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Vietnam to develop domestic cloud so it can ditch risky overseas operators for government workloads

13 May 2026 at 05:44
Vietnam has decided to develop its own cloud platform, so its government agencies can stop using foreign-owned services. Prime Minister Le Minh Hung last week announced the plan in Decision 808/QD-TTg, which lists 20 strategic technologies Vietnam wants to develop to improve its technological self-reliance and give its government the tools to tackle national challenges. Developing a national cloud computing platform is number 13 on the list. Machine translation of Decision 808 yields the following goals for the project: โ€œEnsuring national data sovereignty and cybersecurity for the digital government and key digital economic infrastructures; forming a centralized, secure, and reliable digital and data infrastructure to serve national digital transformation; gradually replacing foreign cloud services in state agencies, reducing the risk of data leaks and breaches of state secrets.โ€ The move is a sign that Vietnamโ€™s government, like many others, fears entanglements with cloud providers that may struggle to escape edicts from their home jurisdictions. Yet major hyperscalers Microsoft, Google, and Tencent Cloud are yet to build facilities in Vietnam. AWS will bring one of its lightweight Local Zones to Hanoi, Alibaba Cloud intends to build a datacenter, and Huawei Cloud has expressed interest in doing likewise. Vietnamโ€™s government wants more love from hyperscalers โ€“ the nationโ€™s Deputy PM recently met with AWS officials and called for greater co-operation. Yet any Vietnamese government workloads currently operating in a major hyperscaler violate the nationโ€™s own laws that require local storage of personal information! Other technologies Vietnam wants to develop include a large-scale Vietnamese language model, virtual assistants, and AI to power applications including cameras, credit risk management, and something that translates as โ€œa national smart education platform applying controlled AI.โ€ The nation also wants its own next-generation firewall; anti-malware software, a next-generation SIEM system, and an โ€œAI-integrated security operations center platform.โ€ Quantum-resistant encryption also makes the list, as does a โ€œuser and entity behavior analysis system.โ€ Rare earth processing is another capability Vietnam desires, as are 5G expertise, the ability to build and operate autonomous and industrial robots, and improved semiconductor design skills. Vietnam is in a hurry: Decision 808 set a 2030 deadline to get this all done. According to a Tuesday post to a government news platform, 2030 is also the year in which Hanoi expects all core government services will be online, and digital infrastructure enables outcomes such as โ€œEnsuring social welfare and supporting crime prevention and control, national security, and social order and safetyโ€ plus โ€œSupporting scientific research and innovation.โ€ And in 2035, Vietnam โ€œwill become a developed digital nationโ€ in which โ€œNational databases, with population data serving as the core, will be interconnected, shared, and effectively utilized to support the development of a smart government, enabling data-driven decision-making based on real-time information.โ€ Smart government will mean โ€œCitizens will benefit from personalized, automated, and convenient digital services tailored to different life events.โ€ What a time to be alive. ยฎ

Securing the UKโ€™s Digital Future

16 April 2026 at 10:00

Our Commitment to Data Autonomy and National Resilience

The United Kingdom has established itself as a leading global cyber power. Over the last decade, Palo Alto Networks has been proud to work alongside British institutions to protect the digital borders of a highly innovative economy. As UK organisations navigate an evolving threat landscape and adopt transformative technologies, like AI, the need for security partners who understand British operational realities has never been greater.

The Path to Digital Autonomy, Resilience and Control

Organisations today require more than a technology provider. They need a partner that understands the specific legal frameworks and strategic priorities of the British landscape. We are reaffirming our deep commitment to the UK, safeguarding British data as a core part of national resilience, even as both technology and cyber adversaries evolve.

The targeting of UK infrastructure is a daily operational reality. According to our Unit 42 2026 Global Incident Response Report, attackers are moving at unprecedented speed, with exfiltration speeds for the fastest attacks quadrupling in 2025. Identity weaknesses played a material role in almost 90% of Unit 42ยฎ investigations, as attackers increasingly exploit stolen credentials and fragmented identity systems to escalate privileges and move laterally. These threats span across all sectors, from NHS patient data to local government systems and energy networks.

UK organisations need partners who understand their unique requirements. While our broader European commitments provide a strong foundation, we recognise that the UK requires a dedicated focus across data protection, critical infrastructure security and public-private collaboration. This includes a deep-rooted local presence, aligning our operations with national standards of protection to support British ingenuity and ambition.

Control Over Your Data

Genuine data control requires two things: understanding exactly how and under which laws your information is handled and having the technical capabilities to enforce that control.

For UK customers, we provide the capability to host data within UK-based infrastructure, ensuring that critical data can be stored in regions that align with UK data protection requirements. Additionally, for applicable products and services, we offer Bring Your Own Encryption Keys (BYOK) capabilities, giving you direct control over the encryption protecting your data.

Our agreements are built to comply with UK GDPR requirements and include the necessary protections for any cross-border data transfers. But beyond contractual obligations, we operate on a fundamental principle: Your data serves only the purpose for which youโ€™ve engaged us.

How we handle different data categories:

1. Customer and Personal Data Are Processed Only to Serve You

We process your Customer Data and Personal Data exclusively to deliver the services you have purchased. This includes the content of your communications and files uploaded for support. The purpose is singular: delivering the security and protection youโ€™ve contracted us to provide.

2. Systems Data Is Used to Enhance Functionality and Collective Defence

To provide effective security, our products generate Systems Data, which includes technical logs, performance metrics and threat indicators. This information serves three main purposes: ensuring the day-to-day functionality of your services, enabling our teams to provide expert technical support and troubleshooting, and powering our global threat research capabilities.

When a new threat is detected against a specific UK sector, our entire network receives updated protection within minutes. This allows British organisations to benefit from global threat intelligence. We handle Systems Data in ways that preserve your operational privacy, ensuring the intelligence value comes from understanding threat patterns, not identifying individual organisations.

For detailed technical information on how we categorise and handle data, see our Customer Data, Personal Data and Systems Data whitepapers.

Transparency in Practice

We publish a biannual Transparency Report detailing all government and law enforcement data requests we receive. This isnโ€™t simply about compliance. Itโ€™s about providing UK organisations with verifiable evidence of how we handle requests, enabling informed risk assessment and governance oversight. For more information, please visit the Privacy Section in our Trust Center.

Securing Critical National Infrastructure

The UKโ€™s 13 sectors of Critical National Infrastructure represent the backbone of society. These sectors require security solutions built with an understanding of their unique threat models, from the specific requirements of an NHS trust to the challenges facing an energy provider.

We currently serve hundreds of UK public sector organisations across government, health and critical infrastructure sectors, which include the UK Government, UK Home Office and the Ministry of Justice.

Operational Resilience

For the UKโ€™s most critical services, operational resilience is paramount. Our security platforms are designed for high availability and reliability, helping organisations maintain continuous protection even during disruptions.

Trust and Transparency

Palo Alto Networks is deeply integrated into the UKโ€™s security ecosystem, ensuring our solutions exceed national benchmarks for resilience and transparency.

We hold Cyber Essentials Plus certification and align with the NCSC Cloud Security Principles, providing assurance to customers that we adhere to the highest security protocols to protect their most critical assets. As a Software Security Ambassador and a committed supporter of the NCSC Telecom Vendor Assessment, we are committed to enhancing the security of the UKโ€™s telecommunications and software supply chains.

