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AI and Data: Enhancing Zero Trust Cyber Defense Strategies - Blockchain.News

AI and Data: Enhancing Zero Trust Cyber Defense Strategies

Caroline Bishop Sep 27, 2024 06:31

NVIDIA's AI solutions, including Morpheus, are revolutionizing zero-trust cybersecurity by enabling real-time data analysis and anomaly detection.

AI and Data: Enhancing Zero Trust Cyber Defense Strategies

Modern cyber threats have grown increasingly sophisticated, posing significant risks to federal agencies and critical infrastructure. According to Deloitte, cybersecurity remains a top priority for governments and public sectors, emphasizing the urgent need for robust defense mechanisms in an increasingly digital world.

Threat examples include insider threats, supply chain vulnerabilities, and ransomware attacks, which can cause severe disruptions and data breaches. To combat these evolving risks, a zero-trust security strategy is essential. However, there is always room for improvement in zero-trust implementations.

At its core, cybersecurity is a data problem. With the growing number of connected users and devices, organizations are generating more data than they can effectively manage. This poses a challenge: without observing 100% of the data across an enterprise, how can a robust model for detecting anomalies be built?

A zero-trust strategy assumes no entity is trusted by default, requiring continuous verification for access. This demands increased visibility into every application and user on the network. The vast amount of data generated must be continuously monitored and analyzed to identify anomalous behaviors, a task beyond human capabilities and traditional rule-based mechanisms.

Bolster Cybersecurity with 100% Data Visibility

The influx of data increases cybersecurity risks, creating an urgent need for advanced solutions like accelerated computing and AI. NVIDIA Morpheus, a GPU-accelerated cybersecurity AI framework, addresses this need by enabling optimized AI pipelines for filtering, processing, and classifying large volumes of real-time data.

Traditional user behavior analysis relies on rule-based approaches or supervised learning models, which can miss new or evolving threats. Morpheus uses deep learning and unsupervised learning to identify normal behavior and detect deviations, flagging potential anomalies. This approach identifies previously unseen threats, providing a more robust security solution.

Using GPU acceleration, Morpheus processes and analyzes data much faster than CPU-only solutions, reducing detection times from weeks to minutes. The Morpheus architecture harnesses GPU power throughout the data processing pipeline, handling vast amounts of telemetry efficiently.

When combined with generative AI, Morpheus can unlock advanced cybersecurity use cases, enhancing human analysts' capabilities in solving complex problems. NVIDIA's suite of tools, including NIM and NeMo, supports the deployment of AI models for various security applications, such as automating security vulnerability analysis and spear-phishing detection.

Accelerating Anomaly Detection with Digital Fingerprinting

Insider threats, originating from employees or contractors with access to sensitive information, pose significant risks. Morpheus's digital fingerprinting AI workflow addresses this challenge by uniquely fingerprinting every user, service, account, and machine across the enterprise to detect anomalies.

Unlike conventional detection methods, digital fingerprinting creates detailed models for every user and organization, capturing unique behavior patterns. This granular analysis helps identify complex and subtle threats, enabling timely responses to potential security risks.

Automating CVE Analysis with Generative AI

With the growing number of vulnerabilities reported in the CVE database, patching software security issues has become increasingly challenging. Generative AI can enhance vulnerability defense while reducing workloads on security teams. NVIDIA's security vulnerability analysis AI workflow, using NIM microservices and NeMo, accelerates CVE analysis from days to seconds.

This event-driven approach uses large language models and retrieval-augmented generation (RAG) to identify exploitable components in software packages, reducing false positives and enabling security teams to focus on critical issues.

Learn More

AI and generative AI are transforming cybersecurity, particularly in threat detection and vulnerability management. NVIDIA Morpheus extends to various detection use cases, bolstering zero-trust security strategies across government agencies. For more information, visit the NVIDIA Technical Blog.

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