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- AlgoSec Horizon Security Analyzer brochure - AlgoSec
AlgoSec Horizon Security Analyzer brochure Download PDF Download PDF Add a Title Add a Title Add a Title 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
- AlgoSec | Q1 at AlgoSec: What innovations and milestones defined our start to 2026?
As we close out the first quarter of 2026, I find myself reflecting on a start to the year that was defined by product momentum, stronger market validation, growing trust from regulated organizations, and meaningful industry recognition. In just three months, AlgoSec introduced important platform enhancements, published fresh research on where network security is heading, strengthened its standing with government and highly regulated customers, and closed the quarter with three major awards.... AlgoSec Reviews Q1 at AlgoSec: What innovations and milestones defined our start to 2026? 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 4/5/26 Published As we close out the first quarter of 2026, I find myself reflecting on a start to the year that was defined by product momentum, stronger market validation, growing trust from regulated organizations, and meaningful industry recognition. In just three months , AlgoSec introduced important platform enhancements, published fresh research on where network security is heading, strengthened its standing with government and highly regulated customers, and closed the quarter with three major awards. More importantly, Q1 reinforced something we believe strongly: the market is moving toward security that is more application-centric, more automated, and more aligned with business reality. January – Removing friction across hybrid and multi-cloud security We opened the year with the release of A33.20, a meaningful step forward for the AlgoSec Horizon platform. The focus of this release was practical and timely: help security teams move faster without losing visibility, control, or confidence. As hybrid environments continue to grow more complex, policy changes are happening under tighter timelines and with higher business stakes. A33.20 was built to reduce that friction by simplifying workflows , improving visibility across AWS, Azure, Google Cloud, and Palo Alto Networks environments , automating more of the change process, and evaluating risk and compliance in the context of enterprise applications rather than as disconnected technical issues. What stood out most to me about this release was not just the feature list, but the direction behind it. Security teams do not need more noise. They need better context, clearer prioritization, and safer execution. With A33.20, we kept pushing toward a model where security policy management becomes more intelligent, more business-aware, and far less dependent on manual, error-prone work. That is the standard modern enterprises are increasingly demanding, and it set the tone for our quarter. February – Turning market insight and trust into momentum In February, we released the 2026 State of Network Security Report , and the findings made one thing very clear: the market is entering a new phase. Based on more than 500 responses across 28 countries, the report showed that organizations are looking for consolidation, unification, automation, and control as they navigate rapid cloud expansion, distributed workloads, and AI-driven traffic patterns. It also showed how quickly the environment is changing: 65% of respondents said they had already adjusted their strategies in response to AI-powered attacks, and 54.7% said security capabilities are now the most important factor when selecting a cloud platform. That market shift was reflected in our own momentum. In February, AlgoSec reported its best year ever , with gross dollar retention above 90%, 37% year-over-year new business growth in 2025, and more than 100 customers implementing the Horizon platform within months of its launch . March – Three awards that told one bigger story March brought a level of external validation that made the quarter feel complete. First, the 2026 Globee Awards for Cybersecurity named AlgoSec Horizon the Gold winner and Best of Category for Risk and Policy Management Solution . For us, that recognition validated the value of helping customers cut through fragmented environments with unified visibility across cloud and on-prem networks, automate policy management safely, and prioritize remediation in the context of real business applications. That recognition was followed by Cyber Defense Magazine’s 2026 Global InfoSec Award for Trailblazing AI-Powered Cybersecurity Solutions , published as part of its RSAC/March 2026 issue. This award mattered for a different but equally important reason. It reinforced that our AI strategy is not about adding another feature or another layer of alerts. It is about changing how security is managed: using AI to understand applications, prioritize risk based on business impact, and help teams implement the right policies across multi-cloud and on-prem environments. The capabilities highlighted internally — Horizon AppViz , AI risk prioritization, Intelligent Policy, and the Algo AI Assistant — reflect that broader shift from reactive security operations to intelligent, application-aware automation. Then came the 2026 SC Award for Best Risk/Policy Management Solution . What I especially appreciate about this recognition is that it reinforced the completeness of the platform story. SC Media highlighted AlgoSec’s application-centric approach across virtual, cloud, and physical environments, with a judge’s emphasis on the clarity of the overall offering and its fit for the enterprise environment. Together with the Globee recognition , the SC Award strengthened the message that risk and policy management today must be tied to application context, business impact, and real operational execution, not just rule sprawl or isolated controls. Taken together, these three awards told one bigger story about who we are and where the market is heading. Two awards validated our strength in risk and policy management. One validated our leadership in AI-powered cybersecurity innovation. All three pointed to the same underlying differentiation: AlgoSec does not treat applications, risk, and policy as separate problems. We connect them in one platform, helping organizations gain visibility, reduce manual effort, accelerate delivery, and maintain continuous compliance across hybrid environments. Looking ahead If Q1 is any indication, 2026 will be a year defined by consolidation . Security teams are being asked to move faster, manage more complexity, and prove business value more clearly than ever before . Our responsibility is to help them do exactly that with better visibility, smarter automation, stronger compliance, and a security model built around how applications actually work. That is the direction we have been building toward, and Q1 gave us strong proof that it is the right one. We are proud of how the year has begun, but even more energized by what comes next. The momentum from this quarter gives us a strong foundation for the rest of 2026, and we remain focused on helping enterprises simplify security management, reduce risk, and secure application connectivity without slowing the business down. 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 | How To Reduce Attack Surface: 6 Proven Tactics
How To Reduce Attack Surface: 6 Proven Tactics Security-oriented organizations continuously identify, monitor, and manage... Cyber Attacks & Incident Response How To Reduce Attack Surface: 6 Proven Tactics 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 12/20/23 Published How To Reduce Attack Surface: 6 Proven Tactics Security-oriented organizations continuously identify, monitor, and manage internet-connected assets to protect them from emerging attack vectors and potential vulnerabilities. Security teams go through every element of the organization’s security posture – from firewalls and cloud-hosted assets to endpoint devices and entry points – looking for opportunities to reduce security risks. This process is called attack surface management. It provides a comprehensive view into the organization’s cybersecurity posture, with a neatly organized list of entry points, vulnerabilities, and weaknesses that hackers could exploit in a cyberattack scenario. Attack surface reduction is an important element of any organization’s overall cybersecurity strategy. Security leaders who understand the organization’s weaknesses can invest resources into filling the most critical gaps first and worrying about low-priority threats later. What assets make up your organization’s attack surface? Your organization’s attack surface is a detailed list of every entry point and vulnerability that an attacker could exploit to gain unauthorized access. The more entry points your network has, the larger its attack surface will be. Most security leaders divide their attention between two broad types of attack surfaces: The digital attack surface This includes all network equipment and business assets used to transfer, store, and communicate information. It is susceptible to phishing attempts , malware risks, ransomware attacks, and data breaches. Cybercriminals may infiltrate these kinds of assets by bypassing technical security controls, compromising unsecured apps or APIs, or guessing weak passwords. The physical attack surface This includes business assets that employees, partners, and customers interact with physically. These might include hardware equipment located inside data centers and USB access points. Even access control systems for office buildings and other non-cyber threats may be included. These assets can play a role in attacks that involve social engineering, insider threats, and other malicious actors who work in-person. Even though both of these attack surfaces are distinct, many of their security vulnerabilities and potential entry points overlap in real-life threat scenarios. For example, thieves might steal laptops from an unsecured retail location and leverage sensitive data on those devices to launch further attacks against the organization’s digital assets. Organizations that take steps to minimize their attack surface area can reduce the risks associated with this kind of threat. Known Assets, Unknown Assets, and Rogue Assets All physical and digital business assets fall into one of three categories: Known assets are apps, devices, and systems that the security team