Search results

The persistence of sophisticated ransomware In 2023, organizations faced a surge in ransomware attacks, prompting a reevaluation of... Network Segmentation Navigating the Cybersecurity Horizon in 2024 Prof. Avishai Wool 2 min read Prof. Avishai Wool 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 12/17/23 Published The persistence of sophisticated ransomware In 2023, organizations faced a surge in ransomware attacks, prompting a reevaluation of cybersecurity readiness. The focus on high-value assets and critical infrastructure indicated an escalating threat landscape, demanding stronger preemptive measures. This trend is expected to continue in 2024 as cybercriminals exploit vulnerabilities. Beyond relying on technology alone, organizations must adopt strategies like Zero Trust and Micro-segmentation for comprehensive preparedness, fortifying data security. A resolute and practical response is crucial to safeguard critical assets in the evolving cybersecurity landscape. DevSecOps Integration DevSecOps is set to become a cornerstone in software development, integrating security practices proactively. As Infrastructure as a Service (IaaS) popularity rises, customizing security settings becomes challenging, necessitating a shift from network perimeter reliance. Anticipating an “Always-on Security” approach like Infrastructure as Code (IaC), companies can implement policy-based guardrails in the CI/CD pipeline. If risks violating the guardrails are identified, automation should halt for human review. Cloud-Native Application Protection Platforms (CNAPP): The CNAPP market has advanced from basic Cloud Security Posture Management (CSPM) to include varied vulnerability and malware scans, along with crucial behavioral analytics for cloud assets like containers. However, few vendors emphasize deep analysis of Infrastructure as a Service (IaaS) networking controls in risk and compliance reporting. A more complete CNAPP platform should also provide comprehensive analytics of cloud applications’ connectivity exposure. Application-centric approach to network security will supersede basic NSPM Prepare for the shift from NSPM to an application-centric security approach, driven by advanced technologies, to accelerate in 2024. Organizations, grappling with downsizing and staff shortages, will strategically adopt this holistic approach to improve efficiency in the security operations team. Emphasizing knowledge retention and automated change processes will become crucial to maintain security with agility. AI-based enhancements to security processes Generative AI, as heralded by Chat-GPT and its ilk, has made great strides in 2023, and has demonstrated that the technology has a lot of potential. I think that in 2024 we will see many more use cases in which this potential goes from simply being “cool” to a more mature technology that is brought to market to bring real value to owners of security processes. Any use case that involves analyzing, summarizing, or generalizing text, can potentially benefit from a generative AI assist. The trick will be to do so in ways that save human time, without introducing factual hallucinations. 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

The firewall audit checklist: Six best practices for simplifying firewall compliance and risk mitigation 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

State of Network Security Report 2025 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

Behind every important business process is a solid network infrastructure that lets us access all of these services. But for an efficient... Application Connectivity Management Understanding network lifecycle management Tsippi Dach 2 min read Tsippi Dach 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 7/4/23 Published Behind every important business process is a solid network infrastructure that lets us access all of these services. But for an efficient and available network, you need an optimization framework to maintain a strong network lifecycle. It can be carried out as a lifecycle process to ensure continuous monitoring, management, automation, and improvement. Keep in mind, there are many solutions to help you with connectivity management . Regardless of the tools and techniques you follow, there needs to be a proper lifecycle plan for you to be able to manage your network efficiently. Network lifecycle management directs you on reconfiguring and adapting your data center per your growing requirements. The basic phases of a network lifecycle In the simplest terms, the basic phases of a network lifecycle are Plan, Build, and Manage. These phases can also be called Design, Implement, and Operate (DIO). Now, in every single instance where you want to change your network, you repeat this process of designing, implementing, and managing the changes. And every subtask that is carried out as part of the network management can also follow the same lifecycle phases for a more streamlined process . Besides the simpler plan, build, and manage phases, certain network frameworks also provide additional phases depending on the services and strategies involved. ITIL framework ITIL stands for Information Technology Infrastructure Library, which is an IT management framework. ITIL put forth a similar lifecycle process focusing on the network services aspect. The phases, as per ITIL, are: Service strategy Service design Service transition Service operations Continual service improvement PPDIOO framework PPDIOO is a network lifecycle model proposed by Cisco, a learning network services provider. This framework adds to the regular DIO framework with several subtasks, as explained below. Plan Prepare The overall organizational requirements, network strategy, high-level conceptual architecture, technology identification, and financial planning are all carried out in this phase. Plan Planning involves identifying goal-based network requirements, user needs, assessment of any existing network, gap analysis, and more. The tasks are to analyze if the existing infrastructure or operating environment can support the proposed network solution. The project plan is then drafted to align with the project goals regarding cost, resources, and scope. Design Network design experts develop a detailed, comprehensive network design specification depending on the findings and project specs derived from previous phases. Build The build phase is further divided into individual implementation tasks as part of the network implementation activities. This can include procurement, integrating devices, and more. The actual network solution is built as per the design, focusing on ensuring service availability and security. Operate The operational phase involves network maintenance, where the design’s appropriateness is tested. The network is monitored and managed to maintain high availability and performance while optimizing operational costs. Optimize The operational phase gives important data that can be utilized to optimize the performance of the network implementation further. This phase acts as a proactive mechanism to identify and solve any flaws or vulnerabilities within the network. It may involve network redesign and thus start a new cycle as well. Why develop a lifecycle optimization plan? A lifecycle approach to network management has various use cases. It provides an organized process, making it more cost-effective and less disruptive to existing services. Reduced total network ownership cost Early on, planning and identifying the exact network requirements and new technologies allow you to carry out a successful implementation that aligns with your budget constraints. Since there is no guesswork with a proper plan, you can avoid redesigns and rework, thus reducing any cost overheads. High network availability Downtimes are a curse to business goals. Each second that goes by without access to the network can be bleeding money. Following a proper network lifecycle management model allows you to plan your implementation with less to no disruptions in availability. It also helps you update your processes and devices before they get into an outage issue. Proactive monitoring and management, as proposed by lifecycle management, goes a long way in avoiding unexpected downtimes. This also saves time with telecom troubleshooting. Better business agility Businesses that adapt better thrive better. Network lifecycle management allows you to take the necessary action most cost-effectively in case of any quick economic changes. It helps you prepare your systems and operations to accommodate the new network changes before they are implemented. It also provides a better continuous improvement framework to keep your systems up to date and adds to cybersecurity. Improved speed of access Access to the network, the faster it is, the better your productivity can be. Proper lifecycle management can improve service delivery efficiency and resolve issues without affecting business continuity. The key steps to network lifecycle management Let us guide you through the various phases of network lifecycle management in a step-by-step approach. Prepare Step 1: Identify your business requirements Establish your goals, gather all your business requirements, and arrive at the immediate requirements to be carried out. Step 2: Create a high-level architecture design Create the first draft of your network design. This can be a conceptual model of how the solution will work and need not be as detailed as the final design would be. Step 3: Establish the budget Do the financial planning for the project detailing the possible challenges, budget, and expected profits/outcomes from the project. Plan Step 4: Evaluate your current system This step is necessary to properly formulate an implementation plan that will be the least disruptive to your existing services. Gather all relevant details, such as the hardware and software apps you use in your network. Measure the performance