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Cloud threats increased by 95 percent in 2022 alone! At a time when many organizations are moving their resources to the cloud and... Cloud Security Cloud Security Architecture: Methods, Frameworks, & Best Practices Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 8/8/23 Published Cloud threats increased by 95 percent in 2022 alone! At a time when many organizations are moving their resources to the cloud and security threats are at an all-time high, focusing on your cloud security architecture has never been more critical. While cloud adoption has revolutionized businesses, it has also brought complex challenges. For example, cloud environments can be susceptible to numerous security threats. Besides, there are compliance regulations that you must address. This is why it’s essential to implement the right methods, frameworks, and best practices in cloud environments. Doing so can protect your organization’s sensitive cloud resources, help you meet compliance regulations, and maintain customer trust. Understanding Cloud Security Architecture Cloud security architecture is the umbrella term that covers all the hardware, software, and technologies used to protect your cloud environment. It encompasses the configurations and secure activities that protect your data, workloads, applications, and infrastructure within the cloud. This includes identity and access management (IAM), application and data protection, compliance monitoring, secure DevOps, governance, and physical infrastructure security. A well-defined security architecture also enables manageable decompositions of cloud deployments, including mixed SaaS, PaaS, and IaaS deployments. This helps you highlight specific security needs in each cloud area. Additionally, it facilitates integration between clouds, zones, and interfaces, ensuring comprehensive coverage of all deployment aspects. Cloud security architects generally use a layered approach when designing cloud security. Not only does this improve security, but it also allows companies to align business needs with technical security practices. As such, a different set of cloud stakeholders, including business teams and technical staff, can derive more value. The Fundamentals of Cloud Security Architecture Every cloud computing architecture has three core fundamental capabilities; confidentiality, integrity, and availability. This is known as the CIA triad. Understanding each capability will guide your efforts to build, design, and implement safer cloud environments. 1. Confidentiality This is the ability to keep information hidden and inaccessible to unauthorized entities, such as attackers, malware, and people in your organization, without the appropriate access level. Privacy and trust are also part of confidentiality. When your organization promises customers to handle their data with utmost secrecy, you’re assuring them of confidentiality. 2. Integrity Integrity means that the services, systems, and applications work and behave exactly how you expect. That is, their output is consistent, accurate, and trustworthy. If these systems and applications are compromised and produce unexpected or misleading results, your organization may suffer irreparable damage. 3. Availability As the name implies, availability assures your cloud resources are consistently accessible and operational when needed. So, suppose an authorized user (whether customers or employees) needs data and applications in the cloud, such as your products or services. In that case, they can access it without interruption or significant downtime. Cybercriminals sometimes use denial-of-service (DoS) attacks to prevent the availability of cloud resources. When this happens, your systems become unavailable to you or your customers, which isn’t ideal. So, how do you stop that from happening and ensure your cloud security architecture provides these core capabilities? Approaches to Cloud Security Architecture There are multiple security architecture approaches, including frameworks and methodologies, to support design and implementation steps. Cloud Security Frameworks and Methodologies A cloud security framework outlines a set of guidelines and controls your organizations can use when securing data, applications, and infrastructures within the cloud computing environment. Frameworks provide a structured approach to detecting risks and implementing appropriate security protocols to prevent them. Without a consistent cloud security framework, your organization exposes itself to more vulnerabilities. You may lack the comprehensive visibility to ensure your data and applications are adequately secure from unauthorized access, data exposure, malware, and other security threats. Plus, you may have limited incident response capabilities, inconsistent security practices, and increased operational risks. A cloud security framework also helps you stay compliant with regulatory requirements. Lastly, failing to have appropriate security frameworks can erode customer trust and confidence in your ability to protect their privacy. This is why you must implement a recognized framework to significantly reduce potential risks associated with cloud security and ensure the CIA of data and systems. There are numerous security frameworks. Some are for governance (e.g., COBIT and COSO), architecture (e.g., SABSA), and the NIST cybersecurity framework. While these generally apply broadly to technology, they may also apply to cloud environments. Other cloud-specific frameworks include the ISO/IEC 27017:2015, Cloud Control Matrix (CCM), Cloud Security Alliance, and the FedRAMP. 1. NIST Cybersecurity Framework (NIST CSF) The National Institute of Standards and Technology’s Cybersecurity Framework (NIST CSF) outlines a set of guidelines for securing security systems. It has five core capabilities: Identify, Protect, Detect, Respond, and Recover. Identify – What processes, assets, and systems need protection? Protect – Develop and implement the right safeguards to ensure critical infrastructure services delivery. Detect – Implement the appropriate mechanisms to enable the timely discovery of cybersecurity incidents. Respond – Develop techniques to contain the impact of potential cybersecurity incidents. Recover – Implement appropriate measures to restore business capabilities and services affected by cybersecurity events. While the NIST CSF is a general framework for the security of your organization’s systems, these five pillars can help you assess and manage cloud-related security risks. 2. ISO/IEC 27017:2015 ISO 27017 is a cloud security framework that defines guidelines on information security issues specific to the cloud. The framework’s security controls add to the ISO/IEC 27002 and ISO/IEC 27001 standards’ recommendations. The framework also offers specific security measures and implementation advice for cloud service providers and applications. 3. Sherwood Applied Business Security Architecture (SABSA) First developed by John Sherwood, SABSA is an Enterprise Security Architecture Framework that provides guidelines for developing business-driven, risk, and opportunity-focused security architectures to support business objectives. The SABSA framework aims to prioritize your business needs, meaning security services are designed and developed to be an integral part of your business and IT infrastructure. Here are some core principles of the Gartner-recommended SABSA framework for enterprises: It is business-driven. SABSA ensures security is integrated into your entire business strategy. This means there’s a strong emphasis on understanding your organization’s business objectives. So, any security measure is aligned with those objectives. SABSA is a risk-based approach. It considers security vulnerabilities, threats, and their potential impacts to prioritize security operations and investments. This helps your organization allocate resources effectively to address the most critical risks first. It promotes a layered security architecture. Earlier, we mentioned how a layered approach can help you align business and technical needs. So, it’s expected that this is a core principle of SABSA. This allows you to deploy multiple security controls across different layers, such as physical security, network security, application security, and data security. Each layer focuses on a specific security aspect and provides special controls and measures. Transparency: SABSA provides two-way traceability; that is, a clear two-way relationship exists between aligning security requirements and business goals. This provides a clear overview of where expenditure is made ad the value that is returned. Modular approach: SABSA offers agility for ease of implementation and management. This can make your business flexible when meeting changing market or economic conditions. 