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Security posture improvement in the AI era

It’s only been a few weeks since Anthropic announced the Claude Mythos Preview model and launched Project Glasswing with AWS and other leading organizations. This has generated a lot of discussion about the future of cybersecurity and what the ever-increasing capabilities of foundation models mean to organizations.

As AWS CISO Amy Herzog pointed out in the Project Glasswing announcement, “At AWS, we build defenses before threats emerge, from our custom silicon up through the technology stack. Security isn’t a phase for us; it’s continuous and embedded in everything we do.”

Read more from Amy about this in Building AI defenses at scale: Before the threats emerge.

While the discussion around the future of cybersecurity is important, the only thing we know for certain is that organizations need to be able to react quickly to the rapid changes AI is bringing to technology and business in general. And you can’t react quickly if your security fundamentals aren’t dialed in.

The security hygiene gap

It’s easy to assume you have the foundational security elements covered, or to overlook some completely. Basic security use cases like identity management, threat detection, vulnerability management, data protection, and network security can be inconsistently implemented across cloud environments. While AI is reshaping the security landscape, strong security fundamentals continue to be essential for every organization, regardless of size or industry.

These are the security basics that matter whether or not you’re adopting AI: patching consistently, enforcing least-privilege access, enabling logging and monitoring, encrypting data at rest and in transit, and reviewing security configurations regularly. When these fundamentals are in place, you’re better positioned to take advantage of AI-driven tools and respond to newly discovered vulnerabilities, wherever they come from.

While the concepts that drive security fundamentals are universal, implementing them in your environment is best done with an understanding of the context unique to your organization. That’s why we have a multitude of freely available materials—like the AWS Well-Architected Framework—that you can use to help ask the right questions and implement changes in your environment. We also offer programs like the Security Health Improvement Program (SHIP) to help you improve your security posture through prescriptive guidance and continuous improvement.

What is the Security Health Improvement Program (SHIP)?

SHIP is a no-cost program available to every AWS customer, regardless of support tier. SHIP provides a proven, data-driven methodology to:

  • Assess your current security posture using data from your AWS environment
  • Identify specific opportunities to improve across 10 core security use cases
  • Build a prioritized action plan tailored to your environment
  • Establish a mechanism for continuous security improvement

The program is led by AWS Solutions Architects and Technical Account Managers who take you through a personalized report, contextualize findings for your environment, and help you build a prioritized action plan.

Why SHIP matters in the AI era

Project Glasswing highlights an important shift: AI-powered tools are accelerating the pace of vulnerability discovery, which means organizations need to be prepared to assess and respond to findings and changing situations faster than before. In addition to external factors, as organizations adopt AI—whether deploying foundation models, building agentic workflows, or using AI-powered services—how they implement their security controls must change as well. A strong security foundation is what makes confident AI adoption possible.

Here’s how SHIP helps:

Address foundational security gaps proactively

SHIP uses a data-driven methodology to identify opportunities to improve and optimize across 10 core security use cases: threat detection, cloud security posture management, application security testing, configuration management, access governance, vulnerability management, application protection, network security, encryption, and secrets management. The program includes a SHIP assessment to identify critical security findings related to your current security posture, so your team can build a prioritized roadmap for improvement tailored to your environment.

Establish the security baseline AI workloads require

Before you deploy your first model on Amazon Bedrock or build agentic workflows with Amazon Bedrock AgentCore, you need confidence that your underlying infrastructure follows security best practices. SHIP uses actual data from your environment to provide prescriptive, specific guidance rather than generic security recommendations. This is especially relevant as AI-driven vulnerability discovery tools become more widely available: organizations with strong baselines will be able to act on new findings quickly and effectively.

Build a mechanism for continuous security improvement

As AI capabilities evolve, organizations benefit from having a repeatable process to assess and strengthen their security posture over time. SHIP establishes the methodology and mechanisms for your team to continuously assess, prioritize, and improve. By building this operational capability, you’re strengthening your organization’s ability to adapt and contributing to broader industry resilience. As the cybersecurity community integrates AI into defense strategies, SHIP helps you maintain foundational best practices so you can adopt these innovations effectively and with confidence.