Beyond compliance, our Unit 42 team serves as an NCSC-assured Cyber Incident Response (CIR) Enhanced Level provider, offering specialised incident support to help UK organisations navigate and recover from the most complex incidents. For customers with specific requirements, particularly in defence and national security, we can provide support from personnel in countries with compatible security standards and legal frameworks. We are committed to the Telecommunications Security Act (TSA) Code of Practice, supporting the resilience of the UKโ€™s public telecommunications networks.

Strengthening Local Expertise with National Impact

Our investment in the UK extends across our people, infrastructure and local expertise. Operating from our London hub, we remain deeply connected to the communities we serve and make a direct and indirect contribution to the UK economy. Our UK-based teams span engineering, threat research, professional services, policy and security strategy, and have a deep understanding of the UK market and the requirements of our customers. We also partner with NCSC CyberFirst and others on developing the next generation of cyber talent, and our Cyber Academy Program partners with universities and colleges all over the UK to train the next generation of cyber defenders.

A Partnership Built on Trust and Verifiable Commitments

The UKโ€™s digital autonomy increasingly depends on its ability to secure both cyber infrastructure and the emerging AI economy. This requires partnerships that serve the UKโ€™s long-term national interests, grounded in trusted institutions, local expertise and transparency that enables commitments to be verified, not simply asserted.

We recognise that the UKโ€™s cyber landscape is shaped by its legal framework, strategic priorities and threat environment. From protecting critical infrastructure to enabling the secure adoption of AI, organisations across the UK need to trust their security partner to deliver on their commitments. Palo Alto Networks is committed to maintaining and increasing that trust through verifiable action, transparency, accountability and an enduring partnership.

To learn more about our comprehensive commitment to digital trust, privacy and security, visit the Palo Alto Networks Trust Center.

The post Securing the UKโ€™s Digital Future appeared first on Palo Alto Networks Blog.

Introducing the Landing Zone Accelerator on AWS Universal Configuration and LZA Compliance Workbook

4 April 2026 at 23:35

November 20, 2025: Original publication date of this post. This post has been updated to reference the most recent version of the LZA Compliance Workbook published to AWS Artifact in March 2026.


Weโ€™re pleased to announce the availability of the latest sample security baseline from Landing Zone Accelerator on AWS (LZA)โ€”the Universal Configuration. Developed from years of field experience with highly regulated customers including governments across the world, and in consultation with AWS Partners and industry experts, the Universal Configuration was built to help you implement security and compliance at scale for on your regulated workloads. By setting a high bar with the latest AWS security best practices, the Universal Configuration can help address technical control requirements from compliance frameworks across different geographic regions and industry verticals. The Universal Configurationโ€™s multi-account security architecture provides a foundation to host your diverse workload requirements today along with providing the ability to explore the generative AI and agentic AI solutions that will shape your organization in the future. It can also replace months of complex planning and design by deploying a comprehensive security and compliance-driven environment based on AWS Well-Architected principles in a matter of hours.

As organizations grow, they typically pursue or must adhere to new security compliance certifications. LZA and the Universal Configuration help organizations of all sizes and phases in their security and compliance journey. The speed of deployment, step-by-step documentation, and compliance resources can reduce traditional assessment and authorization timelines by months and result in more predictable and successful audit outcomes. This enables more freedom to invest resources to grow the business instead of choosing between security and compliance tradeoffs.

The Universal Configuration helps organizations:

  • Automate the deployment of a secure multi-account AWS environment
    • Foundational security controls based on AWS Well-Architected best practices
    • Apply consistent and predictable security controls post-deployment
    • Enable and integrate with native AWS security, identity, and compliance services
  • Implement controls across system layers
    • Organization-wide security architecture
    • Perimeter and resource-specific preventative, proactive, and detective controls
    • Support for multi-AWS Region resilience, disaster recovery, and active failover
  • Establish a foundation for security and compliance readiness
    • Built-in AWS security best practices and technical implementation statements
    • Map LZA capabilities across global and industry-specific compliance frameworks
    • Deploy hundreds of controls hours instead of months

The LZA Compliance Workbook

The LZA engine has been a trusted tool for quickly deploying secure multi-account AWS environments for over 4 years. It is also cost effective because you pay only for the AWS services used to operate your environment. The Universal Configuration is the first sample configuration accompanied by the LZA Compliance Workbook available on AWS Artifact. It is a first-of-its-kind resource with detailed control mappings showing how the Universal Configuration can support different industries and regions, helping you address requirements from frameworks listed below.

  • NIST 800-53 Rev5
  • C5: 2020 (Germany)
  • HIPAA
  • SOC 2
  • CMMC Level 2
  • ISO/IEC 27001 Annex A
  • US Dept of War CCI
  • NERC-CIP
  • NIST 800-171
  • NATO D-32 Appendix B
  • NIST CSF 2.0
  • CIS Critical Controls v8

The LZA Compliance Workbook is regularly maintained to reflect the latest Universal Configuration baseline and will include additional compliance mappings in future releases. The workbook contains detailed security configuration descriptions based on the Universal Configuration deployment files, along with control requirement mappings and implementation statements that translate its security capabilities into a compliance-friendly format. By combining AWS security best practices with global compliance expertise, the Universal Configuration delivers predicable security outcomes while also helping you meet regional and industry requirements.

Getting started

To get started with the Landing Zone Accelerator on AWS Universal Configuration, the LZA Implementation Guide walks you through the steps, use cases, and considerations when deploying with LZA. You can download the LZA Compliance Workbook from AWS Artifact today and configure notifications to receive emails when future versions are released. You can view the deployment files and additional technical implementation guidance on the GitHub Universal Configuration sample and documentation page. Additionally, visit the AWS Partner Network (APN) for help with audit and advisory initiatives, cloud migrations, deploying the LZA Universal Configuration, and other services. You can visit the AWS Partner Finder tool and search by solution for Landing Zone Accelerator for the latest LZA Partner offerings.

If you have feedback about this post, submit comments in the Comments section below.

Kevin Donohue

Kevin Donohue

Kevin is a Senior Security Compliance Engineer at AWS, where he builds solutions and resources to help AWS customers achieve their security and compliance goals. Prior to joining the Landing Zone Accelerator team in AWS Professional Services in 2024, Kevin began his tenure with AWS Security in 2019 specializing in FedRAMP compliance and the shared responsibility model.

Christine Screnci

Christine Screnci

Christine is a Principal Technical Product Manager at AWS, where she specializes in developing and scaling enterprise-level solutions. Christine began her tenure with AWS in 2016 working with Worldwide Public Sector customers to improve the migration and modernization journey through globally scaled solutions. She is passionate about hypothesis-driven development and experimentation to improve customer experiences with AWS technologies.

Bhavish Khatri

Bhavish is a Senior Delivery Engineer at AWS, where he builds enterprise-scale solutions to help large organizations achieve their compliance goals. Bhavish started at AWS in 2018, specializing in multi-account AWS deployments and focusing on LZA and the Universal Configuration solution. He helps organizations build secure, scalable cloud environments that align with global compliance frameworks and regulatory requirements across diverse sectors.

Closing the Gap by Enhancing Visibility and Mitigating Risks

1 April 2026 at 10:00

In the race to digitise public services, the UKโ€™s digital estate has grown into a vast, borderless ecosystem that manual audits can no longer track. For UK Government departments, local authorities and NHS trusts, it is a sprawling, shifting landscape of cloud workloads, legacy infrastructure, shadow IT and third-party supplier connections.

