Security and Redundancy

Security at CellTrust

The CellTrust Data Centers provide a secure computing environment suitable for hosting critical applications and sensitive data. Physical and environmental controls protect the computer room itself from interruptions and unauthorized intrusions, and technical controls on all platforms provide the capability to protect applications and data from unauthorized disclosure and manipulation. CellTrust Data Centers have uninterruptible power supplies (UPS), physical access control procedures, climate control, central backup and recovery systems, a disaster recovery program, and security management and operations procedures for all platforms to ensure the confidentiality, integrity, and availability of customer applications and data. The Data Centers' staff members manage and monitor all host systems to ensure continued availability and effective operations. CellTrust’s security management program continually reviews and refines security operations.

Redundancy at CellTrust

Gateways are judged by their ability to provide continuous operations for the network click for larger image
services they support. Gateway availability is affected by both planned (scheduled maintenance) and unplanned (failures) events. To maximize availability, the impact from each of these must be minimized and/or eliminated. The CellTrust Gateway is maintained on a regular basis. During these planned outages customers are switched to the secondary data center to eliminate any downtime. To mitigate unplanned outages, both redundancy and fault-tolerance is incorporated into the CellTrust Gateway. High-availability is accomplished by providing redundancy for all, major and minor, systems, thereby eliminating single points of failure. Additionally, our data centers offer predictable uptime by incorporating fault-tolerance against hard failures. (A hard failure is a failure in which the component must be replaced to return to an operational steady state.) The CellTrust Gateway achieves high-availability by implementing a fully redundant, fault-tolerant, and concurrently maintainable IT and support infrastructure architecture in which all possible hard failures are predictable and deterministic.