Getting started is straightforward

SHIP is available today, at no cost, to every AWS customer. Here’s how to get started:

  1. Talk to your AWS account team. Ask about scheduling a SHIP engagement, or request one directly on the SHIP page.
  2. Attend a SHIP Activation Day. AWS regularly hosts hands-on workshops where you can run the SHIP assessment with AWS Solutions Architects and start building your improvement plan.
  3. Explore the prescriptive guidance. Consult the AWS Well-Architected Framework – Security Lens for documentation, reference architectures, and implementation guides you can start using today.

Take the next step together

AWS is committed to being the most secure cloud, from our participation in Project Glasswing to the security embedded in every layer of our infrastructure. Security is a shared responsibility, and programs like SHIP give customers the tools, guidance, and support to strengthen their security foundations so they can build confidently, no matter what comes next.

Ready to improve your security posture? Contact your AWS account team to schedule a SHIP engagement, or visit the SHIP resources page to learn more.

Celeste Bishop

Celeste Bishop

Celeste is a Senior Security Specialist at AWS, based in Austin, Texas. Over the past five years, she has held a range of security-focused roles spanning field and product marketing, developer relations, and executive engagement. She partners closely with customers, security leaders, and field teams to help organizations operate securely in the cloud. Celeste holds a Bachelor’s in Economics from the University of Texas at Austin.

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Designing trust and safety into Amazon Bedrock powered applications

Generative AI brings promising innovation, transforming how individuals and organizations approach everything from customer service to content creation and more. As AI continues to expand its capabilities, organizations are increasingly focused on how they can integrate the responsible AI concepts into the development lifecycle of their AI applications.

Research from Accenture and Amazon Web Services (AWS) reveals compelling evidence for the business value of responsible AI practices, both internally within their organizations and externally to their users. Organizations that communicate a mature approach to responsible AI see an 82% improvement in employee trust in AI adoption, which directly leads to increased innovation. Additionally, companies that offer responsible AI-enabled products and services experience a 25% increase in customer loyalty and satisfaction.

Understanding the core dimensions of responsible AI

AWS identifies these key dimensions that form the backbone of responsible AI implementation:

  • Safety focuses on preventing harmful system output and misuse. This dimension focuses on steering AI systems to prioritize user and system safety.
  • Controllability focuses on mechanisms that monitor and steer AI system behavior. This dimension refers to the ability to manage, guide, and constrain AI systems to operate within specific parameters.
  • Fairness considers the impacts of AI on different groups of users.
  • Explainability focuses on understanding and evaluating system outputs.
  • Security and privacy focuses on making sure that data and models are appropriately obtained, used, and protected.
  • Veracity and robustness focuses on achieving correct system outputs, even with unexpected or adversarial inputs.
  • Governance makes sure that development, deployment, and management of AI systems align with ethical standards, legal requirements, and societal values.
  • Transparency focuses on understanding how AI systems make decisions, why the systems produce specific results, and what data the systems use.

It’s a best practice to review and apply all these dimensions to your AI implementation. For more information, see Considerations for addressing the core dimensions of responsible AI for Amazon Bedrock applications.

The responsible AI lifecycle

When you implement AI systems, you should build safety into every phase of the AWS responsible AI lifecycle. The responsible AI lifecycle consists of the following three phases, each with distinct responsibility considerations for the safety dimension:

  1. In the design and development phases, thoroughly evaluate potential safety risks. Understand what you want your AI application to do, what you don’t want it to do, and what you want to prevent it from doing. You should build safety guardrails into your systems from the beginning and make sure that your development teams understand the capabilities and limits of your AI application.
  2. In the deployment phase, theory meets reality. During this phase, you should implement robust safety measures through multiple layers, from comprehensive user training to proactive monitoring and review processes. Every application, product, and feature must include clear safety protocols and user guidelines. You must think beyond the launch of an application and consider how to launch a holistic safety framework. This framework—which can contain steps such as red team testing—must protect your brand, users, and stakeholders.
  3. In the operations phase, it’s important to maintain vigilance. Safety, like security, isn’t something you set up once and then ignore. Safety requires continuous monitoring and adaptation. To catch potential safety issues early, you can implement real-time feedback mechanisms to conduct regular performance evaluations. You can also continuously monitor for shifts in how your application is used, or functions that could compromise safety. Because safety considerations and risks evolve as technology evolves, it’s crucial to understand that adjustments are necessary over time.

