Search results

BSI Standard 200 EN 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

Securing & managing hybrid network security 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

Problems with firewalls can be quite disastrous to your operations. When firewall rules are not set properly, you might deny all... Firewall Change Management Firewall troubleshooting steps & solutions to common issues 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 8/10/23 Published Problems with firewalls can be quite disastrous to your operations. When firewall rules are not set properly, you might deny all requests, even valid ones, or allow access to unauthorized sources. There needs to be a systematic way to troubleshoot your firewall issues, and you need to have a proper plan. You should consider security standards, hardware/software compatibility, security policy planning , and access level specifications. It is recommended to have an ACL (access control list) to determine who has access to what. Let us give you a brief overview of firewall troubleshooting best practices and steps to follow. Common firewall problems With the many benefits that firewalls bring, they might also pop out some errors and issues now and then. You need to be aware of the common issues, failures, and error codes to properly assess an error condition to ensure the smooth working of your firewalls. Misconfiguration errors A report by Gartner Research says that misconfiguration causes about 95% of all firewall breaches. A simple logical flaw in a firewall rule can open up vulnerabilities, leading to serious security breaches. Before playing with your firewall settings, you must set up proper access control settings and understand the security policy specifications. You must remember that misconfiguration errors in CLI can lead to hefty fines for non-compliance, data breaches , and unnecessary downtimes. All these can cause heavy monetary damages; hence, you should take extra care to configure your firewall rules and settings properly. Here are some common firewall misconfigurations: Allowing ICMP and making the firewall available for ping requests Providing unnecessary services on the firewall Allowing unused TCP/UDP ports The firewall is set to return a ‘deny’ response instead of a ‘drop’ for blocked ports. IP address misconfigurations that can allow TCP pinging of internal hosts from external devices. Trusting DNS and IP addresses that are not properly checked and source verified. Check out AlgoSec’s firewall configuration guide for best practices. Hardware issues Hardware bottlenecks and device misconfigurations can easily lead to firewall failures. Sometimes, running a firewall 24/7 can overload your hardware and lead to a lowered network performance of your entire system. You should look into the performance issues and optimize firewall functionalities or upgrade your hardware accordingly. Software vulnerabilities Any known vulnerability with your firewall software must be dealt with immediately. Hackers can exploit software vulnerabilities easily to gain backdoor entry into your network. So, stay current with all the patches and updates your software vendors provide. Types of firewall issues Most firewall issues can be classified as either connectivity or performance issues. Here are some tools you can use in each of these cases: Connectivity Issues Some loss of access to a network resource or unavailability usually characterizes these issues. You can use network connectivity tools like NetStat to monitor and analyze the inbound TCP/UDP packets. Both these tools have a wide range of sub-commands and tools that help you trace IP network traffic and control the traffic as per your requirements. Firewall Performance Issues As discussed earlier, performance issues can cause a wide range of issues, such as unplanned downtimes and firewall failures, leading to security breaches and slow network performance. Some of the ways you can rectify it include: Load balancing by regulating the outbound network traffic by limiting the internal server errors and streamlining the network traffic. Filtering the incoming network traffic with the help of Standard Access Control List filters. Simplifying firewall rules to reduce the load on the firewall applications. You can remove unused rules and break down complex rules to improve performance. Firewall troubleshooting checklist steps Step 1. Audit your hardware & software Create a firewall troubleshooting checklist to check your firewall rules, software vulnerabilities, hardware settings, and more based on your operating system. This should include all the items you should cover as part of your security policy and network assessment. With Algosec’s policy management , you can ensure that your security policy is complete, comprehensive and does not miss out on anything important. Step 2. Pinpoint the Issue Check what the exact issue is. Generally, a firewall issue can arise from any of the three conditions: Access from external networks/devices to protected resources is not functioning properly Access from the protected network/resources to unprotected resources is not functioning properly. Access to the firewall is not functioning properly. Step 3. Determine the traffic flow Once you have ascertained the exact access issue, you should check whether the issue is raised when traffic is going to the firewall or through the firewall. Once you have narrowed down this issue, you can test the connectivity accordingly and determine the underlying cause. Check for any recent updates and try to roll back if that can solve the issue. Go through your firewall permissions and logs for any error messages or warnings. Review your firewall rules and configurations and adjust them for proper working. Depending upon your firewall installation, you can make a checklist of items. Here is a simple guide you can follow to conduct routine maintenance troubleshooting . Monitor the network, test it out, and repeat the process until you reach a solution. Firewall troubleshooting best practices Here are some proven firewall troubleshooting tips. For more in-depth information, check out our Network Security FAQs page. Monitor and test Regular auditing and testing of your Microsoft firewall can help you catch vulnerabilities early and ensure good performance throughout the year. You can use expert-assisted penetration testing to get a good idea of the efficacy of your firewalls. Also be sure to check out the auditing services from Algosec , especially for your PCI security compliance . Deal with insider threats While a Mac or Windows firewall can help you block external threats to an extent, it can be powerless regarding insider attacks. Make sure you enforce strong security controls to avoid any such conditions. Your security policies must be crafted well to avoid any room for such conditions, and your access level specifications should also be well-defined. Device connections Make sure to pay attention to the other modes of attack that can happen besides a network access attempt. If an infected device such as a USB, router, hard drive, or laptop is directly connected to your system, your network firewall can do little to prevent the attack. So, you should put the necessary device restrictions in your privacy statement and the firewall rules. Review and Improve Update your firewall rules and security policies with regular audits and tests. Here are some more tips you can follow to improve your firewall security: Optimize your firewall ruleset to allow only necessary access Use unique user IP instead of a