DisplayPort is increasingly popular with the government sector because it offers high graphics resolution in a non-consumer HDMI format. Unlike HDMI, DisplayPort cables are securely fastened which minimizes down time that results when a loose cable is dislodged. In addition, no licensing fees are required, as with HDMI, and DisplayPort is significantly thinner and smaller than DVI.
While DisplayPort adoption is on the rise, there are security concerns involved with the transfer of information beyond display signals, making data vulnerable and security a challenge. Belkin is the first and only vendor to develop a Secure KVM Switch with support for DisplayPort technology.
The switch, which is Common Criteria validated to EAL 4+, includes security mechanisms to protect DisplayPort channels and prevent leakage of information between connected computers and displays. These mechanisms provide isolation even if two connected computers are infected with malicious code attempting to target the KVM.
In addition, users today face a greater demand to monitor a growing amount of data and perform multiple tasks at the same time. Belkin addresses this by making the Secure DisplayPort KVM Switch the first to support up to four monitors on one system. As a result, users can more effectively keep an eye on more data simultaneously for improved intelligence and decision making.
As with all Belkin Secure KVM products, the DisplayPort KVM Switch is designed to thwart cyber-attacks by reinforcing user desktop security with the most advanced and secure commercially available KVM technology available.
Additional Secure DisplayPort KVM Switch features include:
- Protected DisplayPort channel switching – Security mechanisms protect DisplayPort channels, preventing leakage of information between connected computers and peripherals
- Full support of all DisplayPort 1.2 resolutions up to 3840×2160
- Dedicated processors with emulators for every port – Isolated port paths for video, audio, peripherals, and smart card readers prevent data leaks between computers
- Unidirectional data paths – Optical data diodes prevent peripherals from being used to breach systems
- Display security – Protected display interface prevents data leakage via the monitor
- Peripheral management – USB device detection prevents unauthorized peripheral usage
- Anti-tampering – Internal electrical sensors render unit inoperable if opened.