For more information, see the Responsible use of AI guide.

Abuse detection

Foundation models in Amazon Bedrock are inherently designed with safety mechanisms to prevent harmful outputs. However, you can implement additional input safety systems in production environments to provide critical early detection capabilities to identify problematic content, users, or patterns.

Note: Amazon Bedrock might implement automated abuse detection mechanisms to identify potential violations of the AWS Acceptable Use Policy (AUP) and Service Terms, including the Responsible AI Policy or a third-party model provider’s AUP.

See the Amazon Bedrock abuse detection document for more information.

AI abuse prevention tools and techniques

To maintain trust in your AI services, preventative action is key, while also efficiently planning and managing development resources. Introduce observability and safety guardrails early in development to support long-term scalability and help identify potential issues before they affect your users. To begin this process, thoroughly scope your AI use case with the following actions:

  • Understand your users
  • Anticipate potential misuse scenarios
  • Define your risk tolerance

This scope guides your development of a precise safety framework that addresses the specific risks of your AI implementation while you maintain expected performance. For this scope, you can use AWS specialized tools designed specifically to monitor and protect Amazon Bedrock applications.

Using CloudWatch to monitor Amazon Bedrock

Amazon CloudWatch provides essential visibility into AI system behavior and performance. When you configure comprehensive logging, you can capture important information across user segments and interaction types, such as the following:

  • Request volumes
  • Response latencies
  • Rejection rates
  • Content filtering triggers

You can use this information to identify potential abuse patterns or unexpected behaviors before they affect operations. CloudWatch dashboards visualize metrics according to monitoring priorities, and automated alerts provide prompt notification when you exceed thresholds. This infrastructure transforms interaction data into actionable insights and supports continuous safety improvement.

Note: By default, Amazon Bedrock logging is turned off. You must turn on logging for your application. To configure this, contact your account manager.

Using Amazon Bedrock Guardrails to customize safeguards

Amazon Bedrock Guardrails offers configurable protection mechanisms tailored to specific risk profiles and content policies. You can customize Bedrock Guardrails to match your application requirements, such as:

  • Define domain-relevant undesirable topics
  • Configure appropriate content filtering thresholds
  • Configure sensitive information detection and redaction parameters aligned with data policies

Additionally, you can configure controls that prioritize accuracy and prevent hallucinations while maintaining creative flexibility based on your application needs. When you thoughtfully configure Guardrails, you can balance performance and safety according to your specific use case requirements and risk factors.

The abuse response process

As AI safety evolves and new risks emerge, abuse might still occur even if you implement safety mechanisms. If you receive an abuse report from the AWS Trust & Safety team, then complete the following steps to help effectively address the issue:

  1. Acknowledge receipt: Acknowledge the receipt of the abuse report within 24 hours. If your team is still conducting their investigation, then inform AWS that the investigation is ongoing. Provide the number of days expected to complete the investigation.
  2. Investigate the issue: Thoroughly investigate the issue, including examining the logs (if enabled), reviewing Amazon Bedrock inputs, and checking for unauthorized access. While AWS abuse reports include a small sample of prompt IDs for you to investigate, investigate usage of your Amazon Bedrock application. Check for patterns to see if there’s a systemic issue that’s leading to abuse.
  3. Take appropriate action: If appropriate, take action to implement fixes, update safeguards, address violating users, or redesign features. Consider if you need systemic or root-cause fixes, rather than addressing one abusive end user. An abuse incident by one user could indicate vulnerabilities in your safety mechanisms that can lead to continuous abuse.
  4. Report back to AWS Trust & Safety: Following your investigation and implementation of fixes, provide an update to AWS Trust & Safety on your findings and remediation steps. Be transparent about what happened and how you addressed the issue. If you think that no violation occurred, then provide context on how you came to this conclusion. Include examples of the prompts and your business use case where possible.

Conclusion

To learn more about safety and responsible AI development, explore AWS resources, including the Responsible AI portal and machine learning best practices documentation. These resources provide additional tools and frameworks to build safe, effective AI systems that drive innovation and maintain safety standards.