4. MITRE ATT&CK The MITRE ATT&CK framework is a repository of techniques and tactics that threat hunters, defenders, red teams, and security architects can use to classify, identify, and assess attacks. Instead of focusing on security controls and mechanisms to mitigate threats, this framework targets the techniques that hackers and other threat actors use in the cloud. So, using this framework can be excellent if you want to understand how potential attack vectors operate. It can help you become proactive and strengthen your cloud security posture through improved detection and incident response. 5. Cloud Security Alliance Cloud Controls Matrix (CSA CCM) The CSA CCM is a cybersecurity control framework specifically for cloud computing. It contains 197 control objectives structured in 17 domains that cover every critical aspect of cloud technology. Cloud customers and cloud service providers (CSPs) can use this tool to assess cloud implementation systematically. It also guides customers on the appropriate security controls for implementation by which actor in the cloud supply chain. 6. Cloud Security Alliance Security Trust Assurance and Risk (CSA STAR) The CSA STAR framework is for CSPs. It combines the principles of transparency, thorough auditing, and harmonization of standards. What CSA STAR does is to help you, as a cloud customer, assess a cloud service provider’s reliability and security posture. There are two ways this can happen: CSA STAR Certification: This is a rigorous third-party assessment of the CSP’s security controls, posture, and practices. The CSP undergoes a thorough audit based on the CSA’s Cloud Control Matrix (CCM), which is a set of cloud security controls aligned with industry standards. CSA STAR Self-Assessment: The CSA also has a Consensus Assessment Initiative Questionnaire (CAIQ). CSPs can use this to test and report on their security controls and practices. Since it’s a self-assessment procedure, it allows CSPs to be transparent, enabling customers like you to understand a CSP’s security capabilities before adopting their services. Challenges and Considerations in Cloud Security Architecture Before any cloud deployment, it’s important to understand the threats you may face, such as privilege-based attacks and malware, and be prepared for them. Since there are many common threats, we’ll quickly run through the most high-profile ones with the most devastating impacts. It’s important to remember some threats may also be specific to the type of cloud service model. 1. Insider risks This includes the employees in your organization who have access to data, applications, and systems, as well as CSP administrators. Whenever you subscribe to a CSP’s services, you entrust your workloads to the staff who maintain the CSP architecture. 2. DoS attacks Direct denial-of-service (DDoS) attacks are critical issues in cloud environments. Although security perimeters can deflect temporary DDoS attacks to filter out repeated requests, permanent DoS attacks are more damaging to your firmware and render the server unbootable. If this happens, you may need to physically reload the firmware and rebuild the system from the ground up, resulting in business downtime for weeks or longer. 3. Data availability You also want to consider how much of your data is accessible to the government. Security professionals are focusing on laws and examples that demonstrate when and how government authorities can access data in the cloud, whether through legal processes or court rulings. 4. Cloud-connected Edge Systems The concept of “cloud edge” encompasses both edge systems directly connected to the cloud and server architecture that is not directly controlled by the cloud service provider (CSP). To extend their services to smaller or remote locations, global CSPs often rely on partners as they cannot have facilities worldwide. Consequently, CSPs may face limitations in fully regulating hardware monitoring, ensuring physical box integrity, and implementing attack defenses like blocking USB port access. 5. Hardware Limitations Having the most comprehensive cloud security architecture still won’t help you create stronger passwords. While your cloud security architects focus on the firmware, hardware, and software, it’s down to the everyday users to follow best practices for staying safe. Best Practices in Cloud Security Architecture The best practices in Cloud Security Architecture are highlighted below: 1. Understand the shared responsibility model Cloud security is implemented with a shared responsibility model. Although, as the cloud customer, you may have most of the obligation, the cloud provider also shares some of the responsibility. Most vendors, such as Amazon Web Services (AWS) and Microsoft Azure, have documentation that clearly outlines your specific responsibilities depending on the deployment type. It’s important to clearly understand your shared responsibility model and review cloud vendor policies. This will prevent miscommunications and security incidents due to oversight. 2. Secure network design and segmentation This is one of the principles of cloud security architecture – and by extension, a best practice. Secure network design and segmentation involve dividing the network into isolated segments to avoid lateral movements during a breach. Implementing network segmentation allows your organization to contain potential risks and attacks within a specific segment. This can minimize the effects of an incident on your entire network and protect critical assets within the cloud infrastructure. 3. Deploy an Identity and access management (IAM) solution Unauthorized access is one of the biggest problems facing cloud security. Although hackers now use sophisticated tools to gain access to sensitive data, implementing a robust identity and access management (IAM) system can help prevent many threats. Consider access policies like role-based access control (RBAC) permissions, multi-factor authentication (MFA), and continuous threat monitoring. 4. Consider a CASB or Cloud Security Solution (e.g., Cloud-Native Application Protection (CNAPP) and Cloud Workload Protection Platforms (CWPP) Cloud Access Security Brokers (CASBs) provide specialized tools to enforce cloud security policies. Implementing a CASB solution is particularly recommended if you have a multi-cloud environment involving different vendors. Since a CASB acts as an intermediary between your organization’s on-premise infrastructure and CSPs, it allows your business to extend security policies and controls to the cloud. CASBs can enhance your data protection through features like data loss prevention, tokenization, and encryption. Plus, they help you discover and manage shadow IT through visibility into unauthorized cloud services and applications. Besides CASB solutions, you should also consider other solutions for securing your cloud environments. This includes cloud-native application protection (CNAPP) and cloud workload protection platforms (CWPP). For example, a CNAPP like Prevasio can improve your cloud security architecture with tailored solutions and automated security management. 5. Conduct Audits, Penetration Testing, and Vulnerability Testing Whether or not you outsource security, performing regular penetration tests and vulnerability is necessary. This helps you assess the effectiveness of your cloud security measures and identify potential weaknesses before hackers exploit them. You should also perform security audits that evaluate cloud security vendors’ capabilities and ensure appropriate access controls are in place. This can be achieved by using the guidelines of some frameworks we mentioned earlier, such as the CSA STAR. 6. Train Your Staff Rather than hiring new hires, training your current staff may be beneficial. Your employees have been at your company for a while and are already familiar with the organization’s culture, values, and processes. This could give them an advantage over new hires. As most existing IT skills can be reused, upskilling employees is more efficient and may help you meet the immediate need for a cloud IT workforce. Train your staff on recognizing simple and complex cybersecurity threats, such as creating strong passwords, identifying social engineering attacks, and advanced topics like risk management. 