For years, endpoint detection and response (EDR) has formed the backbone of many enterprise cybersecurity solutions. EDR technology enables greater visibility into systems, allowing security professionals to detect threats from file-less attacks, document-based malware, and zero-day exploits.
By directing detection-based analysis towards user behaviors on endpoint devices like laptops, desktops, and mobile phones, EDR solutions can alert security teams of suspicious behaviors well before a cyberattack successfully triggers.
They demand greater expertise and more resources than traditional security technologies and can generate a much higher volume of alerts.
The widespread adoption of cloud technology, distributed workforces, and on-demand network scalability has only increased the demands enterprises place on EDR technology. At the same time, cybercriminals have adopted increasingly sophisticated attack strategies, leading vendors to develop solutions that address some of the shortcomings of EDR.
This new approach is called extended detection and response (XDR). It goes beyond simply analyzing endpoint device behavior, enabling organization-wide analysis and response suited for the modern enterprise.
In 2013 when Gartner security specialist Anton Chuvakin first coined the term "EDR", cloud computing was in its infancy. Remote and hybrid employees were a rarity. Enterprises generally exposed a much smaller attack surface to cyber criminals.
Under these conditions, focusing threat detection and response technology on endpoints made perfect sense. Almost every potential security threat involved compromised endpoints to some degree.
Fast forward to today' cloud-enabled remote work environment, and the story changes. Enterprises routinely have hundreds of different apps in their tech stack. Security threats may originate with trusted vendors, cloud-hosted applications, or unsecured APIs.
At the same time, cybercriminals have found ways to bypass the endpoint-centric approach to threat management. New technical exploits like API unhooking, AMSI bypass methods, and reflective DLL loading overcome EDR protection. This amplifies the risk that comes with implementing a modern, distributed IT infrastructure.
More than half of these are "shadow IT" apps not directly managed by enterprise IT staff. As cyber criminals increasingly focus on supply chain and vendor attacks, the need for extended detection and response is becoming an urgent one.
XDR enhances the behavioral analysis capabilities of endpoint detection and response by covering cloud services, third-party data centers, and VPN employee portals. Many XDR solutions use emerging technologies like artificial intelligence and machine learning to correlate security events across incredibly wide enterprise attack surfaces, providing much-needed insight to fatigued security teams.
In today' hyper-connected enterprise IT landscape, endpoint security data cannot be analyzed in isolation. It needs to be combined and correlated with behavioral analysis from other parts of the enterprise network.
Endpoint data only leads to insight when combined with other security tools, such as security information and event management (SIEM) logs, network traffic captures, and a variety of other data types. All of these technologies typically have different collection policies and retention settings, making it difficult for security teams to gain visibility.
By expanding detection and response technology to cover the entire enterprise attack surface, XDR provides greater context for security events than previous technologies. Security teams can identify threats more reliably and detect attacks earlier than they could by using traditional methods restricted exclusively to endpoints.
Every year, MITRE Engenuity performs a comprehensive series of tests measuring the performance of the world' top EDR and XDR vendors against different attack types.
The 2022 Wizard Spider & Sandworm evaluations showcase exactly how 30 leading cybersecurity vendors respond to real-world attacks using modern cybercrime techniques. The evaluation process tests the cybersecurity vendor' protection, detection, and visibility into specific attack sub-steps. It also measures analytic delay and coverage.
Of the various types of detections covered, analytic detections provide the greatest context for rapid threat response and the most actionable alert data. When SOC teams find themselves overwhelmed with alerts and pressed for time, pinpointed analytic coverage maximizes the value of the detection and response workflow.
30 cybersecurity vendors were tested in 2022 and only 8 reported analytic coverage above 90%. SentinelOne reported analytic coverage of 99%, covering all 19 attack steps, and 108 out of 109 attack sub-steps. SentinelOne Singularity XDR suffered zero detection delays, demonstrating its value for proactive security even in time-constrained security environments.
This marks the third consecutive year SentinelOne outperformed all other XDR technology vendors. It' part of the reason Lumifi decided to make SentinelOne its primary XDR partner.
Lumifi is dedicated to deploying the most sophisticated detection and response capabilities the cybersecurity industry has to offer. Our approach to XDR is a managed detection service that leverages three complementary, industry-leading technologies to enable best-in-class security coverage.
Our SOC2-certified Security Operation Center uses all three of these technologies to secure enterprise customers from the most sophisticated and persistent cyber threats in today' cybercrime landscape.
Join us as we explore how evolving threats bypass legacy defenses.
Date: December 5th, 2024
Time: 11:30AM MST