Claroty Launches AI Security Agent Claire for CPS Protection
Severity: Low (Score: 27.9)
Sources: claroty.com, Industrialcyber.Co
Published: · Updated:
Keywords: claroty, claire, security, agent, cps-native, protect, introduces
Severity indicators: ot
Summary
On May 28, 2026, Claroty announced the launch of Claire, the first CPS-native AI security agent designed to enhance the security of mission-critical infrastructure. Claire utilizes an advanced CPS language model, trained on extensive industry data, to provide organizations with proactive defense capabilities. The tool aims to address the expanding attack surface in cyber-physical systems, particularly as AI technologies proliferate. According to Goldman Sachs, the market for humanoid robots is expected to grow significantly, indicating a rising risk in CPS environments. The agent is designed to minimize attack surfaces and improve operational resilience by automating security actions and ensuring compliance with regulatory standards. Organizations using Claire can expect enhanced insights and actions tailored to their specific sectors. This innovation is backed by threat research from Claroty's Team82, ensuring a robust defense mechanism against evolving threats. Key Points: • Claroty launched Claire, the first CPS-native AI security agent on May 28, 2026. • Claire leverages a comprehensive CPS language model to enhance security for mission-critical infrastructure. • The tool aims to mitigate risks associated with the expanding CPS attack surface driven by AI advancements.
Detailed Analysis
**Impact** Organizations operating cyber-physical systems (CPS) across industrial, healthcare, commercial, and public sectors are affected, with deployments in over 20,000 sites across 60+ countries. The solution targets mission-critical infrastructure, including robotics projected to grow to a $38 billion market by 2035, emphasizing the need to protect environments where uptime, safety, and operational continuity are essential. The risk includes expanded attack surfaces due to AI-driven threats that can cause downtime and disrupt business continuity if exploited. **Technical Details** No specific attack vectors, TTPs, malware, CVEs, or IOCs are detailed in the articles. The focus is on proactive defense using an AI-powered CPS language model trained on data from over 6,500 OEMs and medical device manufacturers, enabling continuous discovery, risk prioritization, and remediation orchestration. The tool operates across the kill chain stages from asset discovery to defense orchestration but no explicit threat actor techniques or infrastructure details are provided. **Recommended Response** Defenders should prioritize deploying AI-driven, CPS-native security agents capable of continuous asset mapping, exposure prioritization, and automated remediation orchestration. Monitoring should focus on anomalous activity in CPS environments and maintaining compliance with regulatory frameworks and OEM patch levels. Specific patching or detection rules are not provided; organizations should enhance visibility and operational resilience through tailored, contextual AI insights.
Source articles (2)
- Claroty launches Claire, a CPS-native AI security agent designed to protect mission — Industrialcyber.Co · 2026-05-28
Cyber-physical systems (CPS) protection company Claroty announced it is launching Claroty Claire, a first-of-its-kind, CPS-native AI security agent empowering organizations to proactively defend their… - Claroty Introduces Claire Industrys First Cps Native Ai Security Agent — claroty.com · 2026-05-28
Claire Delivers AI-powered CPS Visibility, Contextual Insights, and Agentic Actions to Protect the Integrity and Resilience of Mission-critical Infrastructure NEW YORK – May 28, 2026 – Claroty , the c…
Timeline
- 2026-05-28 — Claroty announces Claire launch: Claroty introduced Claire, an AI security agent for CPS, enhancing proactive defense capabilities for critical infrastructure.
- 2026-05-28 — AI threat landscape discussed: The announcement highlighted the rapid expansion of the CPS attack surface due to AI technologies, emphasizing the need for proactive security measures.