has authorized to connect to the organization’s network. These assets are included in risk assessments and they are protected by robust security measures, like network segmentation and strict permissions. Unknown assets include systems and web applications that the security team is not aware of. These are not authorized to access the network and may represent a serious security threat. Shadow IT applications may be part of this category, as well as employee-owned mobile devices storing sensitive data and unsecured IoT devices. Rogue assets connect to the network without authorization, but they are known to security teams. These may include unauthorized user accounts, misconfigured assets, and unpatched software. A major part of properly managing your organization’s attack surface involves the identification and remediation of these risks. Attack Vectors Explained: Minimize Risk by Following Potential Attack Paths When conducting attack surface analysis, security teams have to carefully assess the way threat actors might discover and compromise the organization’s assets while carrying out their attack. This requires the team to combine elements of vulnerability management with risk management , working through the cyberattack kill chain the way a hacker might. Some cybercriminals leverage technical vulnerabilities in operating systems and app integrations. Others prefer to exploit poor identity access management policies, or trick privileged employees into giving up their authentication credentials. Many cyberattacks involve multiple steps carried out by different teams of threat actors. For example, one hacker may specialize in gaining initial access to secured networks while another focuses on using different tools to escalate privileges. To successfully reduce your organization’s attack surface, you must follow potential attacks through these steps and discover what their business impact might be. This will provide you with the insight you need to manage newly discovered vulnerabilities and protect business assets from cyberattack. Some examples of common attack vectors include: API vulnerabilities. APIs allow organizations to automate the transfer of data, including scripts and code, between different systems. Many APIs run on third-party servers managed by vendors who host and manage the software for customers. These interfaces can introduce vulnerabilities that internal security teams aren’t aware of, reducing visibility into the organization’s attack surface. Unsecured software plugins. Plugins are optional add-ons that enhance existing apps by providing new features or functionalities. They are usually made by third-party developers who may require customers to send them data from internal systems. If this transfer is not secured, hackers may intercept it and use that information to attack the system. Unpatched software. Software developers continuously release security patches that address emerging threats and vulnerabilities. However, not all users implement these patches the moment they are released. This delay gives attackers a key opportunity to learn about the vulnerability (which is as easy as reading the patch changelog) and exploit it before the patch is installed. Misconfigured security tools. Authentication systems, firewalls, and other security tools must be properly configured in order to produce optimal security benefits. Attackers who discover misconfigurations can exploit those weaknesses to gain entry to the network. Insider threats. This is one of the most common attack vectors, yet it can be the hardest to detect. Any employee entrusted with sensitive data could accidentally send it to the wrong person, resulting in a data breach. Malicious insiders may take steps to cover their tracks, using their privileged permissions and knowledge of the organization to go unnoticed. 6 Tactics for Reducing Your Attack Surface 1. Implement Zero Trust The Zero Trust security model assumes that data breaches are inevitable and may even have already occurred. This adds new layers to the problems that attack surface management resolves, but it can dramatically improve overall resilience and preparedness. When you develop your security policies using the Zero Trust framework, you impose strong limits on what hackers can and cannot do after gaining initial access to your network. Zero Trust architecture blocks attackers from conducting lateral movement, escalating their privileges, and breaching critical data. For example, IoT devices are a common entry point into many networks because they don’t typically benefit from the same level of security that on-premises workstations receive. At the same time, many apps and systems are configured to automatically trust connections from internet-enabled sensors and peripheral devices. Under a Zero Trust framework, these connections would require additional authentication. The systems they connect to would also need to authenticate themselves before receiving data. Multi-factor authentication is another part of the Zero Trust framework that can dramatically improve operational security. Without this kind of authentication in place, most systems have to accept that anyone with the right username and password combination must be a legitimate user. In a compromised credential scenario, this is obviously not the case. Organizations that develop network infrastructure with Zero Trust principles in place are able to reduce the number of entry points their organization exposes to attackers and reduce the value of those entry points. If hackers do compromise parts of the network, they will be unable to quickly move between different segments of the network, and may be unable to stay unnoticed for long. 2. Remove Unnecessary Complexity Unknown assets are one of the main barriers to operational security excellence. Security teams can’t effectively protect systems, apps, and users they don’t have detailed information on. Any rogue or unknown assets the organization is responsible for are almost certainly attractive entry points for hackers. Arbitrarily complex systems can be very difficult to document and inventory properly . This is a particularly challenging problem for security leaders working for large enterprises that grow through acquisitions. Managing a large portfolio of acquired companies can be incredibly complex, especially when every individual company has its own security systems, tools, and policies to take into account. Security leaders generally don’t have the authority to consolidate complex systems on their own. However, you can reduce complexity and simplify security controls throughout the environment in several key ways: Reduce the organization’s dependence on legacy systems. End-of-life systems that no longer receive maintenance and support should be replaced with modern equivalents quickly. Group assets, users, and systems together. Security groups should be assigned on the basis of least privileged access, so that every user only has the minimum permissions necessary to achieve their tasks. Centralize access control management. Ad-hoc access control management quickly leads to unknown vulnerabilities and weaknesses popping up unannounced. Implement a robust identity access management system so you can create identity-based policies for managing user access. 3. Perform Continuous Vulnerability Monitoring Your organization’s attack surface is constantly changing. New threats are emerging, old ones are getting patched, and your IT environment is supporting new users and assets on a daily basis. Being able to continuously monitor these changes is one of the most important aspects of Zero Trust architecture . The tools you use to support attack surface management should also generate alerts when assets get exposed to known risks. They should allow you to confirm the remediation of detected risks, and provide ample information about the risks they uncover. Some of the things you can do to make this happen include: Investing in a continuous vulnerability monitoring solution. Vulnerability scans are useful for finding out where your organization stands at any given moment. Scheduling these scans to occur at regular intervals allows you to build a standardized process for vulnerability monitoring and remediation. Building a transparent network designed for visibility. Your network should not obscure important security details from you. Unfortunately, this is what many third-party security tools and services achieve. Make sure both you and your third-party security partners are invested in building observability into every aspect of your network. Prioritize security expenditure based on risk. Once you can observe the way users, data, and assets interact on the network, you can begin prioritizing security initiatives based on their business impact. This allows you to focus on high-risk tasks first. 4. Use Network Segmentation to Your Advantage Network segmentation is critical to the Zero Trust framework. When your organization’s different subnetworks are separated from one another with strictly protected boundaries, it’s much harder for attackers to travel laterally through the network. Limiting access between parts of the network helps streamline security processes while reducing risk. There are several ways you can segment your network. Most organizations already perform some degree of segmentation by encrypting highly classified data. Others enforce network segmentation principles when differentiating between production and live development environments. But in order for organizations to truly benefit from network segmentation, security leaders must carefully define boundaries between every segment and enforce authentication policies designed for each boundary. This requires in-depth knowledge of the business roles and functions of the users who access those segments, and the ability to configure security tools to inspect and enforce access control rules. For example, any firewall can block traffic between two network segments. A next-generation firewall can conduct identity-based inspection that allows traffic from authorized users through – even if they are using mobile devices the firewall has never seen before. 