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Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. VERIZON HELPS CLIENTS IMPROVE SECURