Security | Threat Detection | Cyberattacks | DevSecOps | Compliance

CloudCasa orchestrates disaster recovery failover for stateful workloads across two HPE Alletra arrays running Red Hat OpenShift. In this demo, we fail over a file server application from Site A (HPE Alletra 9060) to Site B (HPE Alletra MP B10000), with CloudCasa installing its agent via a single kubectl apply, discovering both clusters and storage systems, mapping the pre-configured HPE replication relationship, and triggering consistency group failover so the workload comes back up on Site B with all data intact.

CloudCasa completes the disaster recovery cycle by failing a file server application back from Site B (HPE Alletra MP B10000) to its original primary on Site A (HPE Alletra 9060), both running Red Hat OpenShift. In this demo, we create a reverse DR plan, scale down the workload for a clean shutdown, and let CloudCasa orchestrate the two-phase failback: an HPE recover/restore operation that reverses replication at the storage layer, followed by progressive Kubernetes resource restoration, before the file server comes back online on Site A with its data intact.

Read the full report here: https://www.gitguardian.com/state-of-secrets-sprawl-report-2026

AI add-ons can automate everything from travel to banking—but are they opening backdoors to your private data? Here is what to look for before granting permissions.

AI-assisted exploit generation has compressed the CVE-to-weaponization window from weeks to hours. Patch programs built for 15–30 day cycles are structurally mismatched to that reality—and attackers are already operating inside the gap. The only viable response: architect for assumed compromise, map unpatched paths, and validate that compensating controls are actually firing.

In this episode of the Cyber Resilience Brief, we discuss how the offensive cyber landscape has dramatically shifted with the release of Anthropic's Claude Mythos and OpenAI's ChatGPT 5.5. Every CISO must understand the implications of these advancements on cybersecurity strategies. Key takeaways: Timestamps: What's your biggest challenge with adapting to these new AI capabilities?

Network security depends on clear visibility across every digital asset. In this brief demo, we will see how Corelight's new Network Performance and Asset Classification logs can be referenced when doing a threat hunt. You will learn about the logs and what information they contain. Network Performance and Asset Visibility logs are available as part of the Sensor v29.1 general availability release to customers with Sensor and Investigator Bundle licenses.

Network security depends on clear visibility across every digital asset. This detailed walkthrough covers Corelight's new Network Performance and Asset Classification logs. You will learn about these two logs, how to configure them, and how to use them during cyber investigations. Network Performance and Asset Visibility logs are available as part of the Sensor v29.1 general availability release to customers with Sensor and Investigator Bundle licenses.

AI built exploits and AI driven defence are now colliding in the same battlefield, which changes cyber conflict at machine speed. The new argument is simple, if attackers already use AI offensively, defenders need AI native defence to keep up.