root ID to launch the firewall services Make use of a protected remote Syslog server and keep it safe from unauthorized access Analyze your firewall logs regularly to identify and detect any suspicious activity. You can use tools like Algosec Firewall Analyzer and expert help to analyze your firewall as well. Disable FTP connections by default Setup strict controls on how and which users can modify firewall configurations. Include both source and destination IP addresses and the ports in your firewall rules. Document all the updates and changes made to your firewall policies and rules. In the case of physical firewall implementations, restrict the physical access as well. Use NAT (network address translation) to map multiple private addresses to a public IP address before transmitting the information online. How does a firewall actually work? A Windows firewall is a network security mechanism that allows you to restrict incoming network traffic to your systems. It can be implemented as a hardware, software, or cloud-based security solution . It acts as a barrier stopping unauthorized network access requests from reaching your internal network and thus minimizing any attempt at hacking or breach of confidential data . Based on the type of implementation and the systems it is protecting, firewalls can be classified into several different types. Some of the common types of firewalls are: Packet filtering – Based on the filter standards, a small amount of incoming data is analyzed and subjected to restriction on distribution across the network. Proxy service – An application layer service that acts as an intermediary between the actual servers to block out unauthorized access requests. Stateful inspection – A dynamic packet filtering mechanism that filters out the network packets. Next-Generation Firewall (NGFW) – A combination of deep packet inspection and application level inspection to block out unauthorized access into the network. Firewalls are essential to network security at all endpoints, whether personal computers or full-scale enterprise data centers. They allow you to set up strong security controls to prevent a wide range of cyberattacks and help you gain valuable data. Firewalls can help you detect suspicious activities and prevent intrusive attacks at the earliest. They can also help you regulate your incoming and outgoing traffic routing, helping you implement zero-trust security policies and stay compliant with security and data standards. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

Cloud environments are complex and dynamic. Due to the complexity and multifacetedness of cloud technologies, cloud-native applications... Cloud Security What is a Cloud-Native Application Protection Platform (CNAPP) Ava Chawla 2 min read Ava Chawla 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 Cloud environments are complex and dynamic. Due to the complexity and multifacetedness of cloud technologies, cloud-native applications are challenging to safeguard. As a result, security teams use multiple security solutions, like CWPP and CSPM, to protect applications. The problem with this approach is that handling multiple security tools is laborious, time-consuming, and inefficient. Cloud-native application protection platform (CNAPP) is a new cloud security solution that promises to solve this problem. What is CNAPP? A cloud-native application protection platform (CNAPP) is an all-in-one tool with the capabilities of different cloud-native security tools. It combines the security features of multiple tools and provides comprehensive protection – from the development and configuration stages to deployment and runtime. Container security is here to stay A CNAPP combines CSPM, CIEM, IAM, CWPP, and more in one tool. It streamlines cloud security monitoring, threat detection, and remediation processes. The all-in-one platform gives organizations better visibility into threats and vulnerabilities. Instead of using multiple tools to receive alerts and formulate a remediation plan, a CNAPP minimizes complexity and enables security teams to monitor and draw insights from a single platform. How Does CNAPP Work and Why is it So Important to Have? This new cloud security approach offers the capabilities of multiple security tools in one software. Some of these security functions include Cloud Security Posture Management (CSPM), Infrastructure-as-Code (IaC) Scanning, Cloud Workload Protection Platform (CWPP), Cloud Network Security Connectivity (CNSC), and Kubernetes Security Posture Management (CIEM). The all-in-one platform centralizes insights, enabling security professionals to monitor and analyze data from the same space. A CNAPP identifies risks with strong context, provides detailed alerts, and offers automation features to fix vulnerabilities and misconfigurations. A CNAPP is essential because it reduces complexity and minimizes overhead. Given how complex and dynamic the cloud environments are, organizations are faced with enormous security threats. Enterprises deploy applications on multiple private and public clouds leveraging various dynamic, mixed technologies. This makes securing cloud assets significantly challenging. To cope with the complexity, security operations teams rely on multiple cloud security solutions. SecOps use various solutions to protect modern development practices, such as containers, Kubernetes, serverless functions, CI/CD pipelines, and infrastructure as code (IaC). This approach has been helpful. That said, it’s laborious and inefficient. In addition to not providing a broad view of security risks, dealing with multiple tools negatively impacts accuracy and decreases productivity. Having to correlate data from several platforms leads to errors and delayed responses. A CNAPP takes care of these problems by combining the functionalities of multiple tools in one software. It protects every stage of the cloud application lifecycle, from development to runtime. Leveraging advanced analytics and remediation automation, CNAPPs help organizations address cloud-native risks, harden applications, and institute security best practices. What Problems Does a CNAPP Solve? This new category of cloud application security tool is revolutionizing the cybersecurity landscape. It solves major challenges DevSecOps have been dealing with. That said, a CNAPP helps security teams to solve the following problems. 1. Enhancing Visibility and Quantifying Risks A CNAPP offers a broader visibility of security risks. It leverages multiple security capabilities to enable DevOps and DevSecOps to spot and fix potential security issues throughout the entire application lifecycle. The all-in-one security platform enables teams to keep tabs on all cloud infrastructures ( like apps, APIs, and classified data) and cloud services (like AWS, Azure, and Google Cloud). In addition, it provides insights that help security teams to quantify risks and formulate data-driven remediation strategies. 2. Combined Cloud Security Solution A CNAPP eliminates the need to use multiple cloud-native application protection solutions. It provides all the features needed to detect and solve security issues. Scanning, detection, notification, and reporting are consolidated in one software. This reduces human error, shortens response time, and minimizes the cost of operation. 3. Secure Software Development It reinforces security at every stage of the application lifecycle. The tool helps DevOps teams to shift left, thus minimizing the incidence of vulnerabilities or security issues at runtime. 