Advenica launches new product engineered for secure data transfers up to 10G
Advenica, a leader in cybersecurity solutions, is thrilled to launch their new product; a hardware-enforced data diode with a SFP module form factor. Engineered for secure, high-speed data transfers, the SFP-based data diode, DDSFX-10G, guarantees one-way data flow between networks that can be up to 10 kilometres apart.
The SFP-based 10G data diode enables secure data transfers between separate networks while ensuring data integrity. This is of particular importance for shipping, transportation, military and other critical environments that need a solution for secure data transfer between networks that are physically separated.
Security and simplicity
With the SFP-based data diode, sending and receiving data securely has never been easier. One simply plugs the SFP modules into compatible hardware, connects them with a fibre cable, and configures the interfaces. The SFP standard enables user supplied hardware that meet specific requirements such as military or industrial standards.
"At Advenica, we provide cybersecurity solutions that protect what matters most. Our new 10G data diode provides organisations with a reliable solution that ensures data integrity, even in the most demanding environments. We’re proud to deliver a product that addresses critical challenges in data security with such versatility and ease of use" says Rickard Nilsson, VP of Sales and Marketing, Advenica.
Common Use Cases for the DDSFX-10G Include:
• File Transfers: Securely transmit files at speed up to 10G.
• Real-Time Data Streaming: Maintain the integrity of live feeds.
• Database Replication: Ensure data consistency across separate networks.
• Remote Monitoring: Monitor operations securely from a distance.
Read more about the product here.
For further information, please contact:
Marie Bengtsson, CEO Advenica AB, +46 (0) 703 860 032 [email protected]
The information was submitted for publication, through the agency of the contact person set out above, at 12.05 CET on December 18th, 2024.