Victor Lungu Victor Lungu
Victor is a Trust & Safety AI Abuse Specialist at AWS, based in Dublin. Victor works across a broad range of AI safety domains including content safety and emerging AI risks
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Building AI defenses at scale: Before the threats emerge

At AWS, we’ve spent decades developing processes and tools that enable us to defend millions of customers simultaneously, wherever they operate around the world. AI has been an extremely helpful addition to the automation our security and threat intelligence teams do every day, and we’re still early in this journey. Our AI-powered log analysis system has reduced the time SecOps engineers spend analyzing security logs from an average of six hours to just seven minutes, a 50x productivity increase that lets us detect and respond to threats faster than ever. Across AWS, we analyze over 400 trillion network flows per day to detect patterns that signal emerging threats. In 2025 alone, we blocked over 300 million attempts to maliciously encrypt customer files hosted on Amazon S3. At this scale, every improvement in our operations helps protect all customers. AI is already helping us make our defenses stronger for everyone, and I’m excited to see that improvement continue.

A new class of AI for cybersecurity

Today, Anthropic announced Project Glasswing, a cybersecurity initiative designed to secure the world’s most critical software and advance the cybersecurity practices the industry will need as AI grows more capable. Organizations that build or maintain critical digital infrastructure are getting early access to Claude Mythos Preview, a new class of AI model, to find and patch vulnerabilities in the systems the world depends on. Given our role in securing some of the world’s most essential infrastructure, AWS is playing an integral part in advancing this work.

As part of Project Glasswing, we’ve already applied Claude Mythos Preview to critical AWS codebases that undergo continuous AI-powered security reviews, and even in those well-tested environments, it’s helped us identify additional opportunities to strengthen our code. In our internal testing, Claude Mythos Preview has proven more productive than previous models at surfacing security findings, requiring less manual guidance from our engineers to deliver actionable results. We’ve also given early access to a select group of AWS customers, who are deploying Claude Mythos Preview in their own security workflows and helping shape how the model evolves.

As AI tools grow more powerful in their ability to identify security issues, so must our ability to use them defensively. To that end, we’ve been working closely with Anthropic to help ensure Claude Mythos Preview is ready for enterprise use. AWS is Anthropic’s primary cloud provider for mission-critical workloads, safety research, and foundation model development. More broadly, AWS provides the foundational infrastructure that the world’s leading AI companies rely on to build, train, and deploy their most advanced models. We’re bringing decades of security experience to this partnership, helping to ensure Claude Mythos Preview is ready for even more organizations to build upon and operate securely at scale.

Claude Mythos Preview signals an upcoming wave of models that can find vulnerabilities and build working exploits at a scale and speed we haven’t seen before. Anthropic and AWS are taking a deliberately cautious approach to release. Access begins with a small number of organizations, prioritizing internet-critical companies and open-source maintainers whose software and digital services impact hundreds of millions of users. The goal: find and fix vulnerabilities in the world’s most critical software. Claude Mythos Preview is available in gated research preview through Amazon Bedrock with enterprise-grade security controls, including customer-managed encryption, VPC isolation, and detailed logging, so your team can explore Claude Mythos Preview’s capabilities without exposing production assets to unnecessary risk.

AWS architects services with security at the core

Our work with Project Glasswing is grounded in a philosophy we’ve developed over two decades of securing mission-critical workloads: you can’t wait for threats to materialize before building your defenses. You have to look around corners, adopt new technologies, build protections first, deploy them in your own operations at scale, and refine them based on what you learn.

That’s exactly what we’ve done at AWS with AI and security. Our approach spans the full spectrum: proactive defense through threat hunting and vulnerability research, dynamic response to active campaigns, and third-party certifications that verify our security practices meet the highest industry standards. This operational experience has taught us where AI accelerates security work and where human judgment remains essential. And it’s reinforced that security innovation must be pragmatic: proven in production before we ask you to rely on it.

That’s also why we help define what secure AI looks like. We became the first major cloud provider to achieve ISO 42001 certification for AI services. We’re active participants in OWASP, the Coalition for Secure AI, and the Frontier Model Forum. And we co-founded the Open Cybersecurity Schema Framework (OCSF) to enable better threat intelligence sharing across the ecosystem. The AWS Nitro System provides mathematically proven isolation for workloads. Systems and services like KMS, Nitro, EKS, and Lambda are designed with zero-operator access architectures, meaning AWS personnel can’t access your data. These aren’t aspirational goals. They’re how we operate today, at scale, every day.