7. Mitigate Cloud Misconfigurations A misconfigured bucket could give access to anyone on the internet. To minimize cloud misconfigurations and reduce security risks, managing permissions in cloud services carefully is crucial. Misconfigurations, such as granting excessive access permissions to external users, can enable unauthorized access and potential data breaches. Attackers who compromise credentials can escalate their privileges, leading to further data theft and broader attacks within the cloud infrastructure. Therefore, it is recommended that IT, storage, or security teams, with assistance from development teams, personally configure each cloud bucket, ensuring proper access controls and avoiding default permissions. 8. Ensure compliance with regulatory requirements Most organizations today need to comply with strict regulatory requirements. This is especially important if you collect personally identifiable information (PII) or if your business is located in certain regions. Before you adopt a new cloud computing service, assess their compliance requirements and ensure they can fulfill data security needs. Failure to meet compliance requirements can lead to huge penalties. Other best practices for your cloud security include continuous monitoring and threat intelligence, data encryption at rest and in transit, and implementing intrusion detection and intrusion prevention systems. Conclusion When establishing a robust cloud security architecture, aligning business objectives and technical needs is important. Your organization must understand the shared responsibility model, risks, the appropriate implementation framework, and best practices. However, designing and developing cloud computing architectures can be complicated. Prevasio can secure your multi-cloud environment in minutes. Want to improve your cloud security configuration management? Prevasio’s agentless CNAPP can provide complete visibility over cloud resources, ensure compliance, and provide advanced risk monitoring and threat intelligence. Speak to us now. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Mastering hybrid security with AlgoSec Cloud Enterprise Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

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Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow... Risk Management and Vulnerabilities Bridging the DevSecOps Application Connectivity Disconnect via IaC Anat Kleinmann 2 min read Anat Kleinmann Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/7/22 Published Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow teams to take a preventive approach to secure application connectivity . With customer demands changing at breakneck speed, organizations need to be agile to win in their digital markets. This requires fast and frequent application deployments, forcing DevOps teams to streamline their software development processes. However, without the right security tools placed in the early phase of the CI/CD pipeline, these processes can be counterproductive leading to costly human errors and prolonged application deployment backups. This is why organizations need to find the right preventive security approach and explore achieving this through Infrastructure-as-Code. Understanding Infrastructure as Code – what does it actually mean? Infrastructure-as-Code (Iac) is a software development method that describes the complete environment in which the software runs. It contains information about the hardware, networks, and software that are needed to run the application. IAC is also referred to as declarative provisioning or automated provisioning. In other words, IAC enables security teams to create an automated and repeatable process to build out an entire environment. This is helpful for eliminating human errors that can be associated with manual configuration. The purpose of IaC is to enable developers or operations teams to automatically manage, monitor and provision resources, rather than manually configure discrete hardware devices and operating systems. What does IaC mean in the context of running applications in a cloud environment When using IaC, network configuration files can contain your applications connectivity infrastructure connectivity specifications changes, which mkes it easier to edit, review and distribute. It also ensures that you provision the same environment every time and minimizes the downtime that can occur due to security breaches. Using Infrastructure as code (IaC) helps you to avoid undocumented, ad-hoc configuration changes and allows you to enforce security policies in advance before making the changes in your network. Top 5 challenges when not embracing a preventive security approach Counterintuitive communication channel – When reviewing the code manually, DevOps needs to provide access to a security manager to review it and rely on the security manager for feedback. This can create a lot of unnecessary back and forth communication between the teams which can be a highly counterintuitive process. Mismanagement of DevOps resources – Developers need to work on multiple platforms due to the nature of their work. This may include developing the code in one platform, checking the code in another, testing the code in a third platform and reviewing requests in a fourth platform. When this happens, developers often will not be alerted of any network risk or non-compliance issue as defined by the organization. Mismanagement of SecOps resources – At the same time, network security managers are also bombarded with security review requests and tasks. Yet, they are expected to be agile, which is impossible in case of manual risk detection. Inefficient workflow – Sometimes risk analysis process is skipped and only reviewed at the end of the CI/CD pipeline, which prolongs the delivery of the application. Time consuming review process – The risk analysis review itself can sometimes take more than 30 minutes long which can create unnecessary and costly bottlenecking, leading to missed rollout deadlines of critical applications Why it’s important to place security early in the development cycle Infrastructure-as-code (IaC) is a crucial part of DevSecOps practices. The current trend is based on the principle of shift-left, which places security early in the development cycle. This allows organizations to take a proactive, preventive approach rather than a reactive one. This approach solves the problem of developers leaving security checks and testing for the later stages of a project often as it nears completion and deployment. It is critical to take a proactive approach since late-stage security checks lead to two critical problems. Security flaws can go undetected and make it into the released software, and security issues detected at the end of the software development lifecycle demand considerably more time, resources and money to remediate than those identified early on. The Power of IaC Connectivity Risk Analysis and Key Benefits IaC connectivity risk analysis provides automatic and proactive connectivity risk analysis, enabling a frictionless workflow for DevOps with continuous customized risk analysis and remediation managed and controlled by the security managers. IaC Connectivity Risk Analysis enables organizations to use a single source of truth for managing the lifecycle of their applications. Furthermore, security engineers can use IaC to automate the design, deployment, and management of virtual assets across a hybrid cloud environment. With automated security tests, engineers can also continuously test their infrastructure for security issues early in the development phase. Key benefits Deliver business applications into production faster and more securely Enable a frictionless workflow with continuous risk analysis and remediation Reduce connectivity risks earlier in the CI/CD process Customizable risk policy to surface only the most critical risks The Takeaway Don’t get bogged down by security and compliance. When taking a preventive approach using a connectivity risk analysis via IaC, you can increase the speed of deployment, reduce misconfiguration and compliance errors, improve DevOps – SecOps relationship and lower costs Next Steps Let AlgoSec’s IaC Connectivity Risk Analysis can help you take a proactive, preventive security approach to get DevOps’ workflow early in the game, automatically identifying connectivity risks and providing ways to remediate them. Watch this video or visit us at GitHub to learn how. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

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The new alliance is designed to meet the growing needs of AlgoSec’s partners and customers to maintain their competitiveness by delivering enhanced services AlgoSec Teams with TD SYNNEX to Take Partner and Customer Service to New Heights The new alliance is designed to meet the growing needs of AlgoSec’s partners and customers to maintain their competitiveness by delivering enhanced services October 2, 2022 Speak to one of our experts RIDGEFIELD PARK, N.J., October 3, 2022 – AlgoSec, a global cybersecurity leader in securing application connectivity, has announced its new alliance with TD SYNNEX, a leading global distributor and solutions aggregator for the IT ecosystem. This partnership will enable AlgoSec’s partners to leverage a whole host of customer-centric resources. These include extended partner support and key customer touchpoint services through TD SYNNEX’s expansive distribution channels. AlgoSec partners working through TD SYNNEX Security Solutions will benefit from: Expedited SLAs on all AlgoSec quotes and orders within less than one business day Quarter-end extended hours Access to a dedicated AlgoSec Product Manager from SYNNEX AlgoSec Partners will still have AlgoSec Channel Managers. In addition, AlgoSec customers will enjoy an enhanced service offering, including: Hands-on cybersecurity expertise through TD SYNNEX Cyber Range Dedicated security focused team Pre-sales engineering support Vulnerability assessments, Bill of Materials (BoM), design Proof of Concept (PoC) “We are excited to add AlgoSec to our portfolio of products. Securing applications and managing policy management across hybrid networks is a major challenge for IT teams.” said Scott Young, Sr. Vice President, Strategic Procurement, TD SYNNEX. Jim Fairweather, AlgoSec VP Channels adds “I am fully confident that our partnership with TD SYNNEX will enable our channel partners to accelerate time to market and improve overall support to meet customer demands”. About AlgoSec  AlgoSec, a global cybersecurity leader, empowers organizations to secure application connectivity by automating connectivity flows and security policy, anywhere.  The AlgoSec platform enables the world’s most complex organizations to gain visibility, reduce risk and process changes at zero-touch across the hybrid network.   AlgoSec’s patented application-centric view of the hybrid network enables business owners, application owners, and information security professionals to talk the same language, so organizations can deliver business applications faster while achieving a heightened security posture.  Over 1,800 of the world’s leading organizations trust AlgoSec to help secure their most critical workloads across public cloud, private cloud, containers, and on-premises networks, while taking advantage of almost two decades of leadership in Network Security Policy Management.  See what securely accelerating your digital transformation, move-to-cloud, infrastructure modernization, or micro-segmentation initiatives looks like at www.algosec.com About TD SYNNEX TD SYNNEX (NYSE: SNX) is a leading global distributor and solutions aggregator for the IT ecosystem. We’re an innovative partner helping more than 150,000 customers in 100+ countries to maximize the value of technology investments, demonstrate business outcomes and unlock growth opportunities. Headquartered in Clearwater, Florida, and Fremont, California, TD SYNNEX’ 22,000 co-workers are dedicated to uniting compelling IT products, services and solutions from 1,500+ best-in-class technology vendors. Our edge-to-cloud portfolio is anchored in some of the highest-growth technology segments including cloud, cybersecurity, big data/analytics, IoT, mobility and everything as a service. TD SYNNEX is committed to serving customers and communities, and we believe we can have a positive impact on our people and our planet, intentionally acting as a respected corporate citizen. We aspire to be a diverse and inclusive employer of choice for talent across the IT ecosystem. For more information, visit www.TDSYNNEX.com or follow us on Twitter , LinkedIn , Facebook and Instagram .

Streamline network management with AlgoSec Application Discovery. Gain visibility into application connectivity to optimize performance and enhance security policies. AlgoSec application discovery Enhance the discovery of your network applications Overview AlgoSec application discovery enhances the identification of business applications and services based on actual traffic flows and generates an up-to-date connectivity map for all applications. Schedule a Demo Introduction Business applications rely on a complex set of connectivity flows, spanning multiple servers and networks. Companies often struggle to identify their applications and the network traffic flows their applications depend on due to a lack of up-to-date documentation. Utilizing AI-powered solutions, AlgoSec helps understand the relationship between IT and business, which is critical when business applications are moved or migrated. Schedule a Demo Automatic discovery of flows and applications Utilize AI to automatically discover your traffic flows, connect them to your network applications, and accelerate application discovery. AlgoSec application discovery helps you: ANALYZE and VISUALIZE your network traffic IMPROVE your firewall performance and management AUTOMATICALLY document traffic changes Use AI to IDENTIFY the applications running on your network Schedule a Demo Key benefits Accelerate application delivery with AI-powered solutions Reduce the cost of manual application connectivity mapping efforts Avoid application outages due to network device misconfigurations Simplify application and server migrations using AI Enforce security and compliance across the data center Align application, security, and network teams Clearly visualize your network traffic AlgoSec application discovery analyzes your traffic flows, turning them into a clear map. It receives network traffic metadata as NetFlow, SFlow, or full packets and then digests multiple streams of traffic metadata to let you clearly visualize your network traffic. Improve firewall performance and management Your application contains many connections between different servers. The advanced optimization algorithm aggregates a group of connections into thick flows. Using these thick flows prevents overloading multiple rules on the firewalls which can lead to performance degradation. This also simplifies the experience of the security operation expert, making the firewall rules clearer to understand and manage. Moreover, the algorithm predicts the future behavior of the traffic and assures it is aligned with the enforcement policy. Automatically document traffic changes Once applications are discovered and optimized, the system keeps tracking changes in these applications. Once new connections are discovered in the network, the application description is updated with the new flows. Identify the network applications associated with traffic flows AlgoSec’s AI-powered algorithm enables you to identify the applications running on your network. The system can filter out traffic with low frequency and keep connections that appear more frequently. Using deep packet inspection and DNS, AlgoSec identifies the name and purpose of the application. Schedule a Demo About AlgoSec The leading provider of business-driven security management solutions, AlgoSec helps the world’s largest organizations align security with their business processes. With AlgoSec, users can discover, map and migrate business application connectivity, proactively analyze risk from the business perspective, tie cyber-attacks to business processes and intelligently automate network security changes with zero touch – across their cloud, SDN and on-premise networks. Over 1,500 enterprises, including 20 Fortune 50 companies, utilize AlgoSec’s solutions to make their organizations more agile, more secure and more compliant – all the time. Since its inception, AlgoSec has provided the industry’s only money-back guarantee. Let's start your journey to our business-centric network security. Schedule a Demo Select a size Overview Introduction Automatic discovery of flows and applications Key benefits About AlgoSec Get the latest insights from the experts Choose a better way to manage your network