and other attributes and assess them against your goal specifics. Step 5: Conduct Gap Analysis Measure the current system’s performance levels and compare them with the expected outcomes that you want to achieve. Step 6: Create your implementation plan With the collected information, you should be able to draft the implementation plan for your network solution. This plan should essentially contain the various tasks that must be carried out, along with information on milestones, responsibilities, resources, and financing options. Design Step 7: Create a detailed network design Expand on your initial high-level concept design to create a comprehensive and detailed network design. It should have all the relevant information required to implement your network solution. Take care to include all necessary considerations regarding your network’s availability, scalability, performance, security, and reliability. Ensure the final design is validated by a proper approval process before being okayed for implementation. Implementation Step 8: Create an implementation plan The Implementation phase must have a detailed plan listing all the tasks involved, the steps to rollback, time estimations, implementation guidelines, and all the other details on how to implement the network design. Step 9: Testing Before implementing the design in the production environment, starting with a lab setting is a good idea. Implement in a lab testing environment to check for any errors and how feasible it is to implement the design. Improve the design depending on the results of this step. Step 10: Pilot implementation Implement in an iterative process starting with smaller deployments. Start with pilot implementations, test the results, and if all goes well, you can move towards wide-scale implementation. Step 11: Full deployment When your pilot implementation has been successful, you can move toward a full-scale deployment of network operations. Operate Step 12: Measure and monitor When you move to the Operational phase, the major tasks will be monitoring and management. This is probably the longest phase, where you take care of the day-to-day operational activities such as: Health maintenance Fault detection Proactive monitoring Capacity planning Minor updates (MACs – Moves, Adds, and Changes) Optimize Step 13: Optimize the network design based on the collected metrics. This phase essentially kicks off another network cycle with its own planning, designing, workflows, and implementation. Integrate network lifecycle with your business processes First, you must understand the importance of network lifecycle management and how it impacts your business processes and IT assets. Understand how your business uses its network infrastructure and how a new feature could add value. For instance, if your employees work remotely, you may have to update your infrastructure and services to allow real-time remote access and support personal network devices. Any update or change to your network should follow proper network lifecycle management to ensure efficient network access and availability. Hence, it must be incorporated into the company’s IT infrastructure management process. As a standard, many companies follow a three-year network life cycle model where one-third of the network infrastructure is upgraded to keep up with the growing network demands and telecommunications technology updates. Automate network lifecycle management with AlgoSec AlgoSec’s unique approach can automate the entire security policy management lifecycle to ensure continuous, secure connectivity for your business applications. The approach starts with auto discovering application connectivity requirements, and then intelligently – and automatically – guides you through the process of planning changes and assessing the risks, implementing those changes and maintaining the policy, and finally decommissioning firewall rules when the application is no longer in use. 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

Properly configured firewalls are vital in any comprehensive cybersecurity strategy. However, even the most robust configurations can be... Uncategorized How To Prevent Firewall Breaches (The 2024 Guide) Tsippi Dach 2 min read Tsippi Dach 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 1/11/24 Published Properly configured firewalls are vital in any comprehensive cybersecurity strategy. However, even the most robust configurations can be vulnerable to exploitation by attackers. No single security measure can offer absolute protection against all cyber threats and data security risks . To mitigate these risks, it’s crucial to understand how cybercriminals exploit firewall vulnerabilities. The more you know about their tactics, techniques, and procedures, the better-equipped you are to implement security policies that successfully block unauthorized access to network assets. In this guide, you’ll understand the common cyber threats that target enterprise firewall systems with the goal of helping you understand how attackers exploit misconfigurations and human vulnerabilities. Use this information to protect your network from a firewall breach. Understanding 6 Tactics Cybercriminals Use to Breach Firewalls 1. DNS Leaks Your firewall’s primary use is making sure unauthorized users do not gain access to your private network and the sensitive information it contains. But firewall rules can go both ways – preventing sensitive data from leaving the network is just as important. If enterprise security teams neglect to configure their firewalls to inspect outgoing traffic, cybercriminals can intercept this traffic and use it to find gaps in your security systems. DNS traffic is particularly susceptible to this approach because it shows a list of websites users on your network regularly visit. A hacker could use this information to create a spoofed version of a frequently visited website. For example, they might notice your organization’s employees visit a third-party website to attend training webinars. Registering a fake version of the training website and collecting employee login credentials would be simple. If your firewall doesn’t inspect DNS data and confirm connections to new IP addresses, you may never know. DNS leaks may also reveal the IP addresses and endpoint metadata of the device used to make an outgoing connection. This would give cybercriminals the ability to see what kind of hardware your organization’s employees use to connect to external websites. With that information in hand, impersonating managed service providers or other third-party partners is easy. Some DNS leaks even contain timestamp data, telling attackers exactly when users requested access to external web assets. How to protect yourself against DNS leaks Proper firewall configuration is key to preventing DNS-related security incidents. Your organization’s firewalls should provide observability and access control to both incoming and outgoing traffic. Connections to servers known for hosting malware and cybercrime assets should be blocked entirely. Connections to servers without a known reputation should be monitored closely. In a Zero Trust environment , even connections to known servers should benefit from scrutiny using an identity-based security framework. Don’t forget that apps can connect to external resources, too. Consider deploying web application firewalls configured to prevent DNS leaks when connecting to third-party assets and servers. You may also wish to update your security policy to require employees to use VPNs when connecting to external resources. An encrypted VPN connection can prevent DNS information from leaking, making it much harder for cybercriminals to conduct reconnaissance on potential targets using DNS data. 2. Encrypted Injection Attacks Older, simpler firewalls analyze traffic by looking at different kinds of data packet metadata. This provides clear evidence of certain denial-of-service attacks, clear violations of network security policy , and some forms of malware and ransomware . They do not conduct deep packet inspection to identify the kind of content passing through the firewall. This provides cybercriminals with an easy way to bypass firewall rules and intrusion prevention systems – encryption . If malicious content is encrypted before it hits the firewall, it may go unnoticed by simple firewall rules. Only next-generation firewalls capable of handling encrypted data packets can determine whether this kind of traffic is secure or not. Cybercriminals often deliver encrypted injection attacks through email. Phishing emails may trick users into clicking on a malicious link that injects encrypted code into the endpoint device. The script won’t decode and run until after it passes the data security threshold posed by the firewall. After that, it is free to search for personal data, credit card information, and more. Many of these attacks will also bypass antivirus controls that don’t know how to handle encrypted data. Task automation solutions like Windows PowerShell are also susceptible to these kinds of attacks. Even sophisticated detection-based security solutions may fail to recognize encrypted injection attacks if they don’t have the keys necessary to decrypt incoming data. How to protect yourself against encrypted injection attacks Deep packet inspection is one of the most valuable features next-generation firewalls provide to security teams. Industry-leading firewall vendors equip their products with the ability to decrypt and inspect traffic. This allows the firewall to prevent malicious content from entering the network through encrypted traffic, and it can also prevent sensitive encrypted data – like login credentials – from leaving the network. These capabilities are unique to next-generation firewalls and can’t be easily replaced with other solutions. Manufacturers and developers have to equip their firewalls with public-key cryptography capabilities and obtain data from certificate authorities in order to inspect encrypted traffic and do this. 3. Compromised Public Wi-Fi Public Wi-Fi networks are a well-known security threat for individuals and organizations alike. Anyone who logs into a password-protected account on public Wi-Fi at an airport or coffee shop runs the risk of sending their authentication information directly to hackers. Compromised public Wi-Fi also presents a lesser-known threat to security teams at enterprise organizations – it may help hackers breach firewalls. If a remote employee logs into a business account or other asset from a compromised public Wi-Fi connection, hackers can see all the data transmitted through that connection. This may give them the ability to steal account login details or spoof endpoint devices and defeat multi-factor authentication. Even password-protected private Wi-Fi connections can be abused in this way. Some Wi-Fi networks still use outdated WEP and WPA security protocols that have well-known vulnerabilities. Exploiting these weaknesses to take control of a WEP or WPA-protected network is trivial for hackers. The newer WPA2 and WPA3 standards are much more resilient against these kinds of attacks. While public Wi-Fi dangers usually bring remote workers and third-party service vendors to mind, on-premises networks are just as susceptible. Nothing prevents a hacker from gaining access to public Wi-Fi networks in retail stores, receptions, or other areas frequented by customers and employees. How to protect yourself against compromised public Wi-Fi attacks First, you must enforce security policies that only allow Wi-Fi traffic secured by WPA2 and WPA3 protocols. Hardware Wi-Fi routers that do not support these protocols must be replaced. This grants a minimum level of security to protected Wi-Fi networks. Next, all remote connections made over public Wi-Fi networks must be made using a secure VPN. This will encrypt the data that the public Wi-Fi router handles, making it impossible for a hacker to intercept without gaining access to the VPN’s secret decryption key. This doesn’t guarantee your network will be safe from attacks, but it improves your security posture considerably. 4. IoT Infrastructure Attacks Smartwatches, voice-operated speakers, and many automated office products make up the Internet of Things (IoT) segment of your network. Your organization may be using cloud-enriched access control systems, cost-efficient smart heating systems, and much more. Any Wi-Fi-enabled hardware capable of automation can safely be included in this category. However, these devices often fly under the radar of security team’s detection tools, which often focus on user traffic. If hackers compromise one of these devices, they may be able to move laterally through the network until they arrive at a segment that handles sensitive information. This process can take time, which is why many incident response teams do not consider suspicious IoT traffic to be a high-severity issue. IoT endpoints themselves rarely process sensitive data on their own, so it’s easy to overlook potential vulnerabilities and even ignore active attacks as long as the organization’s mission-critical assets aren’t impacted. However, hackers can expand their control over IoT devices and transform them into botnets capable of running denial-of-service attacks. These distributed denial-of-service (DDoS) attacks are much larger and more dangerous, and they are growing in popularity among cybercriminals. Botnet traffic associated with DDoS attacks on IoT networks has increased five-fold over the past year , showing just how promising it is for hackers. How to protect yourself against IoT infrastructure attacks Proper network segmentation is vital for preventing IoT infrastructure attacks . Your organization’s IoT devices should be secured on a network segment that is isolated from the rest of the network. If attackers do compromise the entire network, you should be protected from the risk of losing sensitive data from critical business assets. Ideally, this protection will be enforced with a strong set of firewalls managing the connection between your IoT subnetwork and the rest of your network. You may need to create custom rules that take your unique security risk profile and fleet of internet-connected devices into account. There are very few situations in which one-size-fits-all rulemaking works, and this is not one of them. All IoT devices – no matter how small or insignificant – should be protected by your firewall and other cybersecurity solutions . Never let these devices connect directly to the Internet through an unsecured channel. If they do, they provide attackers with a clear path to circumvent your firewalls and gain access to the rest of your network with ease. 5. Social Engineering and Phishing Social engineering attacks refer to a broad range of deceptive practices used by hackers to gain access to victims’ assets. What makes this approach special is that it does not necessarily depend on technical expertise. Instead of trying to hack your systems, cybercriminals are trying to hack your employees and company policies to carry out their attacks. Email phishing is one of the most common examples. In a typical phishing attack , hackers may spoof an email server to make it look like they are sending emails from a high-level executive in the company you work for. They can then impersonate this executive and demand junior accountants pay fictitious invoices or send sensitive customer data to email accounts controlled by threat actors. Other forms of social engineering can use your organization’s tech support line against itself. Attackers may pretend to represent large customer accounts and will leverage this ruse to gain information about how your company works. They may impersonate a third-party vendor and request confidential information that the vendor would normally have access to. These attacks span the range from simple trickery to elaborate confidence scams. Protecting against them can be incredibly challenging, and your firewall capabilities can make a significant difference in your overall state of readiness. How to protect yourself against social engineering attacks Employee training is the top priority for protecting against social engineering attacks . When employees understand the company’s operating procedures and security policies, it’s much harder for social engineers to trick them. Ideally, training should also include in-depth examples of how phishing attacks work, what they look like, and what steps employees should take when contacted by people they don’t trust. 6. Sandbox Exploits Many organizations use sandbox solutions to prevent file-based malware attacks. Sandboxes work by taking suspicious files and email attachments and opening them in a secure virtual environment before releasing them to users. The sandbox solution will observe how the file behaves and quarantine any file that shows malicious activity. In theory, this provides a powerful layer of defense against file-based attacks. But in practice, cybercriminals are well aware of how to bypass these solutions. For example, many sandbox solutions can’t open files over a certain size. Hackers who attach malicious code to large files can easily get through. Additionally, many forms of malware do not start executing malicious tasks the second they are activated. This delay can provide just enough of a buffer to get through a sandbox system. Some sophisticated forms of malware can even detect when they are being run in a sandbox environment – and will play the part of an innocent program until they are let loose inside the network. How to protect yourself against sandbox exploits Many next-generation firewalls include cloud-enabled sandboxing capable of running programs of arbitrary size for a potentially unlimited amount of time. More sophisticated sandbox solutions go to great lengths to mimic the system specifications of an actual endpoint so malware won’t know it is being run in a virtual environment. Organizations may also be able to overcome the limitations of the sandbox approach using Content Disarm and Reconstruction (CDR) techniques. This approach keeps potentially malicious files off the network entirely and only allows a reconstructed version of the file to enter the network. Since the new file is constructed from scratch, it will not contain any malware that may have been attached to the original file. Prevent firewall breaches with AlgoSec Managing firewalls manually can be overwhelming and time-consuming – especially when dealing with multiple firewall solutions. With the help of a firewall management solution , you easily configure firewall rules and manage configurations from a single dashboard. AlgoSec’s powerful firewall management solution integrates with your firewalls to deliver unified firewall policy management from a single location, thus streamlining the entire process. With AlgoSec, you can maintain clear visibility of your firewall ruleset, automate the management process, assess risk & optimize rulesets, streamline audit preparation & ensure compliance, and use APIs to access many features through web services. 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

Fortinet partner solution brief 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