4. Team Collaboration Collaboration is difficult and error-prone when teams are using multiple tools. Data correlation and analysis take more time since team members have more than one tool to deal with. A CNAPP is a game-changer! It has advanced workflows, data correlation, analytics, and remediation features. These functionalities enhance team collaboration and increase productivity. What are CNAPP Features and Capabilities/Key Components of CNAPP? Even though the features and capabilities of CNAPPs differ (based on vendors), there are key components an effective CNAPP should have. That being said, here are the seven key components: Cloud Security Posture Management (CSPM) A CSPM solution focuses on maintaining proper cloud configuration. It monitors, detects, and fixes misconfigurations & compliance violations. CSPM monitors cloud resources and alerts security teams when a non-compliant resource is identified. Infrastructure-as-Code (IaC) Scanning IaC Scanning enables the early detection of errors (misconfigurations) in code. Spotting misconfigurations before deployment helps to avoid vulnerabilities at runtime. This tool is used to carry out some kind of code review. The purpose is to ensure code quality by scanning for vulnerable points, compliance issues, and violations of policies. Cloud Workload Protection Platform (CWPP) Cloud workload protection platform (CSPM) secures cloud workloads, shielding your resources from security threats. CSPM protects various workloads, from virtual machines (VMs) and databases to Kubernetes and containers. A CWPP monitors and provides insights to help security teams prevent security breaches. Cloud Network Security Connectivity (CNSC) Cloud Network Security Connectivity (CNSC) provides complete real-time visibility and access to risks across all your cloud resources and accounts. This cloud security solution allows you to explore the risks, activate security rules, and suppress whole risks or risk triggers, export risk trigger details, access all network rules in the context of their policy sets and create risk reports. Kubernetes Security Posture Management (KSPM) Kubernetes security posture management (KSPM) capability enables organizations to maintain standard security posture by preventing Kubernetes misconfigurations and compliance violations. KSPM solution, similar to Cloud Security Posture Management (CSPM), automates Kubernetes security, reinforces compliance, identifies misconfigurations, and monitors Kubernetes clusters to ensure maximum security. Cloud Infrastructure Entitlement Management (CIEM) A Cloud Infrastructure Entitlement Management (CIEM) tool is used to administer permissions and access policies. To maintain the integrity of cloud and multi-cloud environments, identities and access privileges must be regulated. This is where CIEM comes in! CIEM solutions, also known as Cloud permissions Management Solutions, help organizations prevent data breaches by enforcing the principle of least privileges. Integration to Software Development Activities This component of CNAPP focuses on integrating cloud-native application protection solutions into the development phase to improve reliability and robustness in the CI/CD pipeline stage. What are the Benefits of CNAPP? Transitioning from using multiple cloud security tools to implementing a CNAPP solution can benefit your company in many ways. Some benefits include: 1. Streamlines Security Operations Managing multiple security tools decreases efficiency and leads to employee burnout. Correlating data from different software is laborious and error-prone. It prolongs response time. A CNAPP streamlines activities by giving security teams broad visibility from a single tool. This makes monitoring and remediation easier than ever – making security teams more efficient and productive. 2. Better Visibility into Risks A CNAPP provides better visibility into security risks associated with your cloud infrastructure. It covers all aspects of cloud-native application protection, providing security teams with the necessary insights to close security gaps, harden applications, and ward off threats. 3. Improves Security With Automation Risk detection and vulnerability management are automated. Automation of security tasks increases reliability, reduces human error, and enables rapid response to threats. It combines automation and advanced analytics to offer organizations accurate insights into risks. 4. Reduces the Number of Bug Fixes A CNAPP prevents vulnerabilities at runtime by detecting threats and errors in the CI/CD pipeline phases. This approach improves DevOps team productivity and decreases the number of bug fixes after deployment. In other words, shifting left ensures the deployment of high-quality code. 5. Reduces Overhead Costs If you want to cut down the cost of operation, consider choosing a CNAPP over CSPM and other standalone cloud security tools. It reduces overhead by eliminating the need to operate and maintain multiple cloud security solutions. AlgoSec CNAPP with Prevasio and CloudFlow Cloud environments are increasingly complex and dynamic. Maintaining secure cloud infrastructures has become more challenging than ever. Security teams rely on multiple tools to gain visibility into risks. CNAPPs promise to fix the challenges of using multiple solutions to protect cloud-native applications. Gartner, the first to describe the CNAPP category, encourages organizations to consider emerging CNAPP providers and adopt an all-in-one security approach that takes care of the entire life cycle of applications – covering development and runtime protection. Prevasio makes transitioning to a CNAPP a fantastic experience. Prevasio takes pride in helping organizations protect their cloud-native applications and other cloud assets. Prevasio’s agentless cloud-native application protection platform (CNAPP) offers increased risk visibility and enables security teams to reinforce best practices. Contact us to learn how we can help you manage your cloud security. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

Eric Jeffery, AlgoSec’s regional solutions engineer, gives his view on the pivotal role of AppSec network engineers and how they can... Application Connectivity Management How AppSec Network Engineers Can Align Security with the Business Eric Jeffery 2 min read Eric Jeffery 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 7/13/22 Published Eric Jeffery, AlgoSec’s regional solutions engineer, gives his view on the pivotal role of AppSec network engineers and how they can positively impact the business It may surprise many people but the number one skills gap hampering today’s application security network engineers is primarily centred around the soft skills which includes communication, writing, presentation, team building and critical thinking. Why is this so important? Because first and foremost, their goal is to manage the organization’s security posture by deploying the best application security tools and technologies for the specific security and growth needs of the business. Keep things safe but don’t get in the way of revenue generation What an application security network engineer should not do is get in the way of developing new business-critical or revenue generating applications. At the same time, they need to understand that they have a leadership role to play in steering a safe and profitable course for the business. Starting with an in depth understanding of all wired traffic, AppSec network engineers need to know what applications are running on the network, how they communicate, who they communicate with