Understand how to achieve and maintain firewall compliance with ISO/IEC 27001. Learn key requirements, best practices, and how to strengthen your overall security posture. Firewall ISO compliance: ISO/IEC 27001 explained Introductory prologue IT organizations and those dealing with digital assets often face many information security challenges. They must protect sensitive data from unauthorized access, as a crack in security can result in unimaginable losses. To keep information security risks minimal and optimize protection for organizations, ISO/IEC 27001 compliance was designed. What is ISO/IEC 27001 compliance? How does it work, and why does it matter? Read on to uncover answers to all your questions and more in this guide. Schedule a Demo What Is ISO/IEC 27001? ISO/IEC 27001 is an internationally accepted standard for data security. It is one of the standards jointly published by the ISO (International Standardization Organization) and IEC (International Electrotechnical Commission) in 2015. ISO/IEC 27001 aims to provide organizations with a framework for information security management, thereby protecting digital assets. Implementing the standard helps organizations minimize and effectively manage information security risks, such as hacks, data leaks or theft, and cyber attacks. Digital assets like intellectual property, software, employee information, and personal data are often a target for malicious actors. And that’s why asset management is crucial to companies and digital service providers. It demonstrates that the certified organization’s information security system is efficient as it follows the best practice. Any ISO/IEC 27001-certified organization can display its certification online (e.g., on its website, social media platforms, etc.) and offline. As a result, they get the trust and respect they deserve from partners, investors, customers, and other organizations. Schedule a Demo Evolution of ISO/IEC 27001 The International Standardization Organization (ISO) is a global federation of national standards bodies established in 1947. It is a leading organization that develops standards for ensuring the security of business systems. Since its emergence, ISO has published several standards, such as: ISO 27000 – Information Security Management Systems ISO 22301 – Business Continuity ISO 14000 – Environmental Management System ISO 45001 – Occupational Health and Safety ISO 9000 – Quality Management System etc. Although ISO/IEC 27001 was officially published in 2005, ISO had been providing measures for protecting digital systems and information before then. The rapid spread of the internet in the 1990s gave rise to the need for data security to prevent sensitive data from getting into the wrong hands. ISO 27001 was the first standard among the ISO 27000 series of standards for cybersecurity. Since its release, the standard has undergone revisions to tackle new and evolving cyber threats in the industry. The first revision took place in October 2013, when new controls were introduced, and the total controls numbered up to 114. This version is referred to as ISO/IEC 27001:2013 version. The second and latest revision of ISO/ICE 27001 was published in 2022 and enumerates 93 controls grouped into four sections. This revision was initially referred to as ISO/IEC 27001:2022 but is now known as ISO 27001. Another notable development in the latest version is the change in title. The new version’s complete title is – ISO 27001 (i.e., ISO/IEC 27001:2022) Information Security, Cybersecurity and Privacy Protection. Schedule a Demo Business Benefits of ISO/IEC 27001 Achieving ISO/IEC 27001 certification offers organizations several business benefits, especially for service providers handling people’s sensitive financial and personal data. Examples of such organizations are insurance companies, banks, health organizations, and financial institutions. Some of the business benefits of ISO 27001 are: 1. It prevents financial penalties and losses from data breaches Organizations that do not comply with the global security standard are at great risk of a data breach. Data breaches often attract financial penalties and cause companies to lose significant amounts. By implementing the best network security practices, organizations can prevent unnecessary financial losses and record more significant revenue in the long run. 2. It protects and enhances a company’s reputation. Partners, investors, and customers often prefer companies with a good reputation for handling data. In fact, the World Economic Forum states that reputation affects a quarter of a company’s market value. ISO/IEC 27001 certification can help businesses with an existing reputation to preserve their image. Companies with a previous record of security challenges can enhance their reputation and earn the trust and respect of others by becoming certified too. 3. Wins new business and sharpens competitive edge Certified companies stand a better chance of winning new businesses and recording more sales and profits than their competitors. That’s because clients want to feel safe knowing their data enjoy maximum protection. Also, certain organizations must attain other certifications like GDPR, HIPAA, NIST, etc., before commencing operation. And having ISO certification makes it easier to achieve such requirements. One major indicator that an organization can be trusted for security management is acquiring a worldwide certification. It sharpens its competitive advantage and propels the brand way ahead of others. 4. Improves structure and focus As businesses expand, new responsibilities arise, and it can be challenging to determine who should be responsible for what. But with ISO 27001 compliance, companies will have a clear structure to mirror. From authentication to network traffic management, the standard has an outlined structure that companies can apply to establish robust operations security. As a result, they can tackle rising needs while staying focused and productive. 5. It reduces the need for frequent audits. Organizations usually spend heavily performing frequent internal and external audits to generate valuable data about the state of their security. The data is deployed to improve cybersecurity so that threat intelligence and other security aspects are optimized. And even though it costs more and wastes more time, it doesn’t guarantee as much protection as implementing ISO 27001 standard. By becoming a certified name, companies can rest assured that the best cybersecurity practices protect them against attacks. Plus, frequent audits won’t be needed, thus saving cost and time. Schedule a Demo ISO/IEC 27001 Compliance Organizations looking to achieve ISO/IEC 27001 compliance must ensure the following: 1. Clearly Outline the Risk Assessment Process Develop your risk assessment process to detect vulnerabilities. State the categories of risks your organization is facing Outline your approach to tackle vulnerabilities. 2. Make Sure Executives Set the Tone Top management must be involved in the information security program. They should show financial support and be available to make strategic decisions that will help build robust security. Senior management should also conduct frequent assessments of the company’s ISMS to ensure it’s in sync with the globally agreed security standard. 3. Design an Information Security Policy (ISP) An ISP essentially functions to ensure that all the users and networks of your organization’s IT structure stick with the standard practices of digital data storage. You must design an effective ISP to achieve compliance as it governs information protection. Your ISP should encompass the A to Z of your organization’s IT security, including cloud security. You need to state who will be responsible for implementing the designed policy. 