Over nearly two decades, AlgoSec has undergone a remarkable evolution in both technology and offerings. Initially founded with the... Application Connectivity Management Evolving network security: AlgoSec’s technological journey and its critical role in application connectivity Nitin Rajput 2 min read Nitin Rajput 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 12/13/23 Published Over nearly two decades, AlgoSec has undergone a remarkable evolution in both technology and offerings. Initially founded with the mission of simplifying network security device management, the company has consistently adapted to the changing landscape of cybersecurity. Proactive Network Security In its early years, AlgoSec focused on providing a comprehensive view of network security configurations, emphasizing compliance, risk assessment, and optimization. Recognizing the limitations of a reactive approach, AlgoSec pivoted to develop a workflow-based ticketing system, enabling proactive assessment of traffic changes against risk and compliance. Cloud-Native Security As organizations transitioned to hybrid and cloud environments, AlgoSec expanded its capabilities to include cloud-native security controls. Today, AlgoSec seamlessly manages public cloud platforms such as Cisco ACI, NSX, AWS, GCP, and Azure, ensuring a unified security posture across diverse infrastructures. Application Connectivity Discovery A recent breakthrough for AlgoSec is its focus on helping customers navigate the challenges of migrating applications to public or private clouds. The emphasis lies in discovering and mapping application flows within the network infrastructure, addressing the crucial need for maintaining control and communication channels. This discovery process is facilitated by AlgoSec’s built-in solution or by importing data from third-party micro-segmentation solutions like Cisco Secure Workloads, Guardicore, or Illumio. Importance of Application Connectivity Why is discovering and mapping application connectivity crucial? Applications are the lifeblood of organizations, driving business functions and, from a technical standpoint, influencing decisions related to firewall rule decommissioning, cloud migration, micro-segmentation, and zero-trust frameworks. Compliance requirements further emphasize the necessity of maintaining a clear understanding of application connectivity flows. Enforcing Micro-Segmentation with AlgoSec Micro-segmentation, a vital network security approach, aims to secure workloads independently by creating security zones per machine. AlgoSec plays a pivotal role in enforcing micro-segmentation by providing a detailed understanding of application connectivity flows. Through its discovery modules, AlgoSec ingests data and translates it into access controls, simplifying the management of north-south and east-west traffic within SDN-based micro-segmentation solutions. Secure Application Connectivity Migration In the complex landscape of public cloud and application migration, AlgoSec emerges as a solution to ensure success. Recognizing the challenges organizations face, AlgoSec’s AutoDiscovery capabilities enable a smooth migration process. By automatically generating security policy change requests, AlgoSec simplifies a traditionally complex and risky process, ensuring business services remain uninterrupted while meeting compliance requirements. In conclusion, AlgoSec’s technological journey reflects a commitment to adaptability and innovation, addressing the ever-changing demands of network security. From its origins in network device management to its pivotal role in cloud security and application connectivity, AlgoSec continues to be a key player in shaping the future of cybersecurity. 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

Accelerate security with Algosec Jumpstart. Pre-configured packages for rapid deployment of firewalls, VPNs, and more. Streamline security operations now. Algosec Jumpstart: Quick Deployment Packages Overview Select one of the new JumpStart packages from AlgoSec to generate value and utilize a business- driven solution for your organization in a weeks’ time. Regardless of which package you choose, the AlgoSec delivery department will deploy the solution quickly and cost-effectively within your environment. Prerequisites for all JumpStart packages: AlgoSec hardware or virtual appliance onsite ready for Successful completion of AlgoSec Admin Training for AlgoSec Firewall Analyzer and AlgoSec Secure remote connectivity and security device credentials of all deployed devices for remote From project kick off, assuming all prerequisites have been fulfilled. Service is performed remotely. AlgoSec will use its best endeavors to complete the deliverables within the target time frame. ADD-ON ALGOSEC – PROFESSIONAL SERVICES OFFERINGS In addition to the JumpStart packages, we offer a variety of à la carte Professional Services to help you quickly benefit from your AlgoSec investment. Schedule a Demo Integration with Existing Change Management Systems (CMS) AlgoSec enables a quick and smooth integration of your existing ServiceNow CMS with AlgoSec FireFlow in a unique jumpstart package, ALG-SNOW. Additionally, AlgoSec can seamlessly integrate with other existing CMS, including Remedy, ServiceDesk and others. The integration between your CMS system and AlgoSec can be set up via a Web Services call, and historical change requests can be imported into AlgoSec. Schedule a Demo Solution Deployment This service includes installing your AlgoSec appliances with the most recent build of the AlgoSec Security Management Suite including AlgoSec Firewall Analyzer and/or AlgoSec FireFlow and/or AlgoSec BusinessFlow, then verifying connectivity and defining devices. We will also verify that the reporting functionality works properly for each deployed device, and will provide sufficient knowledge transfer to enable you to perform basic operations in your AlgoSec environment. Schedule a Demo Advanced Configuration Suitable for complex, enterprise environments, this service includes verifying requirements and designing the appropriate topology for: High-Availability or Disaster-Recovery modes Load Distribution mode Geographical Distribution or Central-Manager / Remote-Agent mode Schedule a Demo Develop Custom Reports We can create custom risk profiles and baseline configuration reports to meet your unique needs. Schedule a Demo Develop Custom Change Workflows While AlgoSec includes several out-of-the-box workflows, we can develop custom workflows to meet your unique needs. Customization options include creating the different steps in a change process, managing the ticket lifecycle based on your processes, dynamically routing tickets to required approvers and changing request form fields and appearance. Schedule a Demo Project Management and Customer Success Management We can provide on-going project management to support your AlgoSec implementation. We provide regular status updates and meetings to ensure that the project is on schedule and meets your requirements. Schedule a Demo Select a size Overview Integration with Existing Change Management Systems (CMS) Solution Deployment Advanced Configuration Develop Custom Reports Develop Custom Change Workflows Project Management and Customer Success Management Get the latest insights from the experts Choose a better way to manage your network

Marking the start of a consolidation era defined by unification, automation, and centralized control State of Network Security 2026 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. Executive summary After years of expansion and tool proliferation, 2026 will mark the beginning of a consolidation period defined by unification, automation, and control. As hybrid architectures, AI-driven workloads, and shared operational responsibilities continue to blur the boundaries between security, cloud, and network teams, the focus has shifted from adding tools to simplifying them. Security management solutions are now being evaluated through a much more strategic lens. When respondents were asked to identify the primary driver behind their selection, the dominant theme was control: the ability to unify policies, streamline operations, and reduce the overhead that comes from managing multiple, disconnected systems. Since last year’s report, interest in consolidation and simplification has only intensified. Multi-cloud remains the dominant operating model, but instead of seeking scale and breadth, businesses are prioritizing visibility and control. 55% of companies now select cloud platforms primarily based on security, a trend reinforced by Deloitte’s 2024 findings that security plays a “major role” in cloud investment decisions. Increasingly, every cloud decision is a security decision. AI is reshaping this environment even further. The priority has shifted from pilot to practice, with teams applying AI to practical, low-risk functions such as hybrid network visibility, compliance enforcement, and rule optimization. Across all trends uncovered in this research paper, the unifying thread is consolidation. This reflects an industry moving from fragmentation to cohesion, simplifying technology stacks, standardizing workflows, and building shared accountability across disciplines that once operated separately. Based on insights from 504 security, network, and cloud professionals across 28 countries, this year’s report offers one of the clearest snapshots yet of this transformation. As the network security landscape enters this new period of consolidation and clarity, one message stands out: resilience now depends less on how many tools an organization deploys, and more on how effectively those tools connect technically, operationally, and organizationally. Trend 1: The great firewall rebalance Organizations no longer buy tools solely to check boxes for compliance or to deliver incremental improvements. Instead, they are motivated by the need to regain centralized control in the face of sprawling hybrid architectures and increasingly fragmented policy enforcement. When respondents were asked to identify the primary driver behind their selection, the dominant theme was control: the ability to unify policies, streamline operations, and reduce the overhead that comes from managing multiple, disconnected systems. Performance and cost continue to matter, but they are no longer defining factors with performance and scalability emerging as the top driver at 29.4%. Our findings indicate that organizations are prioritizing platforms that can deliver consistent visibility across hybrid environments, integrate seamlessly with cloud-native services, and support automation at scale. This shift reinforces a broader trend seen throughout the survey – that security teams are consolidating around fewer, more capable management layers that can provide visibility in an increasingly complex network environment. This strategic shift is tied closely to the broader evolution of the firewall itself. As hybrid and multi-cloud architectures continue to expand, the role of the firewall is undergoing its most significant shift in more than a decade. Firewalls remain a critical enforcement point for securing digital assets, but the way enterprises deploy, manage, and evaluate them is changing rapidly. Rather than treating firewalls as isolated perimeter controls, organizations are increasingly viewing them as part of a distributed, policy-driven security environment that must operate consistently across data centers, public clouds, and emerging application environments. This evolution is being driven by the growing complexity of distributed infrastructures and the rising need for unified visibility. With workloads and data now spanning multiple clouds and service layers, security teams are rethinking how firewall capabilities fit into broader governance and automation frameworks. Scalability, interoperability, and centralized orchestration have become as important as raw inspection performance. What’s left is a strategic rebalance, where organizations are demanding more flexibility at the edge, more consistency in the middle, and more visibility at the management layer. Firewall strategies split across three paths This year’s findings report that 30% of respondents plan to expand into multi-vendor environments to maintain flexibility and avoid lock-in, while 24% are actively consolidating. A further 22% intend to maintain their current mix, signaling a period of stabilization after years of expansion. The data suggests that rather than pursuing one path exclusively, enterprises are balancing control and choice, consolidating at the management layer while retaining multi-vendor diversity at the edge. Palo Alto and Fortinet lead a tightening vendor field Vendor preferences in 2026 highlight consolidation in practice. Palo Alto Networks has reclaimed the top position it lost in 2025, with Fortinet rising from fourth to second, showing the appeal of tightly integrated security and networking under one platform. Palo Alto has gone on the record this year stating that consolidating security data into a single platform will avoid redundant ingestion costs and, with the help of AI analytics, make insights available across the entire security stack1 Azure Firewall drops to third as organizations rebalance native integration with cross-cloud interoperability. AWS Firewall and Check Point maintain steady adoption, while GCP enters the ranking – perhaps evidence that, even as the market consolidates, ecosystem “fit” can create room for additional players. Notably, Cisco dropped out of the cloud-firewall list entirely, reflecting a maturing market where nearly all organizations now deploy some form of pure cloud-based firewalling. Top five firewall vendors ranked by enterprise deployment and market shifts Key takeaway Firewall strategy is moving into a more deliberate and balanced phase. Rather than expanding indiscriminately or consolidating outright, organizations are adopting nuanced approaches that blend flexibility with control. Multi-vendor diversity remains valuable at the edge, but consolidation at the management layer is becoming essential for achieving consistent policy enforcement and operational clarity. As hybrid environments grow more complex, the enterprises that succeed will be those that rationalize their footprint without sacrificing the adaptability required in a multi-cloud world. Trend 2: Cloud firewall strategies prioritize consolidation As organizations mature their hybrid and multi-cloud environments, 2026 marks an inflection point in firewall strategy. After several years of vendor diversification, the pendulum is swinging back toward consolidation. Businesses are prioritizing unified visibility, simplified operations, and consistency in policy enforcement across complex, distributed networks. In other words, the focus has shifted from expanding coverage to regaining control – reducing sprawl, streamlining management, and integrating security more deeply into cloud architectures. Cloud firewall adoption solidifies as a strategic standard The move toward cloud-based firewalls continues, but with a change in tone. Rather than experimenting with cloud-native protection, most organizations now view it as essential to enterprise security. 24% of respondents plan to move primarily to cloud firewalls over the next two years, confirming that cloud-native controls are no longer an emerging consideration but a baseline expectation. As hybrid infrastructures become the norm, firewall strategies are being designed to operate seamlessly across both on-premise and cloud environments, enforcing consistent policy without introducing operational complexity. Hybrid control replaces hybrid compromise On the face of it, the emphasis on consolidation might signal a retreat from hybrid operations, but it actually represents a new approach to managing them. The question has simply evolved from, “which firewall secures the cloud,” to “which cloud secures the enterprise?” Firewalls are evolving from perimeter defenses into unified control planes for policy orchestration, compliance, and risk management across all environments. As AI workloads and distributed applications proliferate, organizations are standardizing policy and automating enforcement to prevent drift and maintain continuous compliance. Over the next 2 years, how do you expect your firewall strategy to evolve? Key takeaway The firewall market is consolidating around fewer, more integrated vendors. Palo Alto Networks and Fortinet now anchor the field, with cloud-native solutions firmly mainstream and GCP emerging as a secondary player. The dominant priority for 2026 is control: simplifying management, tightening policy enforcement, and building the unified visibility layer that modern hybrid enterprises depend on for resilience. Trend 3: Security becomes the deciding factor in cloud platform selection The cloud has now confidently become the enterprise control layer, where security, data, and consolidation converge. As organizations mature their multi-cloud strategies, the criteria for choosing providers are shifting. Performance and price remain relevant, but they are no longer decisive. In 2026, the dominant priority will be security, confirming that every cloud decision will indeed be a security decision. The rise of AI-driven workloads, compliance requirements, and cross-platform orchestration has made security the critical benchmark for platform selection. Security leads cloud decision-making According to Gartner, worldwide end-user spending on public cloud services reached $723.4 billion in 2025 (up from $595.7 billion in 2024)². More than half (55%) cited security as their top consideration, far exceeding any other factor. Ecosystem and integrations ranked second at 44%, while AI and data services (42%) followed closely behind. Collectively, this paints a picture of a market driven by protection, compatibility, and intelligence rather than cost. The finding also underscores a broader mindset shift – enterprises are no longer treating cloud as infrastructure, but as the foundation for secure operations. Integration and ecosystem strength outweigh price and performance The emphasis on ecosystem integration reflects how organizations are consolidating around platforms that offer tighter interoperability across security, networking, and data layers. Rather than adopting best-of-breed tools in isolation, businesses are favoring providers that enable unified visibility and shared policy control. This trend echoes the broader consolidation theme observed across firewall and automation data: complexity has reached its limit, and integration has become the differentiator. When selecting a cloud platform, which factor carries the most weight? AI and data services redefine platform value The inclusion of AI and data services among the top selection criteria signals a growing recognition that intelligence is now inseparable from security. Organizations increasingly choose cloud platforms that can support AI-enhanced monitoring, anomaly detection, and compliance analytics within the same environment. The result is a more strategic alignment between where data resides and how it is protected, a shift from infrastructure management to intelligent security orchestration. Consolidation shapes platform strategy These findings also reflect a broader pattern of consolidation across cloud ecosystems. While multi-cloud remains the operational norm, the drivers behind it have changed. Rather than spreading workloads for cost or redundancy, organizations are choosing fewer platforms and using them more deeply, consolidating workloads, policies, and visibility tools to reduce friction. The balance of flexibility and control remains key, but the overall gravitational pull is toward simplification. Consistent policy enforcement overtakes visibility as the top cloud security challenge The findings from the survey show a notable shift in the challenges organizations face when securing cloud applications. For the first time, maintaining consistent policies across on-premise and cloud environments (58.6%) has overtaken lack of visibility into cloud applications (54.3%) as the number-one obstacle. This change reflects the realities of growing tool sprawl and increasingly mixed deployment models. As businesses consolidate platforms and pursue unified control, the problem isn’t identifying what applications exist, but enforcing the right policies for those applications across multiple clouds, networks, and security layers. This also reinforces the broader consolidation narrative, where consistency is key to cloud security. Rank the cloud service providers most used in your organization Key takeaway It would be reasonable to say that cloud strategy and security strategy are now one and the same. With more than half of organizations ranking security as the defining factor in provider selection, this year has cemented the cloud’s role as the enterprise security backbone. The future of multi-cloud will not be decided by speed or scale alone, but by how effectively each platform can deliver integrated protection, data intelligence, and operational clarity across the entire digital estate. Trend 4: SD-WAN further cements its role The enterprise network edge continues to evolve, with SD-WAN now established as a mainstream capability rather than a specialist solution. As organizations expand their hybrid environments and distributed workforces, the demand for secure, high-performance connectivity has solidified SD-WAN’s role as the connective tissue between data centers, clouds, and users. This year’s findings show that the market is maturing: adoption is nearly universal, leadership has reshuffled, and the differentiator is no longer deployment speed but the depth of security integration. SD-WAN adoption reaches maturity For the first time, SD-WAN can be considered standard practice across most enterprise environments. The share of organizations reporting no solution applied has dropped sharply to 21.1%, confirming that SD-WAN has moved beyond early adoption. Businesses increasingly view it as foundational to hybrid and multi-cloud architectures, providing the visibility and policy control that traditional WAN models lacked. The focus now is on consolidating SD-WAN with broader security frameworks to create unified, adaptive network fabrics. Which SD-WAN ( Software-Defined WAN) solutions is your organization using? (select all that apply) Fortinet takes the lead in an increasingly competitive market This year’s results mark a significant milestone: Fortinet (31%) has become the most widely used SD-WAN solution for the first time, reflecting its strength in integrating advanced security and networking under one platform. Cisco (30.7%) remains a close second, leveraging both its Viptela and Meraki offerings to address enterprise and distributed site use cases. VMware (20.7%) and Palo Alto Networks (19.2%) maintain consistent adoption, while Aruba (16.1%) and Versa (13%) continue to serve mid-enterprise and service-provider environments. The data suggests a crowded but stabilizing market, with leadership now determined by convergence rather than coverage. Integration overtakes performance as the new priority While performance and scalability remain important, the defining value of SD-WAN this year will be integration, particularly its ability to operate seamlessly within consolidated security ecosystems. According to Gartner, by the end of 2026, 60% of new SD-WAN purchases will be part of a single-vendor SASE offering, up from 15 % in 2022.³ Organizations are no longer viewing SD-WAN as a stand-alone connectivity layer but as a key component of unified network and security orchestration. This trend is reinforced by the parallel growth of Secure Access Service Edge (SASE), where many SD-WAN platforms now serve as the underlying transport for cloud-delivered security functions. Simplified management drives next-phase adoption As the market matures, ease of management has emerged as a primary differentiator. Enterprises want simplified, policy-based control that extends across both SD-WAN and security operations. Vendors capable of offering single-pane management, covering traffic routing, segmentation, and threat prevention, are gaining a decisive edge. This shift underscores the industry’s pivot from product expansion to platform unification, where value lies in operational simplicity and end-to-end visibility. Key takeaway SD-WAN has transitioned from optional to essential. Adoption is near-universal, and leadership now depends on the depth of integration with security and orchestration platforms. Fortinet has overtaken Cisco to lead the market, signaling that convergence, not performance, is the new metric for success. As enterprises strive to unify their networking and security stacks, SD-WAN’s role as the foundation of hybrid connectivity has never been clearer. Trend 5: SASE moves from exploration to standardization Secure Access Service Edge (SASE) continues its steady progression from a niche innovation to a mainstream framework for unified security and networking. Once viewed primarily as an aspirational goal, SASE is now being operationalized across industries as organizations seek to consolidate connectivity, control, and cloud-delivered protection within a single architecture. This year’s findings show a market that has matured beyond experimentation. Adoption is broadening, vendor leadership is stabilizing, and integration with SD-WAN has become the norm. Non-adoption falls for the third consecutive year For the third year running, the share of organizations without a SASE solution has declined, down to 27.5% from 40% in 2025. This consistent decrease signals that SASE adoption is no longer exploratory but a planned progression for most enterprises. The increasing prominence of SASE is also reflected by Gartner, who estimate that between 2025 and 2028 the market will have a CAGR of 26% and exceed $30 billion by the end of the decade. As hybrid and remote workforces become permanent fixtures, businesses are embedding SASE as the control layer that secures access, governs data movement, and enforces consistent policy across all environments. The technology’s role has shifted from experimental pilot to strategic pillar. Which SASE platform is your organization using? Zscaler and Prisma Access maintain leadership amid growing competition Zscaler (37.8%) remains the market leader in SASE adoption, closely followed by Palo Alto Networks’ Prisma Access (34.4%). Both platforms have consolidated their positions through strong ecosystem partnerships and mature policy integration, particularly across large enterprise deployments. Netskope (21.9%) continues its rapid ascent as the fastest-growing challenger, driven by its focus on data protection and multi-cloud visibility. Smaller providers, including Cato (9.3%), Barracuda (4.7%), and other vendors (5.4%), maintain regional or industry-specific footholds where turnkey simplicity and localized deployment remain priorities. SD-WAN and SASE converge under single-vendor models According to the Dell’Oro Group, single vendor SASE will grow twice as fast as multi-vendor SASE in the next few years5. Organizations increasingly favor single-vendor frameworks that deliver both connectivity and security from the same platform, reducing latency and operational overhead. This reflects the same drive toward consolidation seen across the broader network security landscape to fewer moving parts, shared visibility, and unified control. Last year’s Gartner projection that more than half of SD-WAN purchases will be tied to integrated SASE offerings6 by 2026 appears well on track. In fact, the Dell’Oro Group anticipates single-vendor SASE will make up 90% of the market by the end of the decade. Implementation complexity gives way to operational consistency The challenges that once slowed SASE adoption, such as multi-component integration, legacy dependencies, and management fragmentation, are giving way to more standardized deployment models. Enterprises are learning to phase implementation, layering security and access capabilities without disrupting core connectivity. As policy orchestration becomes more automated and AI-assisted, SASE is evolving from a complex project to an achievable operational baseline for hybrid enterprises. Key takeaway SASE has crossed the threshold from early adoption to normalization. Zscaler and Prisma Access continue to lead, but Netskope’s rapid rise shows that innovation still drives competition. The decline in non-adoption rates confirms that SASE is now the de-facto model for secure, distributed access, valued for its operational simplicity and the consistency it delivers across the modern enterprise network. Trend 6: True zero trust remains elusive Zero Trust remains one of the most discussed principles in cybersecurity, yet one of the slowest to fully materialize in practice. The philosophy of “never trust, always verify” continues to guide strategic planning, but this year’s data reveals that operational progress has stalled. Awareness and intent are high, but implementation maturity has plateaued. Most organizations have laid the groundwork, such as segmentation, identity management, and access control, but few have advanced beyond these initial stages to comprehensive, policy-driven Zero Trust frameworks. Adoption steady, but forward motion limited Overall Zero Trust adoption remains consistent at around 55-60%, nearly identical to last year. However, the share of organizations still in the learning phase has increased from 20% to 31%, indicating that while more enterprises are engaging with the concept, fewer are moving to execution. This highlights a widening gap between intent and implementation, where Zero Trust is now universally recognized as the right approach, but practical deployment continues to challenge even mature security teams. What is your current Zero Trust implementation status? Execution gaps widen as awareness grows The data also shows that increased awareness has not translated into faster rollout. Many enterprises are still navigating legacy infrastructure, fragmented identity systems, and policy enforcement across hybrid networks. Even organizations that have implemented partial Zero Trust measures, such as micro-segmentation or network division, often lack unified governance models. The result is a growing class of “permanently pilot” deployments that are “active,” but not yet integrated or