Why Chaos Engineering is a Good Stress Test Strategy
Learn about chaos engineering, a method of resilience testing that intentionally introduces “chaos” into a system to discover vulnerabilities and weaknesses that can be exploited by attackers.
Cybersecurity strategy guides how organizations prioritize risks, protect critical systems, and prepare for incidents, recovery, and resilience.
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Background for this topic.
Security strategy is the long-term direction an organization uses to manage information-security risk and support its business objectives. It sets priorities for protecting systems and data, assigns decision-making authority, defines acceptable risk, and guides investment in controls, skills, architecture, and suppliers. A sound strategy turns risk assessments and threat intelligence into measurable security outcomes rather than a disconnected list of tools.
For practitioners, strategy determines which assets and attack paths receive priority in vulnerability management, how privacy and regulatory obligations shape data handling, and what capabilities must exist for detection, containment, recovery, and testing. It should account for dependencies such as cloud services, software providers, identities, and legacy systems, while establishing review points as technology, threats, and business operations change. Effective governance links these choices to owners, budgets, metrics, and documented exceptions.
Learn about chaos engineering, a method of resilience testing that intentionally introduces “chaos” into a system to discover vulnerabilities and weaknesses that can be exploited by attackers.
A strong cybersecurity strategy isn’t just about choosing the right tools. Cybersecurity experts Greg Young and William Malik discuss three non-technical cybersecurity trends for 2023 to help security leaders reduce cyber risk across the enterprise attack surface.