4. Write Out Your Statement of Applicability (SoA) Your SoA should carry core information about your ISMS. It should state the controls that your organization regards necessary to combat information security risks. It should document the controls that were not applied The SoA should only be shared with the certification body. 5. Create Your Risk Management Strategy Develop an effective risk management plan to address the possible risks of your chosen security controls. Ensure there’s an efficient security operations center (soc) to help detect cyber threats and forward notifications to the right systems. Design an information security incident management strategy to respond during threat detection. State who will implement specific security controls, how, and when they will deploy them. Schedule a Demo FAQs What does ISO/IEC 27001 stand for? ISO stands for International Standardization Organization, while IEC represents International Electrotechnical Commission. ISO/IEC 27001 is an internationally accepted standard for information security management, which ISO and IEC first created. What are the ISO 27001 Requirements? Every organization looking to apply for certification must prepare themselves and ensure to meet the requirements. These requirements are summarized in Clauses 4.1 to 10.2 below: 4.1 Understanding the organization and its context 4.2 Understanding the needs and expectations of interested parties 4.3 Determining the scope of the ISMS 4.4 Information security management system (ISMS) 5.1 Leadership and commitment 5.2 Information Security Policy 5.3 Organisational roles, responsibilities, and authorities 6.1 Actions to address risks and opportunities 6.2 Information security objectives and planning to achieve them 7.1 Resources 7.2 Competence 7.3 Awareness 7.4 Communication 7.5 Documented information 8.1 Operational planning and control 8.2 Information security risk assessment 8.3 Information security risk treatment 9.1 Monitoring, measurement, analysis, and evaluation 9.2 Internal audit 9.3 Management review 10.1 Nonconformity and corrective action 10.2 Continual improvement What are the ISO/IEC 27001 controls? The latest version of ISO 27001 Annex A enumerates 93 security controls divided into four sections or themes. The ISO 27001 controls are designed to simplify information security management such that digital assets get the best protection against security threats. These 4 sections are labelled A5 to A8 and are as follows: A.5 Organizational controls – containing 37 controls A.6 People controls – containing 8 controls A.7 Physical controls – containing 14 controls A.8 Technological controls – containing 34 controls How Does ISO/IEC 27001 ensure data protection? ISO/IEC 27001 ensures data protection by providing a framework through which companies can store sensitive data and have full access control. This standard can be adapted to suit each organization’s specific needs and structure, thereby offering optimized protection. ISO/IEC 27001 aims to ascertain that three core information security aspects are taken care of, which are: Confidentiality: this guarantees that only authorized individuals can access information. Also, because organizations deal with different categories of data, each employee must only be given the degree of access required to execute their tasks efficiently. Integrity: this ensures that only authorized individuals can change information on the system. So even in the event of a security breach, the risks are minimal. This is due to the change management plan that ensures unauthorized persons can not alter information. Availability: information security becomes a problem if the secured information isn’t accessible when needed. ISO 27001 enables authorized persons to have access to information whenever required to ensure that business operations are uninterrupted. By maintaining these guidelines, companies can put in place an effective information security system and risk management plan to prevent data leaks, theft, or hacks. How does my firewall management help with ISO 27001? Firewalls are the software in your organization’s IT structure managing the connection between different networks. Effective firewall management can help in designing the right Information Security Policy (ISP). In turn, your organization will be able to achieve ISO 27001 compliance. Thus, your firewall policies can help with ISO 27001 by enabling organizations to design an Information Security Policy that agrees with the standard required for compliance. What is the Importance of ISO 27001 Certification, and how can I gain it? ISO 27001 certification offers several advantages to businesses and organizations. It demonstrates to partners, investors, and customers that the certified business has a reliable information security management system, thus winning their trust. Also, it enhances communications security so that third parties do not interfere with your company’s operating system. You also get to reduce the risk of security failure, saving you from financial losses and penalties. Once you’ve met the compliance requirements, you may gain an ISO 27001 certification by registering with an accredited certification body Schedule a Demo How can AlgoSec Help with ISO 27001 Compliance? Organizations must regularly conduct audits and prepare compliance reports to attain and maintain ISO 27001 certification. The data generated from event logs are equally helpful in enhancing threat intelligence and overall operations security. This process is often time-consuming and cost-demanding, and that’s where AlgoSec comes in. Being an ISO 27001-certified vendor, AlgoSec understands the challenges of ISO 27001 compliance and is dedicated to providing affordable and effective solutions. AlgoSec automatically generates pre-populated, audit-ready compliance reports for ISO 27001 and other leading industry regulations like SOX, BASEL II, GLBA, PCI DSS, and FISMA. This technique helps companies reduce audit preparation efforts and costs and uncovers loopholes in their ISMS. As a result, businesses can take proper measures to ensure full ISO 27001 compliance, thus becoming worthy of the certification. Schedule a Demo Select a size Introductory prologue What Is ISO/IEC 27001? Evolution of ISO/IEC 27001 Business Benefits of ISO/IEC 27001 ISO/IEC 27001 Compliance FAQs How can AlgoSec Help with ISO 27001 Compliance? Get the latest insights from the experts Use these six best practices to simplify compliance and risk mitigation with the AlgoSec platform White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure continuous compliance Solution overview See how this customer improved compliance readiness and risk management with AlgoSec Case study Choose a better way to manage your network

In the context of the Zero Trust vs. least privilege debate, this post explores the difference between Zero Trust and least privilege, how the Zero Trust security model and least privilege access control work together, and where each fits in a modern security program. Organizations need both Zero Trust and least privilege. These two fundamental security approaches verify all requests and restrict all permissions. This article explains the operation of each security method as well as their distinct approaches to defense. It also provides guidance on their combined use for enhanced security. Zero trust vs least privilege Select a size Which network Can AlgoSec be used for continuous compliance monitoring? Yes, AlgoSec supports continuous compliance monitoring. As organizations adapt their security policies to meet emerging threats and address new vulnerabilities, they must constantly verify these changes against the compliance frameworks they subscribe to. AlgoSec can generate risk assessment reports and conduct internal audits on-demand, allowing compliance officers to monitor compliance performance in real-time. Security professionals can also use AlgoSec to preview and simulate proposed changes to the organization’s security policies. This gives compliance officers a valuable degree of lead-time before planned changes impact regulatory guidelines and allows for continuous real-time monitoring. Zero Trust vs. Least Privilege: What's the Difference and How Do They Work Together? In the context of the Zero Trust vs. least privilege debate, this post explores the difference between Zero Trust and least privilege, how the Zero Trust security model and least privilege access control work together, and where each fits in a modern security program. Organizations need both Zero Trust and least privilege. These two fundamental security approaches verify all requests and restrict all permissions. This article explains the operation of each security method as well as their distinct approaches to defense. It also provides guidance on their combined use for enhanced security. Zero Trust vs. Traditional Security Security operations previously focused on creating an unbreakable defensive boundary. The rule was: Trust the people and devices inside the network. Be suspicious of everything on the outside. This "castle-and-moat" security model proved effective when technology systems were run from restricted server rooms. But cloud computing, SaaS solutions, and hybrid work environments have resulted in