web servers
See our solutions in action through interactive demos
Get a firsthand experience of how our products and platforms can fortify your defenses against modern cyber threads.