and how to secure the traffic and connectivity flow associated with each one of them. An AppSec network engineer’s expertise should extend much more than mastering simple applications such as FTP and SSH. Rather, business traffic continuity should sit at the pinnacle of their responsibilities. There’s a lot of revenue generating traffic that they need to understand and put the right guardrails to protect it. However, equally as important, they need to make sure that the traffic is not hindered by outdated or irrelevant rules and policies, to avoid any negative financial impact on the organization. Layers of expertise beyond the OSI model A good starting point for any AppSec network engineer is to acquire a commanding knowledge of the seven layers of the OSI model, especially Layer 6 which covers Presentation. In practical terms, this means that they should have a thorough understanding of the network and transport layers – knowing what traffic is going across the network and why. It’s also helpful to have basic scripting knowledge and an understanding of simple scripts such as a cron job for scheduling tasks. It could also be useful to know some basic level programming like Perl and PHP. Beyond the network skills, AppSec network engineers should grasp the business vertical in which they operate. Once they gain an understanding of the business DNA and the applications that make it tick, then they can add real value to their organizations. What’s on the network vs. what should be on the network Should AppSec network engineers be expected to understand business and applications? Absolutely. With this level of skill and knowledge, they can help the business progress securely by corelating what is actually in the network environment versus what should be in the environment. Once they have clear understanding, they can clean up then environment and optimize network performance with enhanced security. This becomes more critical as organizations grow and develop, often allowing too much unnecessary traffic into the environment. Typically, this is how the scenario plays out: Applications are added or removed (decommissioned), or a new vendor or solution is brought on board and the firewall turns into a de facto router. The end result of such often leads to new vulnerabilities and too many unnecessary threat vectors. This is precisely where the aforementioned soft skills come in – an AppSec network engineer should be able to call out practices that don’t align with business goals. It’s also incumbent upon organizations to offer soft skills training to help their AppSec network engineers become more valuable to their teams. Need an application view to be effective in securing the business When firewalls become de facto routers, organizations end up relying on other areas for security. However, security needs to be aligned with the applications to prevent cyber attacks from getting onto the network and then from moving laterally across the network, should they manage to bypass the firewalls. All too often, east-west security is inadequate and therefore, AppSec network engineers need to look at network segmentation and application segmentation as part of a holistic network security strategy. The good news is that there are some great new technologies that can help with segmenting an internal network. The lesser good news is that there’s a danger in the thinking that by bolting on new tools, the problem will be solved. So often these tools are only partially deployed before the team moves onto the next “latest and the greatest” solution. When exploring new technologies, AppSec network engineers must ask themselves the following: Is there a matching use case for each solution? Will procurement of another tool lead to securing the environment or will it just be another useless “flavor of the month” tool? Irregardless, once the new technology solution is acquired, it is imperative to align the right skilful people with this technology to enable the organization to intelligently secure the whole environment before moving onto a new tool. To further hone this point, celebrating the introduction of a new firewall is superfluous if at the end of the day, it does not utilize the right rules and policies. Ushering some of these new technologies without proper deployment will only leave gaping holes and give organizations a false sense of security, exposing them to continuous risks. Don’t put the cloud native cart before the horse The role of an AppSec network engineer becomes even more critical when moving to the cloud. It starts with asking probing questions: What are the applications in the business and why are we moving them to the cloud? Is it for scalability, speed of access or to update a legacy system? Will the business benefit from the investment and the potential performance impact? It’s also important to consider the architecture in the cloud: Is it containerized, public cloud, private cloud or hybrid? Once you get definitive answers to these questions, create reference architectures and get senior level buy-in. Finally, think about the order in which the enterprise migrates applications to the cloud and maybe start with some non-critical applications that only affect a small number of locations or people before risking moving critical revenue generating applications. Don’t put the cart before the horse. DevSecOps: We should be working together; you can be sure the criminals are… Network application security is complicated enough without introducing internal squabbles over resources or sacrificing security for speed. Security teams and development teams need to work together and focus on what is best for your business. Again, this where the soft skills like teamwork, communications and project management come into play. The bottom line is this: Understand bad actors and prepare for the worst. The bad guys are just chomping at the bit, waiting for your organizations to make the next mistake. To beat them, DevSecOps teams must leverage all the resources they have available. Future promise or false sense of security? There are some exciting new technologies to look forward to in the horizon to help secure the application environment. Areas like quantum computing, machine learning, AI and blockchain show great promise in outfoxing the cyber criminals in the healthcare and financial services industries. It is expected that the AppSec network engineer will play a vital role in the viability of these new technologies. Yet, the right technology will still need to be applied to the right use case correctly and then fully deployed to in order see any effective results. The takeaway So much of the role of the AppSec network engineer is about taking a cold hard look at the goals of the business and asking some challenging questions. It all starts with “what’s right for the business?” rather than “what’s the latest technology we can get our hands on?” To be an effective AppSec network engineer, individuals should not only know the corporate network inside out, but they also must have an overall grasp of applications and the applicable business cases they support. Furthermore, collaboration with developers and operations (DevOps) becomes an agent for rapid deployment of revenue generating or mission critical applications. But it still goes back to the soft skills. To protect the business from taking needless security risks and demand a seat at the decision-making table, AppSec network engineers need to apply strong leadership, project management and communications skills To learn more on the importance of AppSec network engineers to your organization’s cybersecurity team, watch the following video Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

Tsippi Dach, Director of Communications at AlgoSec, explores what happened during this past summer’s Fastly outage, and explores how your... Application Connectivity Management The great Fastly outage 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 9/29/21 Published Tsippi Dach, Director of Communications at AlgoSec, explores what happened during this past summer’s Fastly outage, and explores how your business can protect itself in the future. The odds are that before June 8th you probably hadn’t heard of Fastly unless you were a customer. It was only when swathes of the internet went down with the 503: Service Unavailable error message that the edge cloud provider started to make headlines . For almost an hour, sites like Amazon and eBay were inaccessible, costing millions of dollars’ worth of revenue. PayPal, which processed roughly $106 million worth of transactions per hour throughout 2020, was also impacted, and disruption at Shopify left thousands of online retail businesses unable to serve customers. While the true cost of losing a significant portion of the internet for almost one hour is yet to be tallied, we do know what caused it. What is Fastly and why did it break the internet? Fastly is a US-based content distribution network (CDN), sometimes referred to as an ‘edge cloud provider.’ CDNs relieve the load on a website’s servers and ostensibly improve performance for end-users by caching copies of web pages on a distributed network of servers that are geographically closer to them. The downside is that when a CDN goes down – due to a configuration error in Fastly’s case – it reveals just how vulnerable businesses are to forces outside of their control. Many websites, perhaps even yours, are heavily dependent on a handful of cloud-based providers. When these providers experience difficulties, the consequences for your business are amplified ten-fold. Not only do you run the risk of long-term and costly disruption, but these weak links can also provide a golden opportunity for bad actors to target your business with malicious software that can move laterally across your network and cause untold damage. How micro-segmentation can help The security and operational risks caused by these outages can be easily mitigated by implementing plans that should already be part of an organization’s cyber resilience strategy. One aspect of this is micro-segmentation , which is regarded as one of the most effective methods to limit the damage of an intrusion or attack and therefore limit large-scale downtime from configuration misfires and cyberattacks. Micro-segmentation is the act of creating secure “zones” in data centers and cloud deployments that allow your company to isolate workloads from one another. In effect, this makes your network security more compartmentalized, so that if a bad actor takes advantage of an outage in order to breach your organization’s network, or user error causes a system malfunction, you can isolate the incident and prevent lateral impact. Simplifying micro-segmentation with AlgoSec Security Management Suite The AlgoSec Security Management Suite employs the power of automation to make it easy for businesses to define and enforce their micro-segmentation strategy, ensuring that it does not block critical business services, and also meets compliance requirements. AlgoSec supports micro-segmentation by: Mapping the applications and traffic flows across your hybrid network Identifying unprotected network flows that do not cross any firewall and are not filtered for an application Automatically identifying changes that will violate the micro-segmentation strategy Ensuring easy management of network security policies across your hybrid network Automatically implementing network security policy changes Automatically validating changes Generating a custom report on compliance with the micro-segmentation policy Find out more about how micro-segmentation can help you boost your security posture, or request your personal demo . Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

As 2022 comes to a close, Professor Avishai Wool, AlgoSec Co-Founder and CTO, provides his top 5 issues organizations will need to be... IaC 2023 Cybersecurity Predictions and Best Practices 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 12/6/22 Published As 2022 comes to a close, Professor Avishai Wool, AlgoSec Co-Founder and CTO, provides his top 5 issues organizations will need to be aware in 2023 that will also dominate the cyber community conversation. 1) Application centric approach to network security will supersede basic NSPM I think the market has matured to the point where the NSPM approach has reached a tipping point and I see the shift to an application perspective becoming the de facto approach in network security policy management as there are better and more robust technologies in the market that can help organizations get there faster. I see this shift becoming even more viable in 2023 based on recent market trends in which organizations are opting for downsizing and trying to do more with the smaller staff at the expense of losing tribal knowledge. As a result, I see organizations shifting more towards adopting a holistic approach to network security that are more application centric in which they can retain critical knowledge, such as application traffic intent and application policy rules, so that the new generations can step in and pick up where the previous predecessors left off. 2) Containerization will enhance layered security I expect container security to be increasingly popular in the future, as companies understand that their existing network security mechanisms are not enough for the communication networks of today. Containers are seen as a cost-effective light-weight solution for deployment – and deploying them introduces another inner layer where security policies can be applied: behind the perimeter filters, the internal zoning, and the micro-segmentation, organizations can now also consider nano-segmentation at the container level. Vulnerability testing is another dimension of the container platform especially within cloud applications and SaaS products. The common Kubernetes platform offers both opportunities and challenges for vulnerability scanners. Beyond 2023 , businesses will need to enhance both their visibility and management capabilities of security within their containerized applications 3) Security driven IaaS ecosystems to improve network security I expect the popularity of Infrastructure as a service (IaaS) to continue to soar, making it difficult for security teams to keep up with the associated risks and vulnerabilities. Pre-set security settings may not meet the needs of the organization and customizing these settings can prove to be difficult. The customizability of IaaS offers great potential for productivity, but it also makes it complicated to secure. The bottom line is that companies can no longer depend on their network perimeter to guard sensitive data. In response, I anticipate organizations that begin utilizing an “Always-on Security” approach such as Infrastructure as Code (IaC) which would permit them to construct personalized policies to control the development environments during each phase of the software development life cycle (SDLC) and recognize potential risks, security flaws, and compliance issues on a what-if basis, before deploying flawed settings into production. 4) Cloud-native security tools will reign supreme I expect that cloud-based security systems will become more commonplace: these security solutions offer a wide range of abilities, such as secure access, identity and access management, data loss prevention, application security, automation of security, detection and prevention of intrusions, security information and event management, and encryption. With companies transitioning more workloads to the cloud, they will want to make use of many of these features. These tools make it possible for remote teams to manage a greater public cloud presence: comfortably configuring services and automating processes, to identify and preemptively tackle any kind of threats. To bridge the gap in cloud data security, I anticipate the emergence of data safeguarding systems that are designed specifically for cloud usage and are able to link up with public cloud systems in an advanced, agentless manner. This has been classified in the market as Cloud Native Application Protection Platform (CNAPP) . These platforms must be able to detect where the data is stored and what sorts of data are stored in the cloud, so that corporations can prioritize on what is most important – defending their most sensitive data and cloud-based applications without interfering with their normal operations. 5) Expect ransomware not to go away and get even more sophisticated Organizations in 2022 saw no let-up from ransomware threats, some of whom were attacked multiple times and I do not see any reason why this trend will change in 2023. Cyber criminals are getting more resourceful and savvier in their attempts to stay ahead of law enforcement, and I anticipate these attacks will only become more frequent as their perpetrators are proving more capable of infiltrating many organizations’ cyber defenses. In response, organizations will have to seek more technology solutions to protect data at the source. But that would not suffice. I think organizations will need to look beyond technological solutions and apply better preparedness strategies. Whether it be Zero Trust or something less overarching but more practical for an organization’s business needs, such as Micro-segmentation , it would ensure that threat-actors would not be able to access the data residing inside the security perimeter. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

Jeremiah Cornelius, Technical Leader for Alliances and Partners at AlgoSec, explores the security capability native to VMware’s approach... Digital Transformation Intrinsic Transformation: VMware NSX-T and AlgoSec Go Beyond Virtualization Jeremiah Cornelius 2 min read Jeremiah Cornelius 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 7/8/21 Published Jeremiah Cornelius, Technical Leader for Alliances and Partners at AlgoSec, explores the security capability native to VMware’s approach for virtual networking with NSX-T. Intrinsic transformation NSX-T culminates VMware’s decade of development of these technologies, that better align than ever before with AlgoSec’s approach for software automation of micro-segmentation and compliant security operations management. It is the latest iteration of VMware’s approach to networking and security, derived from many years as a platform for operating virtual machines, and managing these as hosted “vApp” workloads. If you’re familiar with the main players in Software Defined Networking, then you may remember that NSX-T shares its origin in the same student research at Stanford University, which also gave rise to several other competing SDN offerings. One thing that differentiated VMware from other players was their strong focus on virtualization over traditional network equipment stacks. This meant in some cases, network connections, data-packets, forwarding, and endpoints all existing in software and no “copper wire” existing anywhere! Knowing about this difference is more than a bit of trivia — it explains how the NSX family was designed with security features built into the architecture, having native capability for software security controls such as firewall segmentation and packet inspection. Described by VMware as “Intrinsic Security,” these are NSX capabilities that first drove the widespread acceptance of practical micro-segmentation in the data center. Since that first introduction of NSX micro-segmentation, a transformation occurred in customer demands, which required an expansion of VMware’s universe to horizons beyond their hypervisor and virtual machines. As a key enabler for this expansion, NSX-T has emerged as a networking and security technology that extends from serverless micro-services and container frameworks to VMs hosted on many cloud architectures located in physical data centers or as tenants in public clouds. The current iteration is called the NSX-T Service-Defined Firewall, which controls access to applications and services along with business-focused policies. Leaders in our segments If you’ve followed this far along, then maybe you’ve recognized several common themes between AlgoSec’s Security Management Suite and VMware’s NSX-T. Among these are security operations management as software configuration, modeling connectivity on business uses versus technology conventions, and transforming security into an enabling function. It’s not a surprise then, to know that our companies are technology partners. In fact, we began our alliance with VMware back in 2015 as the uptake in NSX micro-segmentation began to reveal an increased need for visibility, planning, automation, and reporting — along with requirements for extending policy from NSX objects to attached physical security devices from a variety of vendors. The sophistication and flexibility of NSX enforcement capability were excellently matched by the AlgoSec strengths in identifying risk and maintaining compliance while sustaining a change management record of configurations from our combined workflow automation. Strength to strength Up until now, this is a rosy picture painted, with an emphasis on the upsides of the AlgoSec partnership with VMware NSX-T. In the real world, we find that many of our applications are not-so-well understood as to be ready for micro-segmentation. More often, the teams responsible for the availability and security of these applications are detached from the business intent and value, further making it difficult to assess and therefore address risks. The line between traditional-style infrastructure and modern services isn’t always as clearly defined, either — making the advantages possible by migration and transformation difficult to determine and potentially introducing their own risks. It is in these environments, with multiple technologies, different stakeholders, and operation teams with different scopes, that AlgoSec solves hard problems with better automation tools. Taking advantage of NSX-T means first being faced with multiple deployment types, including public and private clouds as well as on-prem infrastructure, multiple security vendors, unclear existing network flows, and missing associations between business applications and their existing controls. These are visibility issues that AlgoSec resolves by automating the discovery and mapping of business applications , including associated policies across different technologies, and producing visual, graphic analysis that includes risk assessment and impact of changes. This capability for full visibility leads directly to addressing the open issues for risk and compliance. After all, if these present challenges in discovering and identifying risk