5. Implement a Strong Encryption Policy Encryption policies are an important element of many different compliance frameworks . HIPAA, PCI-DSS, and many other regulatory frameworks specify particular encryption policies that organizations must follow to be compliant. These standards are based on the latest research in cryptographic security and threat intelligence reports that outline hackers’ capabilities. Even if your organization is not actively seeking regulatory compliance, you should use these frameworks as a starting point for building your own encryption policy. Your organization’s risk profile is largely the same whether you seek regulatory certification or not – and accidentally deploying outdated encryption policies can introduce preventable vulnerabilities into an otherwise strong security posture. Your organization’s encryption policy should detail every type of data that should be encrypted and the cipher suite you’ll use to encrypt that data. This will necessarily include critical assets like customer financial data and employee payroll records, but it also includes relatively low-impact assets like public Wi-Fi connections at retail stores. In each case, you must implement a modern cipher suite that meets your organization’s security needs and replace legacy devices that do not support the latest encryption algorithms. This is particularly important in retail and office settings, where hardware routers, printers, and other devices may no longer support secure encryption. 6. Invest in Employee Training To truly build security resilience into any company culture, it’s critical to explain why these policies must be followed, and what kinds of threats they address. One of the best ways to administer standardized security compliance training is by leveraging a corporate learning platform across the organization, so that employees can actually internalize these security policies through scenario based training courses. It’s especially valuable in organizations suffering from consistent shadow IT usage. When employees understand the security vulnerabilities that shadow IT introduces into the environment, they’re far less likely to ignore security policies for the sake of convenience. Security simulations and awareness campaigns can have a significant impact on training initiatives. When employees know how to identify threat actors at work, they are much less likely to fall victim to them. However, actually achieving meaningful improvement may require devoting a great deal of time and energy into phishing simulation exercises over time – not everyone is going to get it right in the first month or two. These initiatives can also provide clear insight and data on how prepared your employees are overall. This data can make a valuable contribution to your attack surface reduction campaign. You may be able to pinpoint departments – or even individual users – who need additional resources and support to improve their resilience against phishing and social engineering attacks. Successfully managing this aspect of your risk assessment strategy will make it much harder for hackers to gain control of privileged administrative accounts. 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
- F5 Networks & AlgoSec | Visibility & Analysis of LTM and AFM | AlgoSec
Integrating AlgoSec with F5 Networks firewalls, LTM, AFM, and network security devices offers visibility and compliance for hybrid networks F5 Networks and AlgoSec AlgoSec seamlessly integrates with F5 BIG-IP LTM and AFM modules to provide customers with unified security policy management across their heterogeneous networks. AlgoSec delivers visibility and analysis of F5 LTM and AFM. AlgoSec supports the entire security policy management lifecycle — from application connectivity discovery through ongoing management and compliance to rule recertification and secure decommissioning. Solution brief View webinar Key benefits Uniform security policy across your hybrid network environment. Deploy applications faster by automating network security change management processes. Avoid security device misconfigurations that cause outages. Reduce the costs and efforts of firewall auditing and ensure success. How to Unified visibility for the hybrid environment Cleanup, recertify, and optimize Security Policies Audit-ready compliance reports SEE HOW F5 USERS CAN BENEFIT FROM ALGOSEC Schedule time with one of our experts
- AlgoSec | Top 9 Network Security Monitoring Tools for Identifying Potential Threats
What is Network Security Monitoring? Network security monitoring is the process of inspecting network traffic and IT infrastructure for... Network Security Top 9 Network Security Monitoring Tools for Identifying Potential Threats 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 2/4/24 Published What is Network Security Monitoring? Network security monitoring is the process of inspecting network traffic and IT infrastructure for signs of security issues. These signs can provide IT teams with valuable information about the organization’s cybersecurity posture. For example, security teams may notice unusual changes being made to access control policies. This may lead to unexpected traffic flows between on-premises systems and unrecognized web applications. This might provide early warning of an active cyberattack, giving security teams enough time to conduct remediation efforts and prevent data loss . Detecting this kind of suspicious activity without the visibility that network security monitoring provides would be very difficult. These tools and policies enhance operational security by enabling network intrusion detection, anomaly detection, and signature-based detection. Full-featured network security monitoring solutions help organizations meet regulatory compliance requirements by maintaining records of network activity and security incidents. This gives analysts valuable data for conducting investigations into security events and connect seemingly unrelated incidents into a coherent timeline. What To Evaluate in a Network Monitoring Software Provider Your network monitoring software provider should offer a comprehensive set of features for collecting, analyzing, and responding to suspicious activity anywhere on your network. It should unify management and control of your organization’s IT assets while providing unlimited visibility into how they interact with one another. Comprehensive alerting and reporting Your network monitoring solution must notify you of security incidents and provide detailed reports describing those incidents in real-time. It should include multiple toolsets for collecting performance metrics, conducting in-depth analysis, and generating compliance reports. Future-proof scalability Consider what kind of network monitoring needs your organization might have several years from now. If your monitoring tool cannot scale to accommodate that growth, you may end up locked into a vendor agreement that doesn’t align with your interests. This is especially true with vendors that prioritize on-premises implementations since you run the risk of paying for equipment and services that you don’t actually use. Cloud-delivered software solutions often perform better in use cases where flexibility is important. Integration with your existing IT infrastructure Your existing security tech stack may include a selection of SIEM platforms, IDS/IPS systems, firewalls , and endpoint security solutions. Your network security monitoring software will need to connect all of these tools and platforms together in order to grant visibility into network traffic flows between them. Misconfigurations and improper integrations can result in dangerous security vulnerabilities. A high-performance vulnerability scanning solution may be able to detect these misconfigurations so you can fix them proactively. Intuitive user experience for security teams and IT admins Complex tools often come with complex management requirements. This can create a production bottleneck when there aren’t enough fully-trained analysts on the IT security team. Monitoring tools designed for ease of use can improve security performance by reducing training costs and allowing team members to access monitoring insights more easily. Highly automated tools can drive even greater performance benefits by reducing the need for manual control altogether. Excellent support and documentation Deploying network security monitoring tools is not always a straightforward task. Most organizations will need to rely on expert support to assist with implementation, troubleshooting, and ongoing maintenance. Some vendors provide better technical support to customers than others, and this difference is often reflected in the price. Some organizations work with managed service providers who can offset some of their support and documentation needs by providing on-demand expertise when needed. Pricing structures that work for you Different vendors have different pricing structures. When comparing network monitoring tools, consider the total cost of ownership including licensing fees, hardware requirements, and any additional costs for support or updates. Certain usage models will fit your organization’s needs better than others, and you’ll have to document them carefully to avoid overpaying. Compliance and reporting capabilities If you plan on meeting compliance requirements for your organization, you will need a network security monitoring tool that can generate the necessary reports and logs to meet these standards. Every set of standards is different, but many reputable vendors offer solutions for meeting specific compliance criteria. Find out if your network security monitoring vendor supports compliance standards like PCI DSS, HIPAA, and NIST. A good reputation for customer success Research the reputation and track record of every vendor you could potentially work with. Every vendor will tell you that they are the best – ask for evidence to back up their claims. Vendors with high renewal rates are much more likely to provide you with valuable security technology than lower-priced competitors with a significant amount of customer churn. Pay close attention to reviews and testimonials from independent, trustworthy sources. Compatibility with network infrastructure Your network security monitoring tool must be compatible with the entirety of your network infrastructure. At the most basic level, it must integrate with your hardware fleet of routers, switches, and endpoint devices. If you use devices with non-compatible operating systems, you risk introducing blind spots into your security posture. For the best results, you must enjoy in-depth observability for every hardware and software asset in your network, from the physical layer to the application layer. Regular updates and maintenance Updates are essential to keep security tools effective against evolving threats. Check the update frequency of any monitoring tool you consider implementing and look for the specific security vulnerabilities addressed in those updates. If there is a significant delay between the public announcement of new vulnerabilities and the corresponding security patch, your monitoring tools may be vulnerable during that period of time. 9 Best Network Security Monitoring Providers for Identifying Cybersecurity Threats 1. AlgoSec AlgoSec is a network security policy management solution that helps organizations automate and orchestrate network security policies. It keeps firewall rules , routers, and other security devices configured correctly, ensuring network assets are secured properly. AlgoSec protects organizations from misconfigurations that can lead to malware, ransomware, and phishing attacks, and gives security teams the ability to proactively simulate changes to their IT infrastructure. 