Wiz
AI-powered cybersecurity for everything you build and run in the cloud and with AI applications.
Fortune 100 Customers
50%+
Company Valuation
$12B+
Gartner Peer Insights Rating
#1 in Cloud Security
About Wiz
Wiz provides a comprehensive Cloud Native Application Protection Platform (CNAPP) that connects an organization's entire cloud environment—from code and infrastructure to runtime. By creating a unified security graph, Wiz offers deep context into complex risks, including vulnerabilities, misconfigurations, exposed secrets, and malware. This allows security teams to prioritize threats that pose the greatest risk and automate remediation. The platform is designed to be agentless, providing rapid deployment and broad visibility across multi-cloud environments like AWS, Azure, and GCP. Its key use cases include Cloud Security Posture Management (CSPM), Cloud Workload Protection (CWPP), and proactive risk reduction throughout the development lifecycle.
Platform Core Capabilities
Cloud Native Application Protection Platform (Cnapp)
Integrates CSPM, CWPP, and other cloud security capabilities into a single, unified platform.
Security Graph
Provides deep context by connecting code, cloud configurations, identities, network, and runtime data to model attack paths.
Agentless Scanning
Enables rapid deployment and 100% visibility across IaaS, PaaS, and SaaS environments without installing agents on workloads.
Ai-Powered Security
Utilizes AI to automate risk reduction, generate code fixes, and assist in threat hunting and investigation.
Key Features
Secure Development
Scans code from the IDE to CI/CD pipelines to identify and fix issues before deployment.
Cloud And Ai Risk Prevention
Secures applications in the cloud, from infrastructure to data, including AI models and pipelines.
Runtime Protection
Provides runtime protection and threat detection using an eBPF-based sensor for deep visibility into workload behavior.
Attack Surface Management
Maps and analyzes all externally reachable assets to identify and model potential initial access paths for attackers.