using existing technology solutions, then there’s a big gap to close on the way to transforming these. Since AlgoSec has addressed the visibility across these, identifying risk becomes uniform and manageable. AlgoSec can lower transformation risk with NSX-T while ensuring that risk and compliance management are maintained on an ongoing basis. Workflow for risk mitigation by NSX-T intrinsic security can be driven by AlgoSec policy automation, without recourse to multiple tools when these mitigations need to cross boundaries to third-party firewalls or cloud security controls. With this integrated policy automation, what were once point-in-time configurations can be enabled for discovery-based updates for internal standards and changes to regulatory mandates. The result of AlgoSec pairing with VMWare NSX-T is a simplified overall security architecture — one that more rapidly responds to emerging risk and requests for changes, accelerates the speed of operations while more closely aligning with business, and ensures both compliant configurations and compliant lifecycle operations. VMware NSX? Ask AlgoSec The AlgoSec integration with VMware NSX-T builds on our years of collaboration with earlier versions of the NSX platform, with a track record of solving the more difficult configuration management problems for leaders of principal industries around the globe. If you want to discover more about what AlgoSec does to enable and enrich our alliance solution with VMware , contact us! AlgoSec works directly with VMware and your trusted technology delivery partners, and we’re glad to share more with you. Schedule a personal demo to see how AlgoSec makes your transformation to VMware Intrinsic Security possible now. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

As organizations respond to an ever-evolving set of security threats, network teams are scrambling to find new ways to keep up with... Auditing and Compliance Continuous compliance monitoring best practices 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 3/19/23 Published As organizations respond to an ever-evolving set of security threats, network teams are scrambling to find new ways to keep up with numerous standards and regulations to dodge their next compliance audit violation. Can this nightmare be avoided? Yes, and it’s not as complex as one might think if you take a “compliance first” approach . It may not come as a surprise to many, but the number of cyber attacks is increasing every year and with it the risk to companies’ financial, organizational, and reputational standing. What’s at stake? The stakes are high when it comes to cyber security compliance. A single data breach can result in massive financial losses, damage to a company’s reputation, and even jail time for executives. Data breaches: Data breaches are expensive and becoming even more so by the day. According to the Ponemon Institute’s 2022 Cost of a Data Breach Report , the average cost of a data breach is $4.35 million. Fraud: Identity fraud is one of the most pressing cybersecurity threats today. In large organizations, the scale of fraud is also usually large, resulting in huge losses causing depletion of profitability. In a recent survey done by PwC, nearly one in five organizations said that their most disruptive incident cost over $50 million*. Theft: Identity theft is on the rise and can be the first step towards compromising a business. According a study from Javelin Strategy & Research found that identity fraud costs US businesses an estimated total of $56 billion* in 2021. What’s the potential impact? The potential impact of non-compliance can be devastating to an organization. Financial penalties, loss of customers, and damage to reputation are just a few of the possible consequences. To avoid these risks, organizations must make compliance a priority and take steps to ensure that they are meeting all relevant requirements. Legal impact:  Regulatory or legal action brought against the organization or its employees that could result in fines, penalties, imprisonment, product seizures, or debarment.  Financial impact:  Negative impacts with regard to the organization’s bottom line, share price, potential future earnings, or loss of investor confidence.  Business impact:  Adverse events, such as embargos or plant shutdowns, could significantly disrupt the organization’s ability to operate.  Reputational impact:  Damage to the organization’s reputation or brand—for example, bad press or social-media discussion, loss of customer trust, or decreased employee morale.  How can this be avoided? In order to stay ahead of the ever-expanding regulatory requirements, organizations must adopt a “compliance first” approach to cyber security. This means enforcing strict compliance criteria and taking immediate action to address any violations to ensure data is protected. Some of these measures include the following: Risk assessment: Conduct ongoing monitoring of compliance posture (risk assessment) and conduct regular internal audits (ensuring adherence with regulatory and legislative requirements (HIPAA, GDPR, PCI DSS, SOX, etc.) Documentation: Enforce continuous tracking of changes and intent Annual audits: Commission 3rd party annual audits to ensure adherence with regulatory and legislative requirements (HIPAA, GDPR, PCI DSS, SOX, etc.) Conclusion and next steps Compliance violations are no laughing matter. They can result in fines, business loss, and even jail time in extreme cases. They can be difficult to avoid unless you take the right steps to avoid them. You have a complex set of rules and regulations to follow as well as numerous procedures, processes, and policies. And if you don’t stay on top of things, you can end up with a compliance violation mess that is difficult to untangle. Fortunately, there are ways to reduce the risk of being blindsided by a compliance violation mess with your organization. Now that you know the risks and what needs to be done, here are six best practices for achieving it. External links: $50 million $56 billion Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

Linux containers aren’t new. In fact, this technology was invented 20 years ago. In 2013, Docker entered the scene and revolutionized... Cloud Security Operation “Red Kangaroo”: Industry’s First Dynamic Analysis of 4M Public Docker Container Images 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 12/1/20 Published Linux containers aren’t new. In fact, this technology was invented 20 years ago. In 2013, Docker entered the scene and revolutionized Linux containers by offering an easy-to-use command line interface (CLI), an engine, and a registry server. Combined, these technologies have concealed all the complexity of building and running containers, by offering one common industry standard . As a result, Docker’s popularity has sky-rocketed, rivalling Virtual Machines, and transforming the industry. In order to locate and share Docker container images, Docker is offering a service called Docker Hub . Its main feature, repositories , allows the development community to push (upload) and pull (download) container images. With Docker Hub, anyone in the world can download and execute any public image, as if it was a standalone application. Today, Docker Hub accounts over 4 million public Docker container images . With 8 billion pulls (downloads) in January 2020 and growing , its annualized image pulls should top 100 billion this year. For comparison , Google Play has 2.7M Android apps in its store, with a download rate of 84 billion downloads a year. How many