2. SolarWinds SolarWinds offers a range of network management and monitoring solutions, including network security monitoring tools that detect changes to security policies and traffic flows. It provides tools for network visibility and helps identify and respond to security incidents. However, SolarWinds can be difficult for some organizations to deploy because customers must purchase additional on-premises hardware. 3. Security Onion Security Onion is an open-source Linux distribution designed for network security monitoring. It integrates multiple monitoring tools like Snort, Suricata, Bro, and others into a single platform, making it easier to set up and manage a comprehensive network security monitoring solution. As an open-source option, it is one of the most cost-effective solutions available on the market, but may require additional development resources to customize effectively for your organization’s needs. 4. ELK Stack Elastic ELK Stack is a combination of three open-source tools: Elasticsearch, Logstash, and Kibana. It’s commonly used for log data and event analysis. You can use it to centralize logs, perform real-time analysis, and create dashboards for network security monitoring. The toolset provides high-quality correlation through large data sets and provides security teams with significant opportunities to improve security and network performance using automation. 5. Cisco Stealthwatch Cisco Stealthwatch is a commercial network traffic analysis and monitoring solution. It uses NetFlow and other data sources to detect and respond to security threats, monitor network behavior, and provide visibility into your network traffic. It’s a highly effective solution for conducting network traffic analysis, allowing security analysts to identify threats that have infiltrated network assets before they get a chance to do serious damage. 6. Wireshark Wireshark is a widely-used open-source packet analyzer that allows you to capture and analyze network traffic in real-time. It can help you identify and troubleshoot network issues and is a valuable tool for security analysts. Unlike other entries on this list, it is not a fully-featured monitoring platform that collects and analyzes data at scale – it focuses on providing deep visibility into specific data flows one at a time. 7. Snort Snort is an open-source intrusion detection system (IDS) and intrusion prevention system (IPS) that can monitor network traffic for signs of suspicious or malicious activity. It’s highly customizable and has a large community of users and contributors. It supports customized rulesets and is easy to use. Snort is widely compatible with other security technologies, allowing users to feed signature updates and add logging capabilities to its basic functionality very easily. However, it’s an older technology that doesn’t natively support some modern features users will expect it to. 8. Suricata Suricata is another open-source IDS/IPS tool that can analyze network traffic for threats. It offers high-performance features and supports rules compatible with Snort, making it a good alternative. Suricata was developed more recently than Snort, which means it supports modern workflow features like multithreading and file extraction. Unlike Snort, Suricata supports application-layer detection rules and can identify traffic on non-standard ports based on the traffic protocol. 9. Zeek (formerly Bro) Zeek is an open-source network analysis framework that focuses on providing detailed insights into network activity. It can help you detect and analyze potential security incidents and is often used alongside other NSM tools. This tool helps security analysts categorize and model network traffic by protocol, making it easier to inspect large volumes of data. Like Suricata, it runs on the application layer and can differentiate between protocols. Essential Network Monitoring Features Traffic Analysis The ability to capture, analyze, and decode network traffic in real-time is a basic functionality all network security monitoring tools should share. Ideally, it should also include support for various network protocols and allow users to categorize traffic based on those categories. Alerts and Notifications Reliable alerts and notifications for suspicious network activity, enabling timely response to security threats. To avoid overwhelming analysts with data and contributing to alert fatigue, these notifications should consolidate data with other tools in your security tech stack. Log Management Your network monitoring tool should contribute to centralized log management through network devices, apps, and security sensors for easy correlation and analysis. This is best achieved by integrating a SIEM platform into your tech stack, but you may not wish to store all of your network’s logs on the SIEM, because of the added expense. Threat Detection Unlike regular network traffic monitoring, network security monitoring focuses on indicators of compromise in network activity. Your tool should utilize a combination of signature-based detection, anomaly detection, and behavioral analysis to identify potential security threats. Incident Response Support Your network monitoring solution should facilitate the investigation of security incidents by providing contextual information, historical data, and forensic capabilities. It may correlate detected security events so that analysts can conduct investigations more rapidly, and improve security outcomes by reducing false positives. Network Visibility Best-in-class network security monitoring tools offer insights into network traffic patterns, device interactions, and potential blind spots to enhance network monitoring and troubleshooting. To do this, they must connect with every asset on the network and successfully observe data transfers between assets. Integration No single security tool can be trusted to do everything on its own. Your network security monitoring platform must integrate with other security solutions, such as firewalls, intrusion detection/prevention systems (IDS/IPS), and SIEM platforms to create a comprehensive security ecosystem. If one tool fails to detect malicious activity, another may succeed. Customization No two organizations are the same. The best network monitoring solutions allow users to customize rules, alerts, and policies to align with specific security requirements and network environments. These customizations help security teams reduce alert fatigue and focus their efforts on the most important data traffic flows on the network. Advanced Features for Identifying Vulnerabilities & Weaknesses Threat Intelligence Integration Threat intelligence feeds enhance threat detection and response capabilities by providing in-depth information about the tactics, techniques, and procedures used by threat actors. These feeds update constantly to reflect the latest information on cybercriminal activities so analysts always have the latest data. Forensic Capabilities Detailed data and forensic tools provide in-depth analysis of security breaches and related incidents, allowing analysts to attribute attacks to hackers and discover the extent of cyberattacks. With retroactive forensics, investigators can include historical network data and look for evidence of compromise in the past. Automated Response Automated responses to security threats can isolate affected devices or modify firewall rules the moment malicious behavior is detected. Automated detection and response workflows must be carefully configured to avoid business disruptions stemming from misconfigured algorithms repeatedly denying legitimate traffic. Application-level Visibility Some network security monitoring tools can identify and classify network traffic by applications and services , enabling granular control and monitoring. This makes it easier for analysts to categorize traffic based on its protocol, which can streamline investigations into attacks that take place on the application layer. Cloud and Virtual Network Support Cloud-enabled organizations need monitoring capabilities that support cloud environments and virtualized networks. Without visibility into these parts of the hybrid network, security vulnerabilities may go unnoticed. Cloud-native network monitoring tools must include data on public and private cloud instances as well as containerized assets. Machine Learning and AI Advanced machine learning and artificial intelligence algorithms can improve threat detection accuracy and reduce false positives. These features often work by examining large-scale network traffic data and identifying patterns within the dataset. Different vendors have different AI models and varying levels of competence with emerging AI technology. User and Entity Behavior Analytics (UEBA) UEBA platforms monitor asset behaviors to detect insider threats and compromised accounts. This advanced feature allows analysts to assign dynamic risk scores to authenticated users and assets, triggering alerts when their activities deviate too far from their established routine. Threat Hunting Tools Network monitoring tools can provide extra features and workflows for proactive threat hunting and security analysis. These tools may match observed behaviors with known indicators of compromise, or match observed traffic patterns with the tactics, techniques, and procedures of known threat actors. AlgoSec: The Preferred Network Security Monitoring Solution AlgoSec has earned an impressive reputation for its network security policy management capabilities. The platform empowers security analysts and IT administrators to manage and optimize network security policies effectively. It includes comprehensive firewall policy and change management capabilities along with comprehensive solutions for automating application connectivity across the hybrid network. Here are some reasons why IT leaders choose AlgoSec as their preferred network security policy management solution: Policy Optimsization: AlgoSec can analyze firewall rules and network security policies to identify redundant or conflicting rules, helping organizations optimize their security posture and improve rule efficiency. Change Management: It offers tools for tracking and managing changes to firewall and network data policies, ensuring that changes are made in a controlled and compliant manner. Risk Assessment: AlgoSec can assess the potential security risks associated with firewall rule changes before they are implemented, helping organizations make informed decisions. Compliance Reporting: It provides reports and dashboards to assist with compliance audits, making it easier to demonstrate regulatory compliance to regulators. Automation: AlgoSec offers automation capabilities to streamline policy management tasks, reducing the risk of human error and improving operational efficiency. Visibility: It provides visibility into network traffic and policy changes, helping security teams monitor and respond to potential security incidents. 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 | Introducing AlgoSec Cloud Enterprise: Your Comprehensive App-First Cloud Security Solution
Is it getting harder and harder to keep track of all your cloud assets? You're not alone. In today's dynamic world of hybrid and... Cloud Security Introducing AlgoSec Cloud Enterprise: Your Comprehensive App-First Cloud Security Solution Iris Stein 2 min read Iris Stein 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 1/27/25 Published Is it getting harder and harder to keep track of all your cloud assets? You're not alone. In today's dynamic world of hybrid and multi-cloud environments, maintaining clear visibility of your IT infrastructure has never been more complex. 82% of organizations report that lack of visibility is a major factor in cloud security breaches. Traditional tools often fall short, leaving potential security vulnerabilities exposed and your business at risk. But there's good news! Introducing AlgoSec Cloud Enterprise (ACE) , a game-changer for managing and securing your on-premises and cloud networks. ACE provides the visibility, automation, and control you need to protect your business, no matter where your applications reside. What is AlgoSec Cloud Enterprise? AlgoSec Cloud Enterprise (ACE) is a comprehensive application-centric security solution built for the modern cloud enterprise. It empowers organizations to gain complete visibility, enforce consistent policies, and accelerate application delivery across cloud and on-premises environments. AlgoSec Cloud Enterprise (ACE) is the latest addition to AlgoSec's Horizon Platform, a comprehensive suite of security solutions designed to protect your applications and data. By integrating ACE into the Horizon Platform, AlgoSec offers a unified approach to securing your entire IT infrastructure, from on-premises to multi-cloud environments. For existing AlgoSec customers: ACE seamlessly integrates with your current AlgoSec deployments, extending your security posture to encompass the dynamic world of cloud and containers. For new AlgoSec customers: ACE provides a unified solution to manage security across your entire cloud estate, simplifying operations and reducing risk. Key Features and Capabilities ACE is packed with powerful features to help you take control of your application security: Deep application visibility: ACE discovers and maps all your applications and their components, providing a comprehensive view of your application landscape. You gain insights into application dependencies, vulnerabilities, and risks, enabling you to identify and address security gaps proactively. Unified security policy management: Define and enforce consistent security policies across all your environments, from the cloud to on-premises. This ensures uniform protection for all your applications and simplifies security management. Automated security and compliance: Automate critical security tasks, such as vulnerability assessment, compliance monitoring, and security change management. This reduces the risk of human error and frees up your security team to focus on more strategic initiatives. Organizations using automation in their security operations report a 25% reduction in security incidents . Streamlined change management: Accelerate application delivery with automated security workflows. ACE simplifies change management processes, ensuring that security keeps pace with the speed of your business. Maintain a full audit trail of all changes for complete compliance and accountability. Detect and prevent risks across the supply chain and CI/CD pipelines: Identify vulnerabilities in applications and block malicious containerized workloads from compromising business-critical production environments. Addressing Customer Pain Points ACE is designed to solve the real-world challenges faced by security teams today: Reduce application risk: Proactively identify and mitigate vulnerabilities and security threats to your applications. Accelerate application delivery: Streamline security processes and automate change management to speed up deployments. Ensure application compliance: Meet regulatory requirements and industry standards with automated compliance monitoring and reporting. Gain complete visibility: Understand your application landscape and identify potential security risks. Simplify application security management: Manage security policies and controls from a single, unified pane of glass. Prevent vulnerabilities from moving to production Ready to take your application security to the next level? Visit the AlgoSec Cloud Enterprise product page to learn more. Download our datasheet, request a personalized demo, or sign up for a free trial to experience the power of ACE for yourself. We're confident that ACE will revolutionize the way you secure your applications in the cloud. Contact us today to get started! 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 | CSPM vs. CNAPP: Which Solution to Choose?
Protecting cloud-based applications and workloads requires robust security solutions such as CSPM, CIEM and CWPP. CNAPP tries to answer... Cloud Security CSPM vs. CNAPP: Which Solution to Choose? Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Protecting cloud-based applications and workloads requires robust security solutions such as CSPM, CIEM and CWPP. CNAPP tries to answer all 3 but how do you know which solution is right for your specific organization? Ava Chawla, AlgoSec’s Global Head of Cloud Security unravels the differences between them and shares her expert opinion on the solution that offers the most value for organizations. What is Cloud Security Posture Management (CSPM)? A CSPM tool monitors the logs and configuration files of the services you use in your cloud environment. It will scan the entire cloud environment to detect and prevent misconfiguration errors. This is important because configurations in the cloud happen quickly and just as quickly introduce new threats into the environment. For robust ongoing protection, you need to monitor the environment continuously and automatically. Here’s where CSPM comes in. The best CSPM solutions implement configuration best practices and automatically initiate corrective actions to remove risks, thus improving cloud security, ensuring adherence to compliance policies, and reducing the likelihood of breaches. Additionally, they are agentless, do not require long configuration, and don’t add to your cloud bills by utilizing additional cloud resources. What is Cloud Infrastructure Entitlement Management (CIEM)? In cloud environments, identity goes beyond users and groups. It also plays a vital role in managing all the resources and services that need to access data. All these accesses happen very quickly and constitute a complex web of interactions. It’s crucial to know when and between whom these interactions occur to ensure that only legitimate resources can access or modify data. But as your cloud resources increase, the complexity of entitlements also grows. It’s not easy to keep track of these entitlements or to maintain the security-focused principle of least privilege (PoLP). CIEM tools are specialized identity-centric solutions to manage cloud access risk and govern entitlements in hybrid and multi-cloud environments. With CIEM, you can manage entitlements across all your cloud resources and maintain PoLP to mitigate the risk created by granting excessive permissions to cloud resources. What is a Cloud Workload Protection Platform (CWPP)? CWPP solutions manage cloud applications and workloads. They can reach back into on- prem environments and thus effectively detect and prevent security problems like malware and vulnerabilities across the entire hybrid landscape. CWPP solutions can scale automatically and support your organization as your cloud environment grows or changes. What is a Cloud Native Application Protection Platform (CNAPP)? Each of these solutions are geared towards a specific area of cloud security. CSPM prevents misconfiguration errors, CIEM platforms manage cloud access risks, and CWPP protects your assets and workloads. But what if you want a single solution that can completely manage the security of your cloud environment? Try a Cloud Native Application Protection Platform . CNAPP solutions combine security posture management, workload protection, and entitlement management into one single platform to provide comprehensive, holistic security across multi-cloud environments. Thus, you can protect your entire cloud estate with one solution instead of having to implement and manage multiple point solutions. Another advantage of a CNAPP tool is that it will enable you to “shift left”. Thus, you can not only secure applications in production environments, but also manage the runtime and DevOps aspects of security. For this reason, these platforms are aimed at both security professionals and DevOps practitioners. Conclusion and Next Steps A CNAPP solution is the most comprehensive solution. However, in today’s market there is no one tool that truly covers all the functionalities that CNAPP promises. Therefore, each organization should choose the solution that fits its immediate needs, including taking other considerations into account such as the skill level and the maturity of its cloud adoption. One important thing to remember: Regardless of the solution you choose, make sure it’s agentless. Agentless is important in today’s cloud security because agent-based solutions are hard to manage, expensive, and intrusive. If you’re looking for a modern agentless CSPM with container protection to safeguard your cloud-based application and workload data, then Prevasio might be the best option for you. 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
- Case Study Logisticas - AlgoSec
Case Study Logisticas Horizon Platform released in July 2026. This paper refers to previous product offerings. Download PDF Download PDF Add a Title Add a Title Add a Title 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
- AlgoSec | The Application Migration Checklist
All organizations eventually inherit outdated technology infrastructure. As new technology becomes available, old apps and services... Firewall Change Management The Application Migration Checklist Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/25/23 Published All organizations eventually inherit outdated technology infrastructure. As new technology becomes available, old apps and services become increasingly expensive to maintain. That expense can come in a variety of forms: Decreased productivity compared to competitors using more modern IT solutions. Greater difficulty scaling IT asset deployments and managing the device life cycle . Security and downtime risks coming from new vulnerabilities and emerging threats. Cloud computing is one of the most significant developments of the past decade. Organizations are increasingly moving their legacy IT assets to new environments hosted on cloud services like Amazon Web Services or Microsoft Azure. Cloud migration projects enable organizations to dramatically improve productivity, scalability, and security by transforming on-premises applications to cloud-hosted solutions. However, cloud migration projects are among the most complex undertakings an organization can attempt. Some reports state that nine out of ten migration projects experience failure or disruption at some point, and only one out of four meet their proposed deadlines. The better prepared you are for your application migration project , the more likely it is to succeed. Keep the following migration checklist handy while pursuing this kind of initiative at your company. Step 1: Assessing Your Applications The more you know about your legacy applications and their characteristics, the more comprehensive you can be with pre-migration planning. Start by identifying the legacy applications that you want to move to the cloud. Pay close attention to the dependencies that your legacy applications have. You will need to ensure the availability of those resources in an IT environment that is very different from the typical on-premises data center. You may need to configure cloud-hosted resources to meet specific needs that are unique to your organization and its network architecture. Evaluate the criticality of each legacy application you plan on migrating to the cloud. You will have to prioritize certain applications over others, minimizing disruption while ensuring the cloud-hosted infrastructure can support the workload you are moving to. There is no one-size-fits-all solution to application migration. The inventory assessment may bring new information to light and force you to change your initial approach. It’s best that you make these accommodations now rather than halfway through the application migration project. Step 2: Choosing the Right Migration Strategy Once you know what applications you want to move to the cloud and what additional dependencies must be addressed for them to work properly, you’re ready to select a migration strategy. These are generalized models that indicate how you’ll transition on-premises applications to cloud-hosted ones in the context of your specific IT environment. Some of the options you should gain familiarity with include: Lift and Shift (Rehosting). This option enables you to automate the migration process using tools like CloudEndure Migration, AWS VM Import/Export, and others. The lift and shift model is well-suited to organizations that need to migrate compatible large-scale enterprise applications without too many additional dependencies, or organizations that are new to the cloud. Replatforming. This is a modified version of the lift and shift model. Essentially, it introduces an additional step where you change the configuration of legacy apps to make them better-suited to the cloud environment. By adding a modernization phase to the process, you can leverage more of the cloud’s unique benefits and migrate more complex apps. Refactoring/Re-architecting. This strategy involves rewriting applications from scratch to make them cloud-native. This allows you to reap the full benefits of cloud technology. Your new applications will be scalable, efficient, and agile to the maximum degree possible. However, it’s a time-consuming, resource-intensive project that introduces significant business risk into the equation. Repurchasing. This is where the organization implements a fully mature cloud architecture as a managed service. It typically relies on a vendor offering cloud migration through the software-as-a-service (SaaS) model. You will need to pay licensing fees, but the technical details of the migration process will largely be the vendor’s responsibility. This is an easy way to add cloud functionality to existing business processes, but it also comes with the risk of vendor lock-in. Step 3: Building Your Migration Team The success of your project relies on creating and leading a migration team that can respond to the needs of the project at every step. There will be obstacles and unexpected issues along the way – a high-quality team with great leadership is crucial for handling those problems when they arise. Before going into the specifics of assembling a great migration team, you’ll need to identify the key stakeholders who have an interest in seeing the project through. This is extremely important because those stakeholders will want to see their interests represented at the team level. If you neglect to represent a major stakeholder at the team level, you run the risk of having major, expensive project milestones rejected later on. Not all stakeholders will have the same level of involvement, and few will share the same values and goals. Managing them effectively means prioritizing the values and goals they represent, and choosing team members accordingly. Your migration team will consist of systems administrators, technical experts, and security practitioners, and include input from many other departments. You’ll need to formalize a system of communicating inside the core team and messaging stakeholders outside of it. You may also wish to involve end users as a distinct part of your migration team and dedicate time to addressing their concerns throughout the process. Keep team members’ stakeholder alignments and interests in mind when assigning responsibilities. For example, if a particular configuration step requires approval from the finance department, you’ll want to make sure that someone representing that department is involved from the beginning. Step 4: Creating a Migration Plan It’s crucial that every migration project follows a comprehensive plan informed by the needs of the organization itself. Organizations pursue cloud migration for many different reasons – your plan should address the problems you expect cloud-hosted technology to solve. This might mean focusing on reducing costs, enabling entry into a new market, or increasing business agility – or all three. You may have additional reasons for pursuing an application migration plan. This plan should also include data mapping . Choosing the right application performance metrics now will help make the decision-making process much easier down the line. Some of the data points that cloud migration specialists recommend capturing include: Duration highlights the value of employee labor-hours as they perform tasks throughout the process. Operational duration metrics can tell you how much time project managers spend planning the migration process, or whether one phase is taking much longer than another, and why. Disruption metrics can help identify user experience issues that become obstacles to onboarding and full adoption. Collecting data about the availability of critical services and the number of service tickets generated throughout the process can help you gauge the overall success of the initiative from the user’s perspective. Cost includes more than data transfer rates. Application migration initiatives also require creating dependency mappings, changing applications to make them cloud-native, and significant administrative costs. Up to 50% of your migration’s costs pay for labor , and you’ll want to keep close tabs on those costs as the process goes on. Infrastructure metrics like CPU usage, memory usage, network latency, and load balancing are best captured both before and after the project takes place. This will let you understand and communicate the value of the project in its entirety using straightforward comparisons. Application performance metrics like availability figures, error rates, time-outs and throughput will help you calculate the value of the migration process as a whole. This is another post-cloud migration metric that can provide useful before-and-after data. You will also want to establish a series of cloud service-level agreements (SLAs) that ensure a predictable minimum level of service is maintained. This is an important guarantee of the reliability and availability of the cloud-hosted resources you expect to use on a daily basis. Step 5: Mapping Dependencies Mapping dependencies completely and accurately is critical to the success of any migration project. If you don’t have all the elements in your software ecosystem identified correctly, you won’t be able to guarantee that your applications will work in the new environment. Application dependency mapping will help you pinpoint which resources your apps need and allow you to make those resources available. You’ll need to discover and assess every workload your organization undertakes and map out the resources and services it relies on. This process can be automated, which will help large-scale enterprises create accurate maps of complex interdependent processes. In most cases, the mapping process will reveal clusters of applications and services that need to be migrated together. You will have to identify the appropriate windows of opportunity for performing these migrations without disrupting the workloads they process. This often means managing data transfer and database migration tasks and carrying them out in a carefully orchestrated sequence. You may also discover connectivity and VPN requirements that need to be addressed early on. For example, you may need to establish protocols for private access and delegate responsibility for managing connections to someone on your team. Project stakeholders may have additional connectivity needs, like VPN functionality for securing remote connections. These should be reflected in the application dependency mapping process. Multi-cloud compatibility is another issue that will demand your attention at this stage. If your organization plans on using multiple cloud providers and configuring them to run workloads specific to their platform, you will need to make sure that the results of these processes are communicated and stored in compatible formats. Step 6: Selecting a Cloud Provider Once you fully understand the scope and requirements of your application migration project, you can begin comparing cloud providers. Amazon, Microsoft, and Google make up the majority of all public cloud deployments, and the vast majority of organizations start their search with one of these three. Amazon AW S has the largest market share, thanks to starting its cloud infrastructure business several years before its major competitors did. Amazon’s head start makes finding specialist talent easier, since more potential candidates will have familiarity with AWS than with Azure or Google Cloud. Many different vendors offer services through AWS, making it a good choice for cloud deployments that rely on multiple services and third-party subscriptions. Microsoft Azure has a longer history serving enterprise customers, even though its cloud computing division is smaller and younger than Amazon’s. Azure offers a relatively easy transition path that helps enterprise organizations migrate to the cloud without adding a large number of additional vendors to the process. This can help streamline complex cloud deployments, but also increases your reliance on Microsoft as your primary vendor. Google Cloud is the third runner-up in terms of market share. It continues to invest in cloud technologies and is responsible for a few major innovations in the space – like the Kubernetes container orchestration system. Google integrates well with third-party applications and provides a robust set of APIs for high-impact processes like translation and speech recognition. Your organization’s needs will dictate which of the major cloud providers offers the best value. Each provider has a different pricing model, which will impact how your organization arrives at a cost-effective solution. Cloud pricing varies based on customer specifications, usage, and SLAs, which means no single provider is necessarily “the cheapest” or “the most expensive” – it depends on the context. Additional cost considerations you’ll want to take into account include scalability and uptime guarantees. As your organization grows, you will need to expand its cloud infrastructure to accommodate more resource-intensive tasks. This will impact the cost of your cloud subscription in the future. Similarly, your vendor’s uptime guarantee can be a strong indicator of how invested it is in your success. Given all vendors work on the shared responsibility model, it may be prudent to consider an enterprise data backup solution for peace of mind. Step 7: Application Refactoring If you choose to invest time and resources into refactoring applications for the cloud, you’ll need to consider how this impacts the overall project. Modifying existing software to take advantage of cloud-based technologies can dramatically improve the efficiency of your tech stack, but it will involve significant risk and up-front costs. Some of the advantages of refactoring include: Reduced long-term costs. Developers refactor apps with a specific context in mind. The refactored app can be configured to accommodate the resource requirements of the new environment in a very specific manner. This boosts the overall return of investing in application refactoring in the long term and makes the deployment more scalable overall. Greater adaptability when requirements change . If your organization frequently adapts to changing business requirements, refactored applications may provide a flexible platform for accommodating unexpected changes. This makes refactoring attractive for businesses in highly regulated industries, or in scenarios with heightened uncertainty. Improved application resilience . Your cloud-native applications will be decoupled from their original infrastructure. This means that they can take full advantage of the benefits that cloud-hosted technology offers. Features like low-cost redundancy, high-availability, and security automation are much easier to implement with cloud-native apps. Some of the drawbacks you should be aware of include: Vendor lock-in risks . As your apps become cloud-native, they will naturally draw on cloud features that enhance their capabilities. They will end up tightly coupled to the cloud platform you use. You may reach a point where withdrawing those apps and migrating them to a different provider becomes infeasible, or impossible. Time and talent requirements . This process takes a great deal of time and specialist expertise. If your organization doesn’t have ample amounts of both, the process may end up taking too long and costing too much to be feasible. Errors and vulnerabilities . Refactoring involves making major changes to the way applications work. If errors work their way in at this stage, it can deeply impact the usability and security of the workload itself. Organizations can use cloud-based templates to address some of these risks, but it will take comprehensive visibility into how applications interact with cloud security policies to close every gap. Step 8: Data Migration There are many factors to take into consideration when moving data from legacy applications to cloud-native apps. Some of the things you’ll need to plan for include: Selecting the appropriate data transfer method . This depends on how much time you have available for completing the migration, and how well you plan for potential disruptions during the process. If you are moving significant amounts of data through the public internet, sidelining your regular internet connection may be unwise. Offline transfer doesn’t come with this risk, but it will include additional costs. Ensuring data center compatibility. Whether transferring data online or offline, compatibility issues can lead to complex problems and expensive downtime if not properly addressed. Your migration strategy should include a data migration testing strategy that ensures all of your data is properly formatted and ready to use the moment it is introduced to the new environment. Utilizing migration tools for smooth data transfer . The three major cloud providers all offer cloud migration tools with multiple tiers and services. You may need to use these tools to guarantee a smooth transfer experience, or rely on a third-party partner for this step in the process. Step 9: Configuring the Cloud Environment By the time your data arrives in its new environment, you will need to have virtual machines and resources set up to seamlessly take over your application workloads and processes. At the same time, you’ll need a comprehensive set of security policies enforced by firewall rules that address the risks unique to cloud-hosted infrastructure. As with many other steps in this checklist, you’ll want to carefully assess, plan, and test your virtual machine deployments before deploying them in a live production environment. Gather information about your source and target environment and document the workloads you wish to migrate. Set up a test environment you can use to make sure your new apps function as expected before clearing them for live production. Similarly, you may need to configure and change firewall rules frequently during the migration process. Make sure that your new deployments are secured with reliable, well-documented security policies. If you skip the documentation phase of building your firewall policy, you run the risk of introducing security vulnerabilities into the cloud environment, and it will be very difficult for you to identify and address them later on. You will also need to configure and deploy network interfaces that dictate where and when your cloud environment will interact with other networks, both inside and outside your organization. This is your chance to implement secure network segmentation that protects mission-critical assets from advanced and persistent cyberattacks. This is also the best time to implement disaster recovery mechanisms that you can rely on to provide business continuity even if mission-critical assets and apps experience unexpected downtime. Step 10: Automating Workflows Once your data and apps are fully deployed on secure cloud-hosted infrastructure, you can begin taking advantage of the suite of automation features your cloud provider offers. Depending on your choice of migration strategy, you may be able to automate repetitive tasks, streamline post-migration processes, or enhance the productivity of entire departments using sophisticated automation tools. In most cases, automating routine tasks will be your first priority. These automations are among the simplest to configure because they largely involve high-volume, low-impact tasks. Ideally, these tasks are also isolated from mission-critical decision-making processes. If you established a robust set of key performance indicators earlier on in the migration project, you can also automate post-migration processes that involve capturing and reporting these data points. Your apps will need to continue ingesting and processing data, making data validation another prime candidate for workflow automation. Cloud-native apps can ingest data from a wide range of sources, but they often need some form of validation and normalization to produce predictable results. Ongoing testing