This complexity creates blind spots that modern threats exploit. Recognising this vulnerability, the UK Government is moving toward a secure-by-design digital infrastructure, with the 2026 Government Cyber Action Plan (GCAP) setting a high bar for resilience. A central theme of the GCAP is the urgent need for the government to have better visibility of cyber security and resilience risk. Fundamentally, organisations cannot secure what they cannot see. As the GCAP explicitly states, the Government will use โ€œdata sources from across the government to truly understand government-wide and departmental cyber risks.โ€

The Challenge: Visibility in a โ€œLandscapeโ€

Many public sector organisations rely on a complex web of spreadsheets, data calls, legacy tools and manually curated lists to create an inventory of their internet-connected assets. But attackers do not look at an organisation's internal lists; they scan the internet for what they have forgotten to secure. Whether it is an unpatched server from a legacy project or a misconfigured database in a department, these "unknown unknowns" are the primary entry points for attackers.

The Strategic Mission: Empowering the Public Sector and Critical Industries

Palo Alto Networks Cortex Xpanseยฎ is an active external attack surface management (EASM) solution that provides an outside-in view of organisations' entire digital footprint. It helps leaders meet national resilience goals:

  • Comprehensive, Continuous Visibility: Xpanse scans the global internet space continuously and identifies every asset associated with an organisation, without requiring software agents to be installed on your systems.
  • Accelerate Response: Leveraging automation, the solution streamlines response processes and enhances collaboration across dispersed teams from the sharing of findings to tracking actions and remediation.
  • Supply Chain Integrity: Inline with the new Cyber Security and Resilience Bill (bringing managed service providers and critical third parties into scope), Xpanse allows organisations to assess the internet-facing security posture of third-party partners and suppliers, ensuring a weak link elsewhere doesn't compromise the broader mission.
  • Alignment with GovAssure: Xpanse provides a consolidated risk profile and inventory for all internet-facing and cloud assets required for GovAssure assessments, turning a manual, months-long audit process into a continuous, data-driven cycle.
  • Investment prioritisation: Xpanse provides that much needed visibility to help executive committees and boards prioritise investment decisions on legacy IT and technical debt.

Aligning to National Cybersecurity Centre (NCSC) Guidance

How external attack surface management products work.

Palo Alto Networks Cortex Xpanse aligns with the National Cyber Security Centre (NCSC) external attack surface management (EASM) buyer's guide by providing automated discovery, continuous monitoring and risk prioritisation of internet-facing assets. It replaces manual, point-in-time audits with a proactive, agentless solution. By automating the discovery of all internet-accessible assets (including shadow IT and unmanaged cloud operations) the platform fulfills the NCSCโ€™s core requirement for continuous global monitoring and rapid attribution. This data-driven approach allows for the automated prioritisation of critical exposures, such as RDP, and integrates seamlessly with multiple third-party automation and visualisation tools, including Cortex XSOARยฎ and XSIAM, to accelerate remediation with national incident response standards.

In fact, with Palo Alto Networks deployment of Cortex Xpanse, we were able to achieve a 95% reduction in external vulnerability management spending across more than 700,000 cloud instances, while improving coverage and outcomes.

Palo Alto Networks Cortex Xpanse Capabilities
  • Discover Assets: Leveraging organisations' known asset inventory and other data points, Xpanse performs continual, automated discovery of all internet-accessible assets, effectively eliminating blind spots created by shadow IT and unmanaged cloud operations.
  • Obtain Information: Always-on, continuous monitoring of an organisation's entire attack surface through daily scans of the global IP address space, ensuring that newly exposed services are identified quickly and accurately.
  • Perform Analysis: Xpanse automates and prioritises alerts on all identified risks by severity, enabling organisations to optimise resolution and risk management, allowing teams to properly allocate resources and focus on the most critical risks to the organisation.
  • Display Information and Provide Advice: Leveraging a unified view of the internet facing and cloud-based estate, Xpanse provides specific resolver guidance for every identified issue, supporting and monitoring automated resolution through multiple native integrations.
  • Monitor Risk: Always on, discreet continual monitoring provides an independent real time status of the digital estate. Leveraging the threat intelligence capabilities of Palo Alto Networks, Xpanse is uniquely positioned to provide rapid coverage for newly discovered vulnerabilities, exploits or misconfigurations.

Securing the public sector requires a move from manual, point in time assessments to data-driven intelligence. Cortex Xpanse provides the foundations to remove blind spots, secure the supply chain and prevent unknown vulnerabilities in the face of sophisticated threats.

For further information and case studies, visit the links below, or schedule a demo.

  • Palo Alto Networks: Slash false positives, remediation time budget with Cortex attack surface management.
  • U.S. Pentagon: Palo Alto Networks Cortex Xpanse supercharge the Cyber Defences for the Department of Defense.
  • Accenture: Secure rapid growth with Cortex Xpanse.

The post Closing the Gap by Enhancing Visibility and Mitigating Risks appeared first on Palo Alto Networks Blog.

How the National Cyber Strategy Secures Our Digital Way of Life

6 March 2026 at 21:59

A Pivotal Moment for National Security

As the digital landscape undergoes profound shifts, the recently released National Cyber Strategy provides the essential foundation for enduring American leadership. By prioritizing the disruption of hostile actors, future-proofing networks, accelerating quantum readiness, and securing the AI frontier, the strategy provides the strategic clarity necessary to protect our digital way of life from sophisticated adversaries. Palo Alto Networks commends National Cyber Director Sean Cairncross for his leadership and looks forward to working with the administration to operationalize this strategy.

Each pillar of the strategy galvanizes meaningful action to advance our collective defense:

Shape Adversary Behavior (Pillar 1)

This signals a decisive shift toward the proactive disruption of malicious actors. The Trump Administration has made clear that the U.S. Government should impose real costs on adversaries to change their behavior. While the private sector is already executing discrete disruptions against malicious actors, coordination has historically been fragmented. The strategy identifies that increased collaboration with private sector entities, who possess unique insight into adversary behavior, can in turn enable more impactful deterrence.

Promote Common Sense Regulation (Pillar 2)

The strategy appropriately recognizes that complexity is the enemy of security. A focus on measurable improvements in cyber outcomes (versus check-the-box compliance exercises) collectively makes us all safer. While much attention is rightfully paid toward harmonizing incident reporting requirements, which Palo Alto Networks wholeheartedly supports, letโ€™s not stop there. The federal government can lead by example by consolidating and streamlining federal government software compliance certifications. For example, there should be logical reciprocity between FedRAMP High and DoW IL-5 certifications.

Modernize and Secure Federal Government Networks (Pillar 3)

In addition to the necessary attention on AI-powered cyber defense, cloud security and zero trust network architecture, Palo Alto Networks applauds the discrete focus on quantum-safe security ahead of โ€œQ-Day,โ€ the point where quantum computing capabilities will compromise legacy public key encryption that has underpinned cybersecurity for decades. As Federal CISO Mike Duffy recently stated, "Modernization without considering PQC readiness or cryptographic agility is really creating technical debt in the future, something that we donโ€™t want to see ever.โ€

To address this challenge, Palo Alto Networks provides a structured quantum-safe framework organized into four stages:

  • Continuous Discovery โ€“ Automating ecosystem ingestion to identify cryptographic dependencies.
  • Risk Assessment & Prioritization โ€“ Evaluating vulnerabilities to establish a data-driven remediation roadmap.
  • Comprehensive Remediation โ€“ Executing the transition to post-quantum algorithms across the architecture.
  • Governance & Crypto-Hygiene โ€“ Maintaining long-term visibility and management.

