diff --git a/collections/tech/innovations/network_wall_innovation.md b/collections/tech/innovations/network_wall_innovation.md index 49f8233..e782b2c 100644 --- a/collections/tech/innovations/network_wall_innovation.md +++ b/collections/tech/innovations/network_wall_innovation.md @@ -1,5 +1,7 @@ -## NetworkWall +## Network Wall + +The Network Wall offers 100% separation between where compute workloads are and where services are exposed, proving an extremely high level of security. ![](network_wall.png) diff --git a/collections/tech/innovations/network_wall_innovation_short.md b/collections/tech/innovations/network_wall_innovation_short.md index a8991d2..1aaa2da 100644 --- a/collections/tech/innovations/network_wall_innovation_short.md +++ b/collections/tech/innovations/network_wall_innovation_short.md @@ -4,7 +4,7 @@ Traditional firewalls are increasingly ineffective at addressing modern security challenges. They struggle to mitigate emerging threats, particularly against backdoors and man-in-the-middle attacks. Backdoors can render firewalls obsolete as attackers find ways to bypass them. New and innovative approaches to cybersecurity are necessary to address these evolving security problems. -## Introducing NetworkWall +## Introducing Network Wall Imagine a scenario where you deploy applications within secure, liquid-cooled physical containers or smaller POD's that operate without relying on traditional TCP/IP or Ethernet protocols. By avoiding the use of standard low-level protocols, the existing backdoors are unable to communicate with the external world.