traditional system perimeters dissolving. Cloud, SaaS, and remote endpoints now make up a fragmented and complex “frontline,” with inconsistent controls that create gaps attackers can exploit. Malicious actors know that if they find one unlocked door—usually a stolen password—they can often wander freely through the entire network. This is precisely what the Zero Trust security model was designed to prevent. What Is the Zero Trust Security Model? The Zero Trust security model follows a single core belief surrounding verification. The new rule is: All users and systems must require verification before being granted access. Under this model, there is no free pass. Every single time someone or something tries to access a resource, they must authenticate their identity and prove they have access rights to the resources they seek. What Are the Building Blocks of Zero Trust Access Management? Making a Zero Trust architecture work requires a few key components: Policy decision point (PDP): The PDP operates as the central regulatory system of the entire network. It's where you define and store all the rules about who has access to what. Policy enforcement point (PEP): This is your security guard. The system functions as a security checkpoint that protects all resources while implementing the policies defined by the PDP. Trust algorithm: This evaluates various real-time indicators (e.g., user identity, device health status, location data, and data sensitivity) to generate a trust score for each request. Zero Trust Architecture in Practice Implementing Zero Trust requires organizations to establish ongoing verification processes for all identity and device access, as well as network, workload, and data security: Devices: Companies must verify the security posture of all laptops and phones through software updates and security tool verification. The testing process identifies non-compliant devices, which are placed in a digital waiting area until they achieve safety standards. Networks: Micro-segmentation is the main player here. By dividing your network into tiny, isolated zones, you prevent an intruder from moving around freely. All traffic between servers (east-west) needs to be encrypted and pass through a PEP checkpoint. Applications & workloads: Applications, together with services, require robust identity systems. This can be done using methods like mTLS to ensure services are securely talking to each other, and by enforcing strict authorization checks at the front door (gateways) of every application. Data : Are you fully aware of what your data cons ists of and its level of sensitivity? The process of classification and labeling enables organizations to develop smart policies that implement least privilege access controls, preventing sensitive information from leaving the organization. The Least Privilege Principle and Least Privilege Access Control Following the least privilege principle, least privilege access control requires that all users and non-human identities receive permissions that exactly match their required tasks and only remain active during the time needed to complete those tasks. Limiting permissions to specific times and tasks: Minimizes system vulnerabilities Restricts damage from compromised credentials Prevents unauthorized system access Makes audit processes easier and regulatory requirements more achievable Provides clear visibility into all access elevation activities Teams use three main operational controls to implement least privilege in their daily operations: RBAC/ABAC function together to restrict resource access based on job titles and user characteristics ; RBAC handles basic access control, while ABAC offers detailed context-based authorization checks. Just-in-time (JIT) allows a user to ask for special permissions for a short period to perform a specific task, with any rights granted terminated when the work is complete. Time-boxed tokens grant access credentials with an expiration date, so even if a token is stolen, exposure is short‑lived and any impact contain ed. How Do You Implement Least Privilege Access Control? The implementation of least privilege access control requires a methodical approach to provide each identity with the smallest set of permissions needed to perform its duties for a limited duration. These are the essential steps for successful implementation: Inventory and map privileges: You cannot protect what you do not even know is yours. This step demands complete identification of human and machine identities to establish their current permissions and necessary access permissions. Shrink service account scopes: After creating a map, you can begin to limit the permissions of accounts that have excessive access. Credential rotation and exceptions: Organizations need to adopt credential rotation and temporary identity systems for automated operations while also making just-in-time access their default security approach. The Difference Between Zero Trust and Least Privilege The discussion of Zero Trust vs. least privilege comes down to the two concepts dealing with different security issues. Zero Trust vs. Least Privilege The table below presents a clear comparison. Feature Zero Trust Least Privilege Scope & Purpose The overall game plan for securing the entire organization A core access‑management principle limiting each identity to the minimum permissions required for specific tasks/resources Decision Focus Evaluation of whether to trust the present request Stopping users from getting unintended and extra access Primary Goal To get rid of assumed trust and verify everything, always To limit the damage if an account or system gets compromised Ownership Usually driven by the security and platform architecture teams Put into practice by the people who own the data and applications Conclusion Zero Trust and least privilege security solutions deliver a major security improvement when deployed together, despite their distinct implementation methods. Their combination significantly reduces the potential damage from a breach, makes it much harder for attackers to move around, and delivers a crystal-clear record of who is accessing what and why. If you’re evaluating platforms to operationalize these practices, AlgoSec can help by: Modeling application connectivity Orchestrating network security policy changes Supporting micro-segmentation Maintaining continuous compliance across hybrid and multi‑cloud environments All these capabilities reinforce both Zero Trust and least privilege. Explore AlgoSec Cloud Enterprise for multi‑cloud and hybrid policy automation, see how our approach helps application owners model and secure application connectivity, and learn about our native integrations with AWS . Schedule a demo of AlgoSec today. Get the latest insights from the experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Partner solution brief Enforcing micro-segmentation with Akamai and AlgoSec Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Multi-cloud environments create complex IT architectures that are hard to secure. Although cloud computing creates numerous advantages... Cloud Security 3 Proven Tips to Finding the Right CSPM Solution Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Multi-cloud environments create complex IT architectures that are hard to secure. Although cloud computing creates numerous advantages for companies, it also increases the risk of data breaches. Did you know that you can mitigate these risks with a CSPM? Rony Moshkovitch, Prevasio’s co-founder, discusses why modern organizations need to opt for a CSPM solution when migrating to the cloud and also offers three powerful tips to finding and implementing the right one. Cloud Security Can Get Messy if You Let it A cloud-based IT infrastructure can lower your IT costs, boost your agility, flexibility, and scalability, and enhance business resilience. These great advantages notwithstanding, the cloud also has one serious drawback: it is not easy to secure. When you move from an on-premise infrastructure to the cloud, the size of your digital footprint expands. This can attract hackers on the prowl who are looking for the first opportunity to compromise your assets or steal your data. Cloud security solutions include multiple elements that must be managed and protected, such as microservices, containers, and serverless functions. These elements increase cloud complexity, reduce visibility into the cloud estate, and make it harder to secure. For all these reasons, security issues arise in the cloud, increasing the risk of breaches that may result in financial losses, legal liabilities, or reputational damage. To protect the complex and fluid cloud environment, sophisticated automation is essential. Enter cloud security posture management. How to Identify and Implement the Right CSPM Solution 1) It must offer a flat learning curve to accelerate time to value: The CSPM solution can be easy to implement, adopt, and use. It should not burden your security team. Rather, it should simplify cloud security by providing non-intrusive, agentless scans of all cloud accounts, services, and assets. It should also provide actionable information in a single-pane-of-glass view that clearly reveals what needs to be remediated in order to strengthen your cloud security posture. In addition, the solution should generate reports that are easy to understand and share. 