The bottom line is that 2035 is too late. Quantum readiness must accelerate today, and this strategy will set a critical North Star to drive the necessary urgency.

Secure Critical Infrastructure (Pillar 4)

Critical infrastructure resilience is central to our homeland security, economic security, public health and safety. Unfortunately, critical infrastructure entities are increasingly under assault from emboldened cyber adversaries.

In fact, Palo Alto Networks research shows some form of operational disruption in up to 86% of major cyber incidents. Our 2026 Global Incident Response Report underscores another sobering reality: These entities are under assault from all angles. In 87% of cyber incidents, attacks targeted multiple attack surfaces, which spanned the network, cloud, endpoints and identity.

Recognizing that you canโ€™t secure what you canโ€™t see, we need a national-level effort to identify, prioritize and harden the critical infrastructure that the American people depend upon. This strategy puts an important marker in the ground to revitalize those efforts.

Sustain Superiority in Critical and Emerging Technologies (Pillar 5)

Palo Alto Networks was pleased to see the strategy reinforces the core tenets of the AI Action Plan, emphasizing that "secure-by-design" principles for AI technologies are non-negotiable and that AI adoption and AI security can and must be inexorably linked.

Enterprises should be able to deploy AI confidently without fear of data leakage, model tampering or rogue AI agents. However, despite our research showing an 88% success rate of โ€œjailbreakingโ€ techniques against widely deployed AI models, only 6% of organizations currently have an AI security strategy. Itโ€™s time to flip this paradigm and put defenders back in the driverโ€™s seat in this AI-first moment.

To support this emerging consensus around the importance of promoting AI security, we developed the Secure AI by Design Policy Roadmap. This framework provides a four-part construct to evaluate the evolving dimensions of threats to AI systems. Palo Alto Networks is also proud to make its comprehensive AI security suite, Prismaยฎ AIRSโ„ข, available to all federal agencies at substantial discounts through GSAโ€™s OneGov Initiative.

Build Talent and Capacity (Pillar 6)

Recognizing Americaโ€™s cyber workforce as a โ€œstrategic asset,โ€ the strategy calls for a pragmatic and accessible pipeline for developing talent. The explicit recognition that we should take advantage of existing avenues across government, industry and academia is important. For example, Palo Alto Networks is proud of the impact of its Cybersecurity Academy โ€“ that provides free, NIST Framework-aligned curricula covering essential domains, such as cybersecurity fundamentals, enterprise and network security, cloud security, security operations and the AI/cybersecurity nexus.

Resources like this, and those for other entities, can form the basis of a renewed focus on cyber talent development.

Turning Strategic Vision Into Action

Palo Alto Networks views itself as more than a cybersecurity vendor. We see ourselves as an integrated national security partner of the federal government at a moment when defending our digital way of life demands all of us working together. To that end, we are ready to do our part to turn strategic vision into action.

This strategy should be applauded. Letโ€™s roll up our sleeves and get to work.

The post How the National Cyber Strategy Secures Our Digital Way of Life appeared first on Palo Alto Networks Blog.

2025 PiTuKri ISAE 3000 Type II attestation report available with 183 services in scope

3 March 2026 at 18:17

Amazon Web Services (AWS) is pleased to announce the issuance of the Criteria to Assess the Information Security of Cloud Services (PiTuKri) Type II attestation report with 183 services in scope.

The Finnish Transport and Communications Agency (Traficom) Cyber Security Centre published PiTuKri, which consists of 52 criteria that provide guidance across 11 domains for assessing the security of cloud service providers.

An independent third-party audit firm issued the report to assure customers that the AWS control environment is appropriately designed and operating effectively to demonstrate adherence with PiTuKri requirements. This attestation demonstrates the AWS commitment to meet security expectations for cloud service providers set by Traficom.

The latest report covers a 12-month period from October 1, 2024 to September 30, 2025. AWS has added the following five services to the current PiTuKri scope:

Customers can find the PiTuKri ISAE 3000 report on AWS Artifact. AWS Artifact is a self-service portal for on-demand access to AWS compliance reports. Sign in to AWS Artifact in the AWS Management Console, or learn more at Getting Started with AWS Artifact.

Security and compliance is a shared responsibility between AWS and the customer. When customers move their computer systems and data to the cloud, security responsibilities are shared between the customer and the cloud service provider. For more information, see the AWS Shared Security Responsibility Model.

To learn more about our compliance and security programs, see AWS Compliance Programs. As always, we value your feedback and questions; reach out to the AWS Compliance team through the Contact Us page.

If you have feedback about this post, submit comments in the Comments section below

Tariro Dongo Tariro Dongo
Tari is a Security Assurance Program Manager at AWS, based in London. Tari is responsible for third-party and customer audits, attestations, certifications, and assessments across EMEA. Previously, Tari worked in security assurance and technology risk in the big four and financial services industry over the last 15 years.

Empowering the RAF Association with Next-Generation Cyber Resilience

3 February 2026 at 19:00

Palo Alto Networks is proud to enter a strategic partnership with the RAF Association.

For over 90 years, the Royal Air Forces Association (RAFA) has championed a simple yet profound belief: No member of the RAF community should ever be left without the help they need. Serving personnel, veterans and their families, the RAF Association provides crucial welfare support, responding to increasingly complex needs in an era of operational changes and challenges, including persistent global deployment.

Delivering on their mission today requires not only compassion and expertise but also resilient digital foundations. To strengthen and future-proof its operations, RAFA has entered into a strategic partnership with Palo Alto Networks. Together, we are modernising the Association's cyber security posture through a secure-by-design, zero trust architecture to enhance organisational resilience, secure sensitive beneficiary data, and improve operational agility. This helps ensure they can focus on their mission of support, not security management.

As Nick Bunting OBE, Secretary General at the RAF Association, puts it:

Cybersecurity is essential to safeguarding the trust people place in our organisation. This transformation will give us greater protection for our data and systems, ensuring that our services remain dependable and that our organisation is secure, resilient and ready for the future. Strong digital security is not just a technical requirement, it is a fundamental part of how we uphold our duty of care to every individual who relies on us.

RAFA and Palo Alto Networks team.
RAF Association & Palo Alto Networks Team (left to right): Gareth Turner, Tom Brookes, Nick Bunting OBE, Phil Sherwin, Ali Redfern, Darren Bisbey, Alistair Wildman

Securing the Mission

The RAF Association operates in a distributed environment comprising headquartersโ€™ functions, remote caseworkers, and more than 20 RAFAKidz nursery sites, supported by a growing portfolio of cloud-based services. In this context, cybersecurity is not simply an IT concern. It is a safeguarding imperative.

Disruption to systems or a compromise of sensitive beneficiary data could directly impact RAFAโ€™s ability to deliver services and maintain the trust of the communities it supports. By consolidating fragmented legacy tools into a unified platform, this partnership ensures the Associationโ€™s digital evolution aligns security controls with GDPR obligations and safeguarding requirements.