Amazon Bedrock is where these principles come to life for AI. Bedrock provides policy-enforced access controls, built-in evaluation tools to measure how effectively models identify and validate vulnerabilities, and the ability to run workloads inside your own virtual private cloud. AWS is also the first cloud provider to achieve FedRAMP High and Department of Defense Security Requirements Guide Impact Level 4 and 5 authorizations for generally available Claude foundation models. Amazon Bedrock is already where the most security-sensitive organizations trust Anthropic’s technology, and it makes perfect sense for Claude Mythos Preview.

How to get started today

The same principles that guide our work at AWS scale apply regardless of which AI tools you’re using: comprehensive observability, defense in depth, automation where it adds value, and human judgment where it’s essential. Here’s how to put them into practice.

Prepare for the next generation of AI security. Claude Mythos Preview signals an upcoming wave of AI models that will transform cybersecurity. Start strengthening your security posture now so your organization is ready as these capabilities become more broadly available. Claude Mythos Preview is available in gated preview through Amazon Bedrock, and access is limited to an initial allow-list of organizations. If your organization has been allow-listed, your AWS account team will reach out directly.

Run on-demand penetration testing with AWS Security Agent. Now generally available, AWS Security Agent delivers autonomous penetration testing that operates 24/7 at a fraction of the cost of manual penetration tests. It transforms penetration testing from a periodic bottleneck into an on-demand capability that scales with your development velocity across AWS, Azure, GCP, other cloud providers, and on-premises. AWS Security Agent represents a new class of frontier agents: autonomous systems that work independently to achieve goals, scale to tackle concurrent tasks, and run persistently without constant human oversight. It deploys specialized AI agents to discover, validate, and report security vulnerabilities through sophisticated multi-step scenarios. Unlike traditional scanners that generate findings without validation, AWS Security Agent identifies potential vulnerabilities, then attempts to exploit them with targeted payloads and attack chains to confirm they are legitimate security risks. Each finding includes CVSS risk scores, application-specific severity ratings, detailed reproduction steps, and remediation suggestions. The result: penetration testing that once took weeks now completes in hours, scales across your entire application portfolio, and helps you get started with remediation instead of leaving you with a report. New customers can explore AWS Security Agent with a 2-month free trial.

Build AI applications you can trust with Amazon Bedrock. For teams building with generative AI, the challenge isn’t just making AI work, it’s making AI work safely. Amazon Bedrock provides the security and safety controls you need to deploy AI responsibly. Its Automated Reasoning capability is the first and only AI safeguard to use formal logic to help prevent factual errors from hallucinations, providing verifiable explanations with 99% accuracy, a capability we’ve refined over more than a decade of applying formal methods across AWS storage, identity, and networking. Amazon Bedrock also provides customizable guardrails that block harmful content and enforce your content policies, along with comprehensive observability to track AI behavior and detect anomalies across your workloads.

The threat landscape isn’t waiting

The threat landscape isn’t waiting for us to catch up. Nation-state actors, ransomware operators, and supply chain attackers are already using AI to scale their operations. Our job is to stay ahead by building defenses first, deploying them at scale, and sharing what we learn so the entire community benefits.

That’s what we do every day at AWS. We build in security from the start, ensuring it works and scales before we ask customers to rely on it. We set standards rather than follow them. And we look around corners to address tomorrow’s challenges today.

As AI capabilities continue to evolve, this approach won’t change. We’ll keep building defenses first, refining them at scale, and working with partners like Anthropic to ensure the next generation of AI security tools meets the real-world needs of enterprises defending at this scale.

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Amy Herzog

Amy Herzog is Vice President and Chief Information Security Officer (CISO) at Amazon Web Services (AWS) where she leads a global organization of cloud security professionals in a company in which security is the top priority. Prior to joining AWS, Amy served as CISO for Amazon’s Devices and Services, Media and Entertainment, and Advertising businesses, overseeing the security of consumer technology offerings such as Alexa+ and Ring, and playing a key role in the secure development of Project Kuiper, Amazon’s initiative to provide fast, reliable broadband to customers and communities around the world through low earth orbit satellites.

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