container images currently hosted at Docker Hub are malicious or potentially harmful? What sort of damage can they inflict? What if a Docker container image downloaded and executed malware at runtime? Is there a reliable way to tell that? What if a compromised Docker container image was downloaded by an unsuspecting customer and used as a parent image to build and then deploy a new container image into production, practically publishing an application with a backdoor built into it? Is there any way to stop that from happening? At Prevasio, we asked ourselves these questions multiple times. What we decided to do has never been done before. The Challenge At Prevasio, we have built a dynamic analysis sandbox that uses the same principle as a conventional sandbox that ‘detonates’ malware in a safe environment. The only difference is that instead of ‘detonating’ an executable file, such as a Windows PE file or a Linux ELF binary, Prevasio Analyzer first pulls (downloads) an image from any container registry, and then ‘detonates’ it in its own virtual environment, outside the organization/customer infrastructure. Using our solution, we then dynamically analyzed all 4 million container images hosted at Docker Hub. In order to handle such a massive volume of images, Prevasio Analyzer was executed non-stop for a period of one month on 800 machines running in parallel. The result of our dynamic scan reveals that: 51 percent of all containers had “critical” vulnerabilities, while 13 percent were classified as “high” and four percent as “moderate” vulnerabilities. Six thousand containers were riddled with cryptominers, hacking tools/pen testing frameworks, and backdoor trojans. While many cryptominers and hacking tools may not be malicious per se, they present a potentially unwanted issue to an enterprise. More than 400 container images (with nearly 600,000 pulls) of weaponized Windows malware crossing over into the world of Linux. This crossover is directly due to the proliferation of cross-platform code (e.g. GoLang, .NET Core and PowerShell Core). Our analysis of malicious containers also shows that quite a few images contain a dynamic payload. That is, an image in its original form does not have a malicious binary. However, at runtime, it might be scripted to download a source of a coinminer, to then compile and execute it. A dynamic analysis sandbox, such as Prevasio Analyzer, is the only solution that provides a behavioral analysis of Docker containers. It is built to reveal malicious intentions of Docker containers by executing them in its own virtual environment, revealing a full scope of their behavior. The whitepaper with our findings is available here . Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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 fusion of Cloud and AI is more than just a technological advancement; it’s a paradigm shift. As businesses harness the combined power... Hybrid Cloud Security Management The confluence of cloud and AI: charting a secure path in the age of intelligent innovation Adel Osta Dadan 2 min read Adel Osta Dadan 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 9/20/23 Published The fusion of Cloud and AI is more than just a technological advancement; it’s a paradigm shift. As businesses harness the combined power of these transformative technologies, the importance of a security-centric approach becomes increasingly evident. This exploration delves deeper into the strategic significance of navigating the Cloud-AI nexus with a focus on security and innovation. Cloud and AI: catalysts for business transformation The cloud provides the foundational infrastructure, while AI infuses intelligence, making systems smarter and more responsive. Together, they’re reshaping industries, driving efficiencies, and creating new business models. However, with these opportunities come challenges. Ensuring robust security in this intertwined environment is not just a technical necessity but a strategic imperative. As AI algorithms process vast datasets in the cloud, businesses must prioritize the protection and integrity of this data to build and maintain trust. Building trust in intelligent systems In the age of AI, data isn’t just processed; it’s interpreted, analyzed, and acted upon. This autonomous decision-making demands a higher level of trust. Ensuring the confidentiality, integrity, and availability of data in the cloud becomes paramount. Beyond just data protection, it’s about ensuring that AI-driven decisions, which can have real-world implications, are made based on secure and untampered data. This trust forms the bedrock of AI’s value proposition in the cloud. Leadership in the Cloud-AI era Modern leaders are not just visionaries; they’re also gatekeepers. They stand at the intersection of innovation and security, ensuring that as their organizations harness AI in the cloud, ethical considerations and security protocols are front and center. This dual role is challenging but essential. As AI-driven applications become integral to business operations, leaders must champion a culture where security and innovation coexist harmoniously. Seamless integration and the role of DevSecOps Developing AI applications in the cloud is a complex endeavor. It requires a seamless integration of development, operations, and crucially, security. Enter DevSecOps. This approach ensures that security is embedded at every stage of the development lifecycle. From training AI models to deploying them in cloud environments, security considerations are integral, ensuring that the innovations are both groundbreaking and grounded in security. Collaborative security for collective intelligence AI’s strength lies in its ability to derive insights from vast datasets. In the interconnected world of the cloud, data flows seamlessly across boundaries, making collaborative security vital. Protecting this collective intelligence requires a unified approach, where security protocols are integrated across platforms, tools, and teams. Future-proofing the Cloud-AI strategy The technological horizon is ever-evolving. The fusion of Cloud and AI is just the beginning, and as businesses look ahead, embedding security into their strategies is non-negotiable. It’s about ensuring that as new technologies emerge and integrate with existing systems, the foundation remains secure and resilient. AlgoSec’s unique value proposition At AlgoSec, we understand the intricacies of the Cloud-AI landscape. Our application-based approach ensures that businesses have complete visibility into their digital assets. With AlgoSec, organizations gain a clear view of their application connectivity, ensuring that security policies align with business processes. As AI integrates deeper into cloud strategies, AlgoSec’s solutions empower businesses to innovate confidently, backed by a robust security framework. Our platform provides holistic, business-level visibility across the entire network infrastructure. With features like AlgoSec AppViz and AppChange, businesses can seamlessly identify network security vulnerabilities, plan migrations, accelerate troubleshooting, and adhere to the highest compliance standards. By taking an application-centric approach to security policy management, AlgoSec bridges the gap between IT teams and application delivery teams, fostering collaboration and ensuring a heightened security posture. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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

ALGOSEC DESIGNATED SUPPORT ENGINEER 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