Digital Resilience with a Unified Platform for Visibility and Control

To support RAFA's lean IT operational model, this transformation will move them away from fragmented legacy tools toward a unified platform approach. The deployment of Prismaยฎ SASE (secure access service edge) and Cortex XDRยฎ will provide RAFA with consistent visibility and control across users, devices, applications and data, regardless of location. This consolidation replaces complexity with clarity, allowing the organisation to inspect traffic for threats in real-time. Security policies are now enforced continuously, threats are detected and contained faster, and access to critical systems is governed by zero trust principles without compromising the user experience.

As Phil Sherwin, Chief Information Officer, at the RAF Association states:

Our data is one of our most valuable assets and the protection of that data, as we continue to provide life-changing support to members of the RAF community, is our most important priority. This partnership will move us into the next generation of security tools that adopt zero trust principles and is a crucial step on our journey to providing a layered approach to data protection.

One of the most critical aspects of this modernisation is supporting RAFAโ€™s diverse workforce, particularly within the RAFAKidz nursery sites. These environments rely on nondesk-based staff using iPads and mobile devices to get their critical work done.

Using zero touch provisioning and the Prisma Browserโ„ข, we are enabling secure, seamless connectivity for unmanaged devices. This ensures that nursery staff can access necessary SaaS applications safely without complex login hurdles or manual configuration, improving their agility and allowing them to focus on caring for children rather than troubleshooting technology.

Creating Operational Advantage by Scaling Operations with AI and Automation

As a charity, RAFA has a responsibility to ensure resources are used efficiently. A critical goal of this partnership is to improve productivity and allow the organisation to scale its services without increasing the IT burden.

By adopting Strataโ„ข Cloud Manager with AIOps (artificial intelligence for IT operations), RAFA is shifting from reactive security operations to proactive, automated management. Machine learning helps identify configuration risks and performance issues before they affect users, while standardized policies enable the secure, consistent onboarding of new sites. This shift is projected to significantly reduce operational overhead, enabling RAFA to scale its support network cost-effectively. This shift is projected to reduce operational overhead by 40โ€“50%.

A Resilient Future

This partnership is about more than deploying technology. It is about ensuring RAFA remains resilient, trusted and capable of supporting the RAF community for decades to come.

As Darren Bisbey, Head of Group Information Security for the RAF Association, puts it:

We live in an era where digital threats are accelerating in both scale and sophistication, creating unprecedented challenges for organisations. Our partnership with Palo Alto is a statement of intent, reflecting our unwavering commitment to building the most secure environments possible for our data.

At Palo Alto Networks, we are honored to support RAFA in this journey, providing the digital armour and operational advantage necessary to protect those who serve and have served.

As Alistair Wildman, Palo Alto Networks CEO for Northern Europe states:

For over 90 years, RAFA has been a lifeline for the RAF community; it is our privilege to ensure that legacy endures in a digital-first world. By embracing a unified, AI-driven platform, RAFA is moving beyond complex, fragmented security to a posture that is Secure by Design. This partnership allows them to navigate todayโ€™s threat landscape with confidence, ensuring their resources remain focused where they belong: on the families who need them.


Key Takeaways

  1. Digital Resilience โ€“ Strategic Shift to Zero Trust Architecture: RAFA is modernizing its cybersecurity posture by implementing a comprehensive zero trust architecture. This transition involves moving from fragmented legacy tools to a unified platform approach, deploying Prismaยฎ SASE and Cortex XDR for 360-degree visibility and complete control over access and traffic.
  2. Interoperability โ€“ Secure, Seamless Access for Diverse Workforce: The partnership ensures operational agility by simplifying security for nondesk-based staff, particularly at the RAFAKidz nursery sites. Solutions like Zero-Touch Provisioning and the Prisma Access Browser enable secure, seamless connectivity for unmanaged devices, allowing nursery staff to focus on their critical work without complex login or configuration issues.
  3. Creating Operational Advantage โ€“ Efficiency and Scalability through AI and Automation: RAFA is leveraging technology to scale services efficiently and reduce operational overhead. By using Strata Cloud Manager with AIOps (Artificial Intelligence for IT Operations), the organization can shift to proactive management and automating remediation, which is projected to reduce operational overhead by 40โ€“50%.

The post Empowering the RAF Association with Next-Generation Cyber Resilience appeared first on Palo Alto Networks Blog.

2026 Public Sector Cyber Outlook: Identity, AI and the Fight for Trust

28 January 2026 at 15:00

The early weeks of 2026 have already made one thing clear: Government cybersecurity is in a new phase, shaped not by incremental change, but by the rapid integration of AI into core public-sector missions. AI systems are now embedded in critical infrastructure, federal service delivery, research environments, as well as state and local operations. At the same time, nation-state adversaries are leveraging AI to accelerate intrusion, scale deception and manipulate trusted systems in ways not possible even a year ago.

As Senior Vice President of Public Sector at Palo Alto Networks, I see a decisive shift underway. Defending the public sector in 2026 means navigating a world where security depends on verifying identity, securing data and governing AI-driven systems that act without human intervention. Success now hinges on architectures that assume automation, operations that prioritize coordination, and governance frameworks capable of managing AI at mission scale.

Here are the developments that will define the year ahead.

Federal Government

1. AI-Native Security Must Become Integral to Federal Operations

AI in federal environments is no longer an experiment. Agencies are now designing workflows, SOC missions and cloud architectures around AI-driven detection and response. The emphasis is shifting from supplementing human analysts to building systems that maintain visibility, correlate threats, and respond autonomously when human capacity is limited. This builds on what we forecasted last year, when federal cybersecurity teams began using AI to replace manual workflows and drive down detection and response times.

The shift will be practical. Federal teams must plan to deploy AI systems that correlate logs, identify behavioral anomalies, prioritize threats, and suppress noise before analysts ever see an alert. Manual, ticket-based workflows will no longer meet federal timelines for investigation or reporting, particularly as adversaries automate more phases of attack.

2. Identity Emerges as the Central Federal Security Challenge

The biggest shift in 2026 will be the collapse between โ€œidentityโ€ and โ€œattack surface.โ€ Deepfake technologies now operate in real time. AI-generated voices and video can impersonate senior leaders at a level undetectable by traditional controls. Machine identities continue to proliferate; they will outnumber human identities this year. And autonomous agents can initiate high-impact actions without human oversight. This reflects a broader crisis of authenticity now reshaping how enterprises defend identity itself.

Identity abuse will no longer be limited to credential theft. This turns identity into a systemic risk. One compromised identity (human, machine or agent) can cascade through automated systems with little friction. Federal programs will need to prioritize continuous identity verification, stronger proofing and governance frameworks that validate the legitimacy of both human and AI-driven activity.

3. AI Systems Must Be Secure-by-Design

Stemming from the clear mandate in the AI Action Plan (and subsequent work by NIST to develop an AI/Cyber Profile on top of the existing Cybersecurity Framework) agencies will steadily integrate AI security into their deployment of AI technologies.

This imperative is critical as AI systems are susceptible to novel threats. Data poisoning of training sets, manipulated inputs and hidden instructions in untrusted datasets compromise the intelligence that agencies rely on for analysis, planning and mission support. To support the security of this AI-first moment, Palo Alto Networks was proud to make its AI security platform, Prismaยฎ AIRSโ„ข, available through the GSA OneGov initiative.

4. Nation-State Operations Expand Through AI Automation

Adversaries will use AI to compress the time between reconnaissance, exploitation and lateral movement. We expect rapidly increasing the use of AI to chain vulnerabilities, tailor social engineering campaigns, and generated malware variants that adapt in real time.

The focus will broaden beyond IT networks. AI will be used to disrupt OT systems and target sensitive research environments. Foreign intelligence services will weaponize AI to blur the line between intrusion and information operations, producing hybrid campaigns that attack both systems and the legitimacy of institutions.

5. Autonomous SOC Capabilities Become Essential

Federal SOCs will evolve from human-centered command centers to hybrid operations where autonomous agents run major components of the detection and response mission. These agents will triage alerts, enforce containment, and initiate predefined responses.

This evolution comes with risk. AI agents with broad authority can be misused or manipulated if not properly governed. Agencies will need safeguards to track agent behavior, enforce least privilege on agents, and prevent misuse through runtime monitoring and โ€œAI firewallโ€ controls designed to stop malicious prompts and unauthorized actions. The same pressures are shaping enterprise security, where controls like AI firewalls and circuit breaker mechanisms are becoming standard practice. Automation will only strengthen federal security if paired with rigorous oversight and continuous validation of agent activity.

6. Shared and Federated SOC Structures Gain Momentum

As threats scale, agencies will increasingly operate through shared or federated security structures. Instead of isolated SOCs, agencies will adopt analytics layers capable of correlating activity across departments and exchanging findings in real time.

This shift will reduce redundancy and provide faster insight into nation-state campaigns that cross federal boundaries. Early adopters will establish shared analytic and response frameworks that allow agencies to coordinate without sacrificing mission-specific control. Civilian agencies will lead early adoption with broader participation across defense and national security stakeholders expected later in the year.

7. The Post-Quantum Deadline Becomes Immediate

In 2026, post-quantum cryptography planning will move to implementation. Accelerated advances in quantum computing and AI-based cryptanalysis will push agencies to transition from pilot efforts to mandated modernization.

Agencies will focus on discovering where vulnerable algorithms are used, replacing outdated libraries, and implementing crypto-agility so systems can evolve without major redesigns. Systems with unpatchable cryptographic components will be flagged for full replacement, forcing agencies to reconcile years of accumulated โ€œcrypto debt.โ€

8. Data Trust and Cloud Workload Protection Become Priority Missions

The rise of AI workloads will force agencies to rethink how they protect data. Infrastructure controls alone cannot detect when training data has been manipulated or when model outputs no longer reflect real-world conditions.

Agencies will unify developer and security workflows and use tools like Data Security Posture Management and AI security posture management (AI-SPM) to track data lineage and enforce protections at runtime. Enterprises are addressing the same issue by bringing development and security teams together under shared data governance models. Ensuring model trustworthiness will become a mission-support requirement, not just a security objective.

9. Platform Consolidation Becomes Necessary

Fragmented tools cannot support the visibility and oversight required for AI governance. Executives will push for platform consolidation to unify network, identity, cloud, endpoint and AI security. Integrated platforms will gain favor because they enable consistent policy enforcement and a single operational picture across increasingly automated environments.

State, Local and Educational Institutions

1. AI Adoption Splits SLED into Distinct Tiers

In 2026, disparities in funding and technical capacity will widen. Some states will deploy AI across security operations, citizen services and identity verification. Others will struggle to maintain legacy systems.

Well-resourced jurisdictions will reduce response times and improve resilience. Underfunded ones will remain exposed to ransomware and disruption. Without targeted modernization efforts, a national divide in SLED cybersecurity maturity will deepen.

2. Regional Models Become the Practical Path Forward

Silos are no longer sustainable. SLED organizations will rely on shared SOCs, regional threat intelligence hubs and coordinated incident response agreements. States will formalize partnerships to share expertise, reduce costs and defend interconnected systems. This evolution represents the maturation of the โ€œteam sportโ€ mentality we predicted in 2025. These models reflect operational reality: Compromised data or infrastructure in one jurisdiction often creates immediate risk for its neighbors.

3. Higher Education Redesigns Its Security Baseline

Universities will classify cybersecurity alongside energy, research infrastructure and physical security as essential institutional functions. Secure browser adoption, stronger vendor oversight and centralized identity governance will become the norm.

AI research environments will receive increased scrutiny, and universities participating in federally funded research will face stricter compliance requirements to prevent data poisoning and model manipulation. Institutions with large research portfolios will prioritize securing lab environments where AI models are trained and evaluated.

4. Kโ€“12 Systems Enter a New Phase of Security Oversight

States will introduce new security mandates for Kโ€“12 environments, covering MFA, network segmentation, secure browsers, identity verification and foundational zero trust principles. AI-enabled ransomware will remain a threat. Smaller districts will adopt managed services or regional support structures as they confront growing operational and compliance demands. Districts that modernize identity controls and browser security will significantly reduce their exposure compared to those reliant on legacy tools. Building on the regulatory momentum we predicted in 2025, Kโ€“12 institutions will continue moving from defensive posture to proactive security adoption.

5. Local Governments Face Escalating AI-Driven Ransomware

Municipal governments remain high-value targets due to limited staffing and aging infrastructure. AI gives threat actors the ability to automate reconnaissance, craft targeted phishing messages, and identify vulnerabilities with little effort.

Attacks timed to public safety incidents or weather emergencies will increase, meaning local governments will need stronger identity controls, automated endpoint protection and access to managed detection and response. Operational continuity will depend on reducing time-to-detect and time-to-contain, capabilities that smaller municipalities cannot achieve without external support.

6. Managed Services and Platform Consolidation Become Standard

As technical demands grow, SLED organizations will move toward managed SOC models and consolidated vendor ecosystems. Platforms that integrate data protection, threat detection, identity governance and AI oversight will gain traction. Point tools without interoperability will decline. Budget-constrained environments will favor comprehensive platforms that reduce operational burden and simplify compliance.

7. Identity and Data Trust Become Central SLED Priorities

SLED organizations manage sensitive student records, election data and social services information. These environments are increasingly strained by the rapid growth of machine identities and AI-driven applications.

Synthetic identities and AI-generated credentials will be used to infiltrate systems with limited oversight. Continuous identity verification, data lineage tracking and posture management will become essential to prevent fraud, service disruption and data manipulation. Identity assurance and data integrity will become the foundation of public trust at the state and local level.

The post 2026 Public Sector Cyber Outlook: Identity, AI and the Fight for Trust appeared first on Palo Alto Networks Blog.

Securing the AI Frontier

4 December 2025 at 15:14

Why the GSA OneGov Agreement Is a Game-Changer for Federal Cybersecurity

The mission to modernize government IT is accelerating at lightning speed, largely thanks to the transformative power of artificial intelligence (AI). Federal agencies are strategically leveraging AI to boost efficiency, enhance citizen services, and strengthen national security โ€“ a vision fully supported by the administrationโ€™s AI Action Plan.

At Palo Alto Networks, we are all-in on helping agencies deploy AI bravely and securely. Because the challenge isn't just about using AI for cyberdefense, but also about defending AI itself. We appreciate the U.S. General Services Administration (GSA) recognizing the critical need for scalable, efficient solutions.

That is precisely why the GSA OneGov Initiative is a massive, game-changing step forward. We are proud to be the first pure-play cybersecurity vendor to secure a OneGov agreement with the GSA. This strategic alliance simplifies and standardizes the process for agencies to access our world-class, AI-powered security platform, ensuring security is foundational to this crucial modernization mission.

