Resiliency and Assessments of Cyber-Physical Systems

Resiliency and Assessments of Cyber-Physical Systems

CIPHER leverages extensive expertise in hardware, software, network, and RF communications to evaluate the cyber vulnerabilities in critical military assets, industrial control systems, and other and critical infrastructure systems. CIPHER has developed novel cyber assessment tools to streamline vulnerability analysis techniques. In addition, they have developed mechanisms to ensure trust and security for embedded systems and controllers and provide formal assurance of system and mission specifications via root-of-trust hardware.
 

Reverse Engineering and Vulnerability Analysis of Embedded Systems

Reverse Engineering and Vulnerability Analysis of Embedded Systems

CIPHER Network Vulnerability Division (NVD) is skilled in reverse engineering, vulnerability discovery, and forensics analysis of embedded systems. Red team activities focus on vulnerability discovery and the development and demonstration of RF and network-based techniques to gain unauthorized access to and/or exploit information networks. These efforts identify weaknesses and help ensure that mitigations are effective.

FalconView

FalconView

FalconViewTM, one of GTRI's signature research programs, is an internationally recognized mapping system that displays various types of maps and geographically referenced overlays, and is an integral part of the Portable Flight Planning Software. FalconViewTM is now open source.

 

Parallel Software Performance Analysis

Parallel Software Performance Analysis

CIPHER offers customized parallel software and algorithm performance testing services that help you plan the transition of your application and algorithms to production scale.  Our team of world-class experts will evaluate your software using a battery of cutting-edge techniques to identify performance bottlenecks for both existing and planned deployment configurations.  Our results will help you accelerate your applications at current scale, understand performance issues that will arise as you increase scale, and design a scaling approach to meet those challenges.