Blumira integrates with your full security and technology stack, parsing large volumes of log data and automatically prioritizing alerts to make it easy for responders.
By the time alerts reach your team, we’ve made sure they’re actionable with contextual data pulled in from threat intelligence feeds and detection rules written by our security analysts that do the threat hunting for you. This saves your team the time required to investigate, analyze datasets and prioritize alerts.
Blumira identifies threats, categorized by the time recommended to respond, so your team knows what’s the most important:
Priority 1 – Respond immediately to critical threats
Priority 2 – Respond within next day to high-priority threats
Priority 3 – Respond within the next few business days to lower, potentially malicious alerts
Blumira’s platform also alerts security and IT teams to changes and disruptions in operational events, such as high-availability failover, CPU spikes, and license expiration.
The effects of alert fatigue result in longer response times for 78% of IT staff using a traditional SIEM (IDG).
Blumira’s cloud-delivered platform combines prioritized detections with pre-built playbooks, or security guides that give your team the steps to walk through remediation.
We give you what you need so you can quickly review all evidence in one ticket and take action. Blumira provides automated options to immediately block malicious source IPs through your firewalls, no manual work required. Learn more about Blumira’s Dynamic Block Lists.
Alleviate alert fatigue and consolidate your security toolbox. Automate your security operations (SecOps) to save them time and manual effort.
Short of hiring a full team of security analysts and engineers, how can businesses today consolidate tools and still get end-to-end detection and response?
See how easy it is to set up Blumira with other products, start ingesting logs and detecting threats right away.
SOAR solutions are the future - but there are limitations. Here's how to leverage SOAR with lower overhead.