The Wake-Up Call: The Silent Threat of AI Agent Corruption

If you needed a clear sign that AI has fundamentally shifted the cybersecurity landscape, our own Unit 42 research provides it. The new reality isn't just about hackers using AI in their attacks; itโ€™s also about how internal AI provides another attack surface for threat actors.

The most insidious new threat we've observed is AI Agent Smuggling, where malicious attackers use AI agents to exploit other agents. Our Unit 42 research highlights two major vectors:

  • Indirect Prompt Injection: A security risk in LLMs where a user crafts input containing deceptive instructions to manipulate the modelโ€™s behavior, which can lead to unauthorized data access or unintended actions.
  • Agent Session Smuggling: Exploit vulnerabilities in agent-to-agent communication, injecting malicious instructions into a conversation, hiding them among otherwise benign client requests and server responses.

This confirms our core belief as stated in a recent secure AI by Design blog: The AI ecosystem (the models, data and infrastructure) is now a complex, expanding attack surface that traditional perimeter defenses were simply not designed to protect.

As Iโ€™ve said before, โ€œIf youโ€™re deploying AI, you must deploy AI security.โ€

Secure AI by Design: A Strategic Alliance with GSA

The GSAโ€™s OneGov Initiative aims to streamline procurement and drive down costs by leveraging the purchasing power of the entire federal government. This is more than an agreement; itโ€™s a direct response to the call for a "secure-by-design" approach to federal AI adoption. This agreement simplifies and standardizes the process for agencies to access our world-class, AI-powered security platform, ensuring that security is foundational, not an afterthought. It provides industry leading AI security tools into the hands of our cyber defenders today.

Under the Hood: Technical Capabilities for the AI Ecosystem

To counter the autonomous threats weโ€™re seeing, we provide a platform that protects the entire AI lifecycle, from the developer's keyboard to the data center.

1. Runtime Protection for AI Workloads

Securing the AI supply chain requires visibility across every stage, especially during runtime when models are processing sensitive data.

  • Prismaยฎ AIRSโ„ข delivers comprehensive security for the entire AI lifecycle, in one unified platform. It allows organizations to deploy traditional apps as well as AI applications, models and agents with confidence by reducing risk from misuse, data loss and sophisticated AI-driven threats. Prisma AIRS provides a clear, connected view of assets in multicloud environments, so teams can eliminate silos, accelerate responses, as well as scale cloud and AI apps securely.
  • Our Cloud-Native Application Protection Platform (CNAPP) has achieved the FedRAMP High designation, making it the preferred Code to Cloudโ„ข solution to secure the entire application lifecycle from development to runtime. Our industry-leading CNAPP eliminates silos to deliver comprehensive visibility and best-in-class protection across multicloud environments.

2. Protecting Users and Data at the Edge

Even the most advanced AI defenses are undermined if users accessing applications and data are left vulnerable outside corporate security boundaries. The explosive growth of generative AI tools and the unseen behavior of AI agents are amplifying data exposure risks.

  • Prisma SASE (secure access service edge) secures all users, apps, devices and data, no matter where they are and no matter where applications reside.
    • Prisma Access (FedRAMP High Authorized) and Prisma Browserโ„ข (FedRAMP-Moderate Authorized) integrate security capabilities, like zero trust network access (ZTNA), secure web gateway (SWG) and cloud access security broker (CASB), to provide a unified policy framework and a consistent user experience.
  • This approach helps agencies outpace the speed of AI-driven threats, safeguarding critical data and simplifying operations for a frictionless user experience. It ensures that the human element interacting with the AI is protected by the most stringent security controls available.

Deploy AI Bravely

The GSA OneGov agreement is a pivotal moment that provides federal agencies with the cost-effective, streamlined access they need to deploy AI with confidence. By leveraging our unified, AI-powered platform, government organizations can stop reacting to threats and start building secure-by-design AI environments. We are committed to remaining a key partner in this strategic initiative and helping the government achieve its mission outcomes safely.

For more information and access to promotional offers for new contracts signed on or before January 31, 2028, federal agencies can visit the GSA OneGov website.

The post Securing the AI Frontier appeared first on Palo Alto Networks Blog.

Bridging Cybersecurity and AI

Modernizing Vulnerability Sharing for a New Class of Threats

In cybersecurity, vulnerability information sharing frameworks have long assumed that conventional threats exploit flaws in software or systems, and they can be resolved with patches or configuration updates. AI and machine learning (ML) models upend that premise as adversarial attacks, like poisoning and evasion, target the unique way AI models process information. Consequently, the risks for AI systems include tactics like model poisoning (from evasion attacks) in datasets and training, which are not conventional software vulnerabilities. These new vulnerabilities fall outside the scope of traditional cybersecurity taxonomies like the Common Vulnerabilities and Exposures (CVE) Program.

There is a need to bridge the gap between the existing cybersecurity vulnerability sharing structure and burgeoning efforts to catalog security risks to AI systems. Provisions in the White House AI Action Plan, which Palo Alto Networks supports, call for the creation of an AI Information Sharing and Analysis Center (AI-ISAC), reinforcing the importance of addressing that disconnect. This integration is essential, as leveraging the existing, widely adopted cybersecurity infrastructure will be the fastest path to ensuring these new standards are accepted and operationalized.

Established Construct for Vulnerability Management and Disclosure

The global cybersecurity community relies on a mature infrastructure for sharing standardized vulnerability intelligence. Central to this ecosystem is the CVE List, established in 1999 as the authoritative catalog of cybersecurity vulnerabilities. Through CVE IDs and a network of CVE Numbering Authorities (CNAs), this framework enables consistent vulnerability documentation and disclosure.

Similarly, the Common Vulnerability Scoring System (CVSS) provides standardized severity assessments, allowing security teams to prioritize responses. Together with resources like the National Vulnerability Database (NVD) and CISAโ€™s KEV Catalog catalog, these tools form the backbone of global vulnerability management, information sharing and coordinated disclosure.

Why AI Breaks the Traditional Model

While this infrastructure has served the cybersecurity community effectively for over two decades, it was designed around traditional threat models that AI systems substantially upend. Attacks on AI systems represent a critical departure from traditional cybersecurity threats as they operate insidiously, subtly corrupting core reasoning processes, causing persistent, systemic failures, some of which only become evident over time. Most traditional cybersecurity tools are not equipped to recognize those breakdowns because they assume deterministic behavior and rules-based logic. AI systems defy those assumptions because AI is probabilistic, not deterministic. Consequently, attacks on AI models may remain hidden for extended periods.

Unlike traditional cybersecurity threats that target code, adversarial AI attacks target the underlying data and algorithms that govern how AI systems learn, reason and make decisions. Consider the following predominant adversarial attack methodologies on machine learning:

  • Poisoning attacks inject malicious data into training datasets, corrupting the model's learning process and creating deliberate vulnerabilities or degraded performance.
  • Inference-related attacks exploit model outputs to extract sensitive information or learn about its training data. This includes model inversion, which reconstructs sensitive data from the model's outputs, as well as membership inference, which identifies whether specific data points were used in training.

The expansion of existing security frameworks and programs is necessary to cover the enumeration, disclosure and downstream management of security risks to AI systems.