and refinement will help you make the most of your migration project moving forward. How AlgoSec Enables Secure Application Migration Visibility and Di scovery : AlgoSec provide s comprehensive visibility into your existing on-premises network environment. It automatically discovers all network devices, applications, and their dependencies. This visibility is crucial when planning a secure migration, ensuring no critical elements get overlooked in the process. Application Dependency Mapping : AlgoSec’s application dependency mapping capabilities allow you to understand how different applications and services interact within your network. This knowledge is vital during migration to avoid disrupting critical dependencies. Risk Assessment : AlgoSec assesses the security and compliance risks associated with your migration plan. It identifies potential vulnerabilities, misconfigurations, and compliance violations that could impact the security of the migrated applications. Security Policy Analysis : Before migrating, AlgoSec helps you analyze your existing security policies and rules. It ensures that security policies are consistent and effective in the new cloud or data center environment. Misconfigurations and unnecessary rules can be eliminated, reducing the attack surface. Automated Rule Optimiz ation : AlgoSec automates the o ptimization of security rules. It identifies redundant rules, suggests rule consolidations, and ensures that only necessary traffic is allowed, helping you maintain a secure environment during migration. Change Management : During the migration process, changes to security policies and firewall rules are often necessary. AlgoSec facilitates change management by providing a streamlined process for requesting, reviewing, and implementing rule changes. This ensures that security remains intact throughout the migration. Compliance and Governance : AlgoSec helps maintain compliance with industry regulations and security best practices. It generates compliance reports, ensures rule consistency, and enforces security policies, even in the new cloud or data center environment. Continuous Monitoring and Auditing : Post-migration, AlgoSec continues to monitor and audit your security policies and network traffic. It alerts you to any anomalies or security breaches, ensuring the ongoing security of your migrated applications. Integration with Cloud Platforms : AlgoSec integrates seamlessly with various cloud platforms such as AWS , Microsoft Azure , and Google Cloud . This ensures that security policies are consistently applied in both on-premises and cloud environments, enabling a secure hybrid or multi-cloud setup. Operational Efficiency : AlgoSec’s automation capabilities reduce manual tasks, improving operational efficiency. This is essential during the migration process, where time is often of the essence. Real-time Visibility and Control : AlgoSec provides real-time visibility and control over your security policies, allowing you to adapt quickly to changing migration requirements and security threats. 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 | NGFW vs UTM: What you need to know
Podcast: Differences between UTM and NGFW In our recent webcast discussion alongside panelists from Fortinet, NSS Labs and General... Firewall Change Management NGFW vs UTM: What you need to know Sam Erdheim 2 min read Sam Erdheim 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 2/19/13 Published Podcast: Differences between UTM and NGFW In our recent webcast discussion alongside panelists from Fortinet, NSS Labs and General Motors, we examined the State of the Firewall in 2013. We received more audience questions during the webcast than the time allowed for, so we’d like to answer these questions through several blog posts in a Q&A format with the panelists. By far the most asked question leading up to and during the webcast was: “What’s the difference between a UTM and a Next-Generation Firewall?” Here’s how our panelists responded: Pankil Vyas, Manager – Network Security Center, GM UTM are usually bundled feature set, NGFW has bundle but licensing can be selective. Depending on the firewall’s function on the network, some UTM features might not be useful, creating performance issues and sometimes firewall conflicts with packet flows. Nimmy Reichenberg, VP of Strategy, AlgoSec Different people give different answers to this question, but if we refer to Gartner who are certainly a credible source, a UTM consolidates many security functions (email security, AV, IPS, URL filtering etc.) and is tailored mostly to SMBs in terms of management capabilities, throughput, support, etc. A NGFW is an enterprise-grade product that at the very least includes IPS capabilities and application awareness (layer 7 control). You can refer to a Gartner paper titled “Defining the Next-Generation Firewall” for more information. Ryan Liles, Director of Testing Services, NSS Labs There really aren’t any differences in a UTM and a NGFW. The technologies used in the two are essentially the same, and they generally have the same capabilities. UTM devices are typically classified with lower throughput ratings than their NGFW counterparts, but for all practical purposes the differences are in marketing. The term NGFW was coined by vendors working with Gartner to create a class of products capable of fitting into an enterprise network that contained all of the features of a UTM. The reason for the name shift is that there was a pervasive line of thought stating a device capable of all of the functions of a UTM/NGFW would never be fast enough to run in an enterprise network. As hardware has progressed, the capability of these devices to hit multi-gigabit speeds began to prove that they were indeed capable of enterprise deployment. Rather than try and fight the sentiment that a UTM could never fit into an enterprise, the NGFW was born. Patrick Bedwell, VP of Products, Fortinet There are several definitions in the market of both terms. Analyst firms IDC and Gartner provided the original definitions of the terms. IDC defined UTM as a security appliance that combines firewall, gateway antivirus, and intrusion detection / intrusion prevention (IDS/IPS). Gartner defined an NGFW as a single device with integrated IPS with deep packet scanning, standard first-generation FW capabilities (NAT, stateful protocol inspection, VPN, etc.) and the ability to identity and control applications running on the network. Since their initial definitions, the terms have been used interchangeably by customers as well as vendors. Depending on with whom you speak, UTM can include NGFW features like application ID and control, and NGFW can include UTM features like gateway antivirus. The terms are often used synonymously, as both represent a single device with consolidated functionality. At Fortinet, for example, we offer customers the ability to deploy a FortiGate device as a pure firewall, an NGFW (enabling features like Application Control or User- and Device-based policy enforcement) or a full UTM (enabling additional features like gateway AV, WAN optimization, and so forth). Customers can deploy as much or as little of the technology on the FortiGate device as they need to match their requirements. If you missed the webcast, you can view it on-demand. We invite you to continue this debate and discussion by commenting here on the blog or via the Twitter hashtag 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 Business benefits of application centric zero trust - AlgoSec
The Business benefits of application centric zero trust E-BOOK Download PDF Download PDF Add a Title Add a Title Add a Title 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
- Pricing | AlgoSec
Explore Algosec's flexible pricing options for network security management solutions that fit your organization's needs and budget. Pricing Our pricing model is flexible, just like your network environment and needs. Get your customized offer today! Get your pricing Watch a video Year after year, rated #1 by your peers If you are running more than 50 critical business applications. If you have more than 10 firewalls in your environment. If your network security environment does not use only one firewall vendor. AlgoSec is for you if… AlgoSec pricing is based on the number of security devices in your environment, Cloud VM and containers and the number of applications you would like to manage. How is AlgoSec licensed? AlgoSec is a network security policy management solution that helps organizations automate and optimize their cybersecurity management. AlgoSec is best known for its flagship offerings: Firewall analyzer Policy change automation Hybrid network security management What is AlgoSec best known for? AlgoSec offers critical features such as: Risk mitigation Application discovery Estate wide network security mapping Application connectivity compliance Intelligent application connectivity automation Zero touch change management What are AlgoSec’s key features? AlgoSec customers will get value within the first month. A full deployment of the solution depends on the customer landscape, desired functionality and specific requirements. For medium size businesses, it takes between 1-3 months. For large enterprises, it takes between 3-6 months. For very large enterprises, it takes between 6-9 months. How long does it typically take to deploy AlgoSec? Learn more here "The reason we chose AlgoSec is because we saw the benefits of what it would give us for the business. The time it has taken to make a change has dropped significantly..." How does AlgoSec stack up against the competition? AlgoSec typically works best with companies that: Have an annual revenue above a billion dollars. Have a complex environment with multi-vendor network security devices. Have 50 plus critical business applications. Is AlgoSec’s pricing within reach for smaller companies? Yes. Look here Does AlgoSec really offer a money back guarantee? FAQ We also empower complex organizations to solve a range of use cases, including: Gain visibility Ensure compliance Reduce risk Intelligently automate change across hybrid networks That’s why we work closely with you to develop a pricing plan that's customized to meet your needs. Our pricing is based on the number of applications and devices across your hybrid network that you want to protect. To learn more about our pricing and how we help Network Security and Cloud Security experts. Still have pricing questions? Join leading companies like:







