Who We Serve
Technology
Cybersecurity Built for Technology
Unauthorized changes in technology environments can alter application behavior, expose sensitive data, or impact system performance. Crytica’s RDAi™ system detects threats at the moment of injection, before execution, with deterministic alerts for rapid response. Unlike traditional security tools that rely on signatures or behavioral analysis, RDAi™ uses deterministic detection to detect unauthorized changes, including AI-generated, polymorphic, and evolving threats.
TECHNOLOGY CAPABILITIES
How RDAi™ Defends
Designed specifically for mission-critical and resource-constrained devices, the RDAi™ system:
Detects threats at injection, before execution
Replaces compromised Probes automatically to maintain scanning
Runs with an efficient footprint as small as 70KB
Operates without cloud connectivity or external updates
Maintains continuous detection with nominal performance impact
WHO WE SERVE
All Industries
We serve mission-critical and high-availability industries that require rapid detection, resilient protection, and continuous performance.
Defense
Detect unauthorized changes inside systems that control mission-critical operations.
Aerospace
Detect threats in avionics and flight control systems before they compromise operations.
Public Utilities
Prevent service disruption by detecting unauthorized changes in power and water systems.
Financial Services
Detect unauthorized changes in systems that process transactions and manage capital.
Healthcare
Detect unauthorized changes in clinical systems vital to patient care and safety.
Agriculture
Track unauthorized changes across automated systems in remote environments.
Manufacturing
Prevent production disruptions by detecting changes in industrial control systems.
Entertainment
Protect content and delivery systems from unauthorized changes across platforms.
Transportation
Detect threats inside fleet management systems before operations are disrupted.
Technology
Detect malicious code changes in technology environments at the moment of injection.