Advancing AI Security Through the AI Action Plan

In July, the Administration unveiled the AI Action Plan, an innovation-first framework balancing AI advancement with security imperatives. The Plan prioritizes Secure-by-Design AI technologies and applications, strengthened critical infrastructure cybersecurity and protection of commercial and government AI innovations.

Notably, it recommends establishing an AI Information Sharing and Analysis Center (AI-ISAC) to facilitate threat intelligence sharing across U.S. critical infrastructure sectors and encourages sharing known AI vulnerabilities, โ€œtak[ing] advantage of existing cyber vulnerability sharing mechanisms.โ€ These provisions affirm that AI security underpins American leadership in the field and, where possible, should be built upon existing frameworks.

Redefining Boundaries for AI Threats

To position the CVE Program for the AI-driven future, Palo Alto Networks is engaging directly with industry and program stakeholders to chart the path forward. Traditionally, the CVE Program serves as an ecosystem-wide central warning system. It provides a unified source of truths for security risks. A security risk catalog and identification system are needed for AI systems, as they currently fall outside the traditional scope of the CVE Program that has focused exclusively on vulnerabilities rather than on malicious components. The historical aperture of the current CVE Program excludes harmful artifacts, such as backdoored AI models or poisoned datasets, which represent fundamentally different attack vectors, in turn creating security blind spots.

Securing AIโ€™s Promise

The United States leads in AI innovation and must equally lead in securing it. As momentum builds behind the AI Action Plan and the establishment of the AI-ISAC, we have a critical window to shape information sharing frameworks of the future. The goal is to ensure that cybersecurity and AI security infrastructure advance in unison with the technology itself. Integrating new AI vulnerability standards into trusted frameworks like the CVE Program aligns with industry focus and needs. Through proactive, coordinated action, we can unlock AIโ€™s full promise while safeguarding the models that are embedded in the critical systems on which our nation depends.

The post Bridging Cybersecurity and AI appeared first on Palo Alto Networks Blog.

From the Hill: The AI-Cybersecurity Imperative in Financial Services

18 December 2025 at 15:00

The transformative potential of artificial intelligence (AI) across industries is undeniable. But realizing AI's true value hinges on three cybersecurity imperatives: Understanding the AI-cybersecurity nexus, harnessing AI to supercharge cyber defense, and embedding security into AI tools from the ground up through Secure AI by Design.

Nowhere is this convergence more urgent than in financial services. Sitting at the center of our global economy, financial institutions face a dual mandate: Embrace AI for cybersecurity and cybersecurity for AI.

I was honored to cover these key principals in my testimony before the House Committee on Financial Services, led by Chairman French Hill. The hearing, entitled โ€œFrom Principles to Policy: Enabling 21st Century AI Innovation in Financial Servicesโ€ convened witnesses from Palo Alto Networks, Google, NASDAQ, Zillow and Public Citizen. Together, we examined AI use cases in the financial services and housing sectors, including those specific to cybersecurity. We assessed how existing laws and frameworks apply in the age of AI.

The Defense Advantage Is AI-Powered Security Operations

Attacks have become faster, with the time from compromise to data exfiltration now 100 times faster than four years ago. The financial sector bears disproportionate risk, given the value of its data and interconnected systems, while firms contend with evolving regulatory expectations, talent shortages and the persistent tendency to elevate cybersecurity only after an incident.

Generative and agentic AI intensify these pressures by accelerating every phase of the attack chain, from deepfake-driven fraud to tailored spear phishing campaigns. Our researchers at Unit 42ยฎ have found that agentic AI, autonomous systems that can reason and act without human intervention, can compress what was once a multiday ransomware campaign into roughly 25 minutes.

To keep pace, financial institutions must pivot to AI-driven defenses that operate at machine speed.

Security operations centers (SOC) have long been overwhelmed by traditional alerts and fragmented data. Security teams, forced into manual triage across dozens of disparate tools, face an inefficient model that leaves vulnerabilities exposed, burns out analysts and makes it impossible to operate at the speed necessary to outpace modern attacks.

The average enterprise SOC ingests data from 83 security solutions across 29 vendors. In 75% of breaches, logging existed that should have flagged anomalous behavior, but critical signals were buried. With 90% of SOCs still relying on manual processes, adversaries have the clear advantage.

AI-driven SOCs flip this paradigm, acting as a force multiplier to substantially reduce detection and response times. To illustrate the scale of this necessity, consider our own security operations. Palo Alto Networks SOC analyzes over 90 billion events daily. Without AI, this would be an impossible task for human analysts. But by applying AI, we distill that down to a single actionable incident.

Financial institutions migrating to AI-driven SOC platforms are seeing transformative results:

  • One customer reduced the Mean Time to Respond (MTTR) from one day to 14 minutes.
  • Another prevented 22,831 threats and processed 113,271 threat indicators in less than 5 seconds.
  • A large bank saved 180 hours per year by automating security information and event management reporting; 500 hours through automated data collection; 360 hours by automating four Chief Technology Officer playbooks; and 240 hours with automated threat intelligence enrichment.

These improvements are critical to stopping threat actors. But none of this would be possible without AI.

Securing the New AI Attack Surface

As AI adoption grows, it will further expand the attack surface, creating new vectors targeting training data and model environments. AI's rapid growth is outpacing the adoption of security measures designed to protect it. Nearly three-quarters of S&P 500 companies now flag AI as a material risk in their public disclosures, up from just 12% in 2023.

Traditional security tools rely on static rules that miss advanced attacks, like multistep prompt injections or adversarial manipulations. Autonomous AI agents can take unpredictable actions that are difficult to monitor with legacy methods.

Rapid AI adoption has exposed organizations' infrastructure, data, models, applications and agents to unique threats. Unlike traditional cyber exploits that target software vulnerabilities, AI-specific attacks can manipulate the foundation of how an AI system learns and operates.

A Secure AI by Design

Even with an understanding of the risks, many organizations struggle with the lack of clarity on what effective AI security looks like in practice. Recognizing the gap between intent and execution, Palo Alto Networks developed a Secure AI by Design policy roadmap that provides organizations with a comprehensive roadmap that integrates security throughout the entire AI lifecycle.

A proactive stance ensures security is a feature, not an afterthought, crucial for building trust, maintaining compliance and mitigating risks. The approach addresses four imperatives organizations most pressingly face in AI adoption:

1. Secure the use of external AI tools.

2. Secure the underlying AI infrastructure and data.

3. Safely build and deploy AI applications.

4. Monitor and control AI agents.

The Path Forward

For financial institutions, Secure AI by Design must be anchored in enterprise governance. Institutions should maintain risk-tiered AI inventories, enforce strict access controls and implement testing commensurate with risk. Governance structures should enable board oversight and align with established model risk practices.

Policymakers also have a critical role to play in promoting AI-driven security operations, championing voluntary Secure AI by Design frameworks, ensuring policies safeguard innovation, enabling controlled experimentation and strengthening public-private collaboration.

Ultimately, the financial institutions that will thrive will recognize cybersecurity as the foundation that makes innovation possible. By embracing AI-driven defenses and securing AI systems from the ground up, the sector can confidently unlock AI's transformative potential while safeguarding the trust and stability that underpin the global economy.

Read the full testimony to learn more about how cybersecurity can enable AI innovation in financial services.

The post From the Hill: The AI-Cybersecurity Imperative in Financial Services appeared first on Palo Alto Networks Blog.

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