2) It must support non-intrusive, agentless, static and dynamic analyses: Some CSPM solutions only support static scans, leaving dynamic scans to other intrusive solutions. The problem with the latter is that they require agents to be deployed, managed, and updated for every scan, increasing the organization’s technical debt and forcing security teams to spend expensive (and scarce) resources on solution management. The best way to minimize the debt and the management burden on security teams is to choose a CSPM that can scan for threats in an agentless manner. It should also perform agentless dynamic analyses on all container applications and images that can reveal valuable information about exposed network ports and other risks. 3) It must be reasonably priced: CSPM is important but it shouldn’t burn a hole in your pocket. The solution should fit your security budget and match your organization’s size, cloud environment complexity, and cloud asset usage. Also, look for a vendor that provides a transparent license model and dynamic security features instead of just dynamic, expensive billing (that could reduce your ability to control your cloud costs). Conclusion and next steps The global CSPM market is set to double from $4.2 billion in 2022 to $8.6 billion by 2027. Already, many CSPM vendors and solutions are available. In order to select the best solution for your organization, make sure to consider the three tips discussed here. Need more tailored advice about the security needs of your enterprise cloud? Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Avivi Siman-Tov, Director of Product Management at AlgoSec, discusses the benefits of network automation and takes us through a... Firewall Change Management Change automation: A step-by-step guide to network security policy change management Avivi Siman Tov 2 min read Avivi Siman Tov Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/21/21 Published Avivi Siman-Tov, Director of Product Management at AlgoSec, discusses the benefits of network automation and takes us through a step-by-step process to standardize change management In today’s fast-paced, data-driven environment, the only constant that businesses can bank on is change. For organizations to function and compete in the modern digital landscape, they need their data to be able to move freely and unobstructed through every branch of their business, unimpeded by security issues that require constant manual attention. The network is arguably the beating heart of an organization but keeping it ticking requires more maintenance than it once did, owing to constantly changing risk profiles and circumstances. That’s why a greater number of businesses are turning to change automation to bridge the gap between network alerts and the action that needs to be taken. Barriers to automation According to Gartner , organizations that can automate more than 70% of their network changes can reduce the number of outages by at least 50% and deliver services up to 50% faster. That’s because a lot of legacy solutions tend to take a reactive rather than proactive approach to dealing with security. There are multiple controls in place that simply don’t talk to each other. While most businesses get alerts from SIEM solutions and vulnerability scanners, responding to them turns into a full-time job, distracting your team from other important work they could be doing. Most organizations know that manual policy changes impact their productivity, but they’re afraid to take the leap to automation because of an ill-placed perception around security. Production environments in all organizations are maintained by different teams — for example, DevOps, maintenance, cloud security, IT, and more. Not all of these teams are educated to the same level in security matters, and some see it as a constraint that slows their work. This can lead to conflict between teams, which means that automation is not always welcome. Despite some resistance to change, enterprise-wide change automation makes it possible to transform network security policies without needing to reinvent the wheel or replace existing business processes. Automation and actionable intelligence are proven to enhance security and business agility without the stress often associated with misconfigurations caused by manual, ad-hoc processes. A typical network change workflow By elevating firewall change management from a manual, arduous task to a fully automated, zero-touch process, networks can become more agile and organizations far more adaptive. There are several steps that organizations need to take towards complete network security automation, from a simple change request through to implementation and validation. Let’s take a look at the most common steps in establishing automation for a simple change request. Step 1 – Request a network change Every change begins with a request. At this stage, you need to clarify who is asking for the amendment and why because sometimes the request is unnecessary or covered by an existing ruleset. Step 2 – Find relevant security devices Once this request is translated, the change automation platform will handle the request and implement the changes to hybrid networks. The administrator will be able to see which firewall and routing devices are involved and what impact the change will have. Step 3 – Plan change The change automation platform understands how to deal with different vendor-specific settings and how to implement the requests in a way that avoids creating any duplicates. Step 4 – Risk check The administrator will get a ‘ what if’ analysis, which checks the change for any risks. In this phase, the decision as to whether to allow the change and expose the network to the risk mentioned is in the hands of the network admin or security manager, depending on who is handling this phase. Step 5 – Push change to device Once planned changes are approved, the ‘magic’ happens. The change automation platform implements and pushes the changes to the desired devices automatically, either through APIs or directly to the device (CLI). This is a fully automated action that can be conducted on multiple devices, whether cloud-based or on-premises. The push can be done in a scheduled manner, in your maintenance window, or on-demand. Step 6 – Validate change At the end of each request, the solution will check that the request was successfully implemented across all devices. The solution also provides ongoing audits of the whole process, enabling easy checking of each stage. Step 7 – Documentation and logging Network security automation platforms can provide you with a full, automated audit trail. Documentation happens on the go, saving IT and security teams time and accelerating tedious network compliance management tasks. Put your trust in network automation While change management is complex stuff, the decision for your business is simple. It’s like the engine of an expensive car. Would you drive at high speeds if you didn’t have your brakes tested or a steering wheel to keep your course straight? Hopefully, the answer is no. With AlgoSec FireFlow , you can automate the security policy change process without introducing any element of risk, vulnerability, or compliance violation. AlgoSec FireFlow allows you to analyze every change before it is introduced, and validate successful changes as intended, all within your existing IT Service Management (ITSM) solutions . By putting your trust in us we can put you firmly in the driving seat with zero-touch change management and secure application deployment. For more information, or to arrange a demo , visit our website . Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call