automated. This finding is echoed by Gartner, which revealed that in 2026, only 10 % of large enterprises will have a “mature and measurable” Zero Trust programme in place, up from less than 1 % today7. Fragmented approaches slow standardization The variety of adoption paths available further complicates progress. Some organizations are investing in Zero Trust Network Access (ZTNA) as an entry point, while others prioritize endpoint verification or identity-based access control. This flexibility allows for adaptation but prevents standardization, making it difficult to measure maturity consistently across industries. The absence of a universal framework also leads to uneven tool adoption and inconsistent results, reinforcing the need for clearer guidance and shared benchmarks. Education becomes the critical barrier The rising proportion of organizations still in the learning phase reflects a shortage of accessible best practices and practical guidance. Many teams understand the goal of Zero Trust but struggle to translate it into architectural blueprints or measurable outcomes. Training, governance alignment, and vendor-neutral frameworks are now essential to bridge this gap, ensuring that education accelerates adoption rather than replacing it. Key takeaway Zero Trust remains the strategic north star for enterprise security, but the journey toward full implementation has stalled. Awareness is at an all-time high, yet maturity has barely shifted. This year’s findings highlight an execution gap driven by complexity, fragmented infrastructure, and limited practical guidance. Organizations that focus on education, cross-team alignment, and measurable governance will be best positioned to move Zero Trust from aspiration to operational reality. Trend 7: AI-powered threats and defenses go mainstream Artificial intelligence has become both the newest threat vector and the next frontier of defense. According to McKinsey, phishing attacks have surged by 1200% since generative AI went mainstream in 2022, but at the same time, more than 90% of defensive AI capabilities are being outsourced to third parties – showing that businesses are keen to leverage the technology to defend themselves. That trend will continue in 2026, when the conversation around defensive AI will move beyond theory and into practice. Organizations are no longer asking if AI will change their security posture. Instead they want to know how fast they can adapt. Our findings show that while most enterprises are already taking steps to address AI-powered attacks, only a minority have made the deeper structural and procedural changes needed to counter them effectively. The result is a mixed picture - strong awareness, accelerating experimentation, but uneven readiness. How they are adapting to AI-powered attacks? Most organizations are adapting, but depth of change varies The majority (65%) have already adapted their strategies, with 23.6% making major structural changes and 40.9% implementing moderate adjustments. Surprisingly, only 15.6% reported no action at all. This points to an industry that has accepted the inevitability of AI as both an enabler and an adversary. However, while surface-level adaptations are widespread, the transformation of governance, tooling, and training remains in its early stages. AI investment shifts toward visibility and control This year’s responses mark a sharp contrast to last year. Where last year’s priorities centered on real-time notifications and incident response, this year focus has shifted to AI-powered visibility and risk prioritization (39.1%). Organizations are using AI to map hybrid networks, detect policy drift, and surface anomalies faster. AI-driven compliance and policy enforcement (23.7%) has emerged as the next priority, reflecting growing confidence in machine-led governance for structured, repeatable tasks. In essence, enterprises are applying AI where precision matters more than prediction. Operational hygiene overtakes experimentation While generative AI captured early attention, most organizations are deploying AI to improve operational hygiene rather than innovation. Application-centric security modeling (18.4%) and identification of unused or overly permissive rules (15.8%) rank lower but illustrate a pragmatic trend: using AI to clean up, not reinvent. These controlled, low-risk use cases deliver measurable value while avoiding the unpredictability associated with broader AI automation. The preference for predictability over experimentation signals a cautious but maturing stage of adoption. AI readiness exposes gaps in governance and skills Despite rising adoption, governance and human oversight remain persistent challenges. Many teams lack formal frameworks to validate AI-driven decisions or ensure accountability when automated systems act autonomously. The gap between AI’s technical potential and organizational readiness mirrors the early years of cloud adoption, where enthusiasm outpaced structured implementation. Without parallel investments in training, oversight, and transparent governance, AI-powered defenses risk replicating the same visibility issues they are meant to solve. Which AI cases will have the greatest impact over the next 2 years? Key takeaway AI has become a defining force in network security, driving both threat evolution and defensive transformation. Two-thirds of organizations have already adjusted their strategies, but maturity levels remain uneven. The focus has shifted decisively from detection to visibility, and from experimentation to control. As enterprises refine their governance frameworks and strengthen human oversight, AI will transition from a reactive tool to an operational cornerstone, turning awareness into measurable resilience. Trend 8: Automation maturity continues What began as a gradual shift toward orchestration and policy simplification in previous years has now become a defining operational capability. Our research confirms that automation has matured into a measurable discipline that directly influences efficiency, compliance, and resilience across hybrid networks. Yet while the benefits are increasingly clear, full-scale orchestration across environments remains a work in progress. Automation becomes a measurable benchmark The results show a clear divide: 24% of organizations now operate at a high level of automation, while 30% report moderate automation. Twenty-six percent remain at a low level, and 20% still rely primarily on manual processes. This sprawl validates last year’s prediction that automation would become foundational to network security. It also underscores the persistence of a maturity gap between those leveraging automation strategically and those applying it reactively to reduce workloads. From process acceleration to policy assurance Beyond accelerating workflows, organizations are now using automation to enforce security policy consistently across hybrid environments. This includes automated risk analysis, change verification, and compliance tracking - all areas once dominated by manual oversight. By shifting from speed to assurance, automation has become central to maintaining reliability and reducing configuration drift, particularly in multi-vendor or multi-cloud architectures where consistency is hardest to achieve. How would you describe your organization’s current level of automation in network security management? Operational and cultural barriers persist Despite progress, barriers remain. Many organizations struggle to extend automation across silos, particularly between cloud, network, and application security teams. Legacy approval processes, lack of centralized governance, and limited cross-tool integration continue to restrict scalability. This has resulted in “partial” automation, where specific workflows are automated, but end-to-end orchestration across systems and teams remains difficult to pin down. This mirrors the early adoption curve we saw in cloud migration – progress being built through incremental cultural and procedural change rather than technology alone. A proving ground for AI-enhanced orchestration The intersection between automation and AI is emerging as the next frontier. AI-assisted orchestration tools are beginning to optimize rule management, recommend policy changes, and predict the downstream impact of configuration updates. However, confidence in fully autonomous decision-making remains low. For now, organizations are embracing a human-in-the-loop model, where automation handles execution while humans retain control of validation and governance. This balance is shaping a pragmatic, risk-conscious approach to automation at scale. Key takeaway Automation has evolved from a strategic ambition into an operational benchmark. Nearly half of all organizations now operate with moderate to high levels of automation, validating its role as a core pillar of network security. Yet maturity remains uneven, with cultural inertia and fragmented governance slowing progress. The next leap will come from convergence and uniting automated workflows, AI-assisted orchestration, and unified policy management to deliver the end-to-end agility and assurance enterprises have long aimed for. Trend 9: Consolidation - teams and platforms move toward unified control As hybrid environments expand and the boundaries between cloud, network, and security responsibilities continue to blur, businesses are rethinking not only what they manage but how they manage it. Our findings reveal an industry shifting toward shared accountability, unified visibility, and integrated control. Consolidation is happening at two levels: teams and platforms, and both are accelerating. Team structures shift toward shared ownership The operational model for security is undergoing a quiet but significant transformation. Organizations are moving away from isolated, domain-specific teams and toward structures that promote shared priorities and cross-functional coordination. The findings show that only 19% are currently working in siloed departments, while 36% of respondents report that their cloud, network, and security teams have consolidated around shared tools. A further 25% of respondents have aligned around shared initiatives and 20% have gone further, operating as fully consolidated teams. This represents a substantial step toward unified governance. Instead of managing separate workflows or conflicting priorities, teams are aligning around common frameworks for risk, compliance, and service delivery. As AI and automation become more embedded in operations, this collaborative approach is emerging as the new standard for effective decision-making and consistent policy enforcement. Shared tools become the foundation for cross-team alignment The rise of shared tooling reflects a deliberate move toward standardization. When cloud, network, and security teams use different systems, visibility fractures and operational gaps appear. But when they converge around shared management layers and shared data sources, collaboration becomes frictionless. This year’s results show that shared tools are now the primary mechanism for team alignment, which is the strongest sign yet that consolidation is being built from the ground up through day-to-day operational workflows rather than top-down restructuring. How would you best describe the current alignment of cloud & network security teams? Platform consolidation accelerates as organizations seek While team structures are converging, platform consolidation is accelerating even faster. According to our findings, 75% of organizations have consolidated at least some portion of their security tools or policies under a single platform of management layer. While team structures are converging, platform consolidation is accelerating even faster. According to the 2026 findings, 75% of organizations have consolidated at least some portion of their security tools or policies under a single platform or management layer. Around 30% report partial consolidation, 19% say the majority of their infrastructure now sits under one platform, and 10% have achieved full consolidation. Only a quarter still operate with fragmented tooling. What percentage of your cloud and network security tools are currently consolidated under a single platform or policy engine? This reflects a broader desire for unified visibility and simplified operations. As hybrid and multi-cloud deployments grow in scale, point solutions are becoming operationally burdensome. Organizations increasingly want fewer dashboards, fewer approval workflows, and fewer interfaces to manage, instead preferring integrated platforms that are capable of enforcing policy consistently across environments. Key takeaway Consolidation is redefining how enterprises operate, both structurally and technologically. Teams are aligning around shared tools, shared responsibilities, and, increasingly, shared governance models. At the same time, platforms are consolidating to provide unified visibility and consistent policy enforcement across hybrid environments. Conclusion The state of network security this year is defined by clarity emerging from complexity. After several years of rapid expansion across multi-cloud environments, AI-powered operations, and hybrid architectures, organizations are entering a new phase of consolidation and control. Our survey findings reveal a collective recalibration, with organizations moving away from tool proliferation toward unified management, shared visibility, and measurable automation. Firewalls, SD-WAN, and SASE have all evolved into foundational pillars of a more cohesive network security stack, while Zero Trust and AI continue to mature, bridging the gap between strategy and execution. Compared to last year, we are now seeing a transition from experimentation to optimization. Where last year’s findings reflected a market still expanding in every direction, this year captures a shift toward simplification. The drive for flexibility has given way to the pursuit of consistency, where performance metrics are being replaced by governance and assurance benchmarks. Consolidation of vendors, tools, and even teams, now defines the path forward. Adding layers of protection is not enough – those layers need to operate cohesively. Looking ahead, the next generation of network security will hinge on visibility, automation, and collaboration, not as separate initiatives, but as integrated capabilities that span every layer of the digital ecosystem. For an industry that has long been dominated by complexity and a “more is better” approach, the next year might be quite surprising. As organizations continue to align their cloud, network, and security teams, the most resilient will be those that embrace simplicity rather than complexity, transforming control into confidence. Methodology This report is based on comprehensive research conducted by AlgoSec, gathering insights from security, network, and cloud professionals across a broad range of industries and regions. The data was collected through a global survey carried out in the second half of 2025, designed to capture real-world perspectives on the challenges, priorities, and evolving trends shaping network security in 2026. Survey scope and participants The study reflects responses from 504 professionals representing 28 countries. Participants span a diverse set of roles, including security architects, engineers, and analysts (25%); IT and network managers (21%); CISOs and heads of security (13%); consultants and specialists (9%); CTOs, CIOs, and senior IT leaders (6%); business, program, and product managers (7%); DevOps, cloud, and software professionals (8%); and other or undefined roles (11%). This broad representation ensures a balanced view across enterprise, mid-market, and specialist organizations operating within hybrid and multi-cloud environments. Research objectives The primary goal of this study was to identify key trends and shifts in network security practice, from strategic priorities to operational realities. The research explores: How organizations are consolidating security management across hybrid and multi-cloud architectures The evolving role of automation, orchestration, and AI-driven security in modern frameworks Adoption trends across firewalls, SD-WAN, SASE, and Zero Trust architectures The impact of consolidation on tool selection, team alignment, and visibility How enterprises are adapting to AI-powered threats and increasing operational complexity Data collection and analysis Participants were asked to provide both quantitative and qualitative feedback on their current deployments, planned investments, and primary challenges in managing network security infrastructure. The survey established new baselines in several areas, including AI-powered attack readiness, automation maturity, and consolidation of tools and teams, while tracking multi-year trends from previous editions of the research. Responses were analyzed to identify correlations, emerging patterns, and year-over-year changes in market behavior. By leveraging direct insights from practitioners and decision-makers, this study provides an objective, vendor-neutral snapshot of the global network security landscape. Its findings are intended to help organizations benchmark their progress, assess market maturity, and make informed decisions as they navigate the next stage of digital transformation. About AlgoSec AlgoSec, a global cybersecurity leader, empowers organizations to securely accelerate application delivery up to 10 times faster by automating application connectivity and security policy across the hybrid network environment. With two decades of expertise securing hybrid networks, over 2200 of the world’s most complex organizations trust AlgoSec to help secure their most critical workloads. AlgoSec Horizon platform utilizes advanced AI capabilities, enabling users to automatically discover and identify their business applications across multi-clouds, and remediate risks more effectively. It serves as a single source for visibility into security and compliance issues across the hybrid network environment, to ensure ongoing adherence to internet security standards, industry, and internal regulations. Additionally, organizations can leverage intelligent change automation to streamline security change processes, thus improving security and agility. Learn how AlgoSec enables application owners, information security experts, SecOps and cloud security teams to deploy business applications faster while maintaining security at www.algosec.com . For more information, visit www.algosec.com 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 Manage secure application connectivity within ServiceNow 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

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

Learn best practices for mastering compliance automation for network security Webinars 5 Keys to Success: Automating compliance for network security In a landscape where technological progression is rapidly advancing every day, network security has become a crucial factor in the success of businesses. Keeping sensitive data secure is no longer just an option, it’s a necessity. But, with security issues constantly on the rise, maintaining compliance can be an overwhelming and time-consuming task for IT professionals. In this webinar, we cover automating compliance for network security as a key component for ensuring business. Join us to see why this is a crucial aspect of ensuring business success in today’s digital landscape. June 13, 2023 Tsippi Dach Director of marketing communications Asher Benbenisty Director of product marketing Relevant resources Cisco Regulatory Compliance Watch Video Automated Security Policy Changes for Speed and Compliance Keep Reading [Panel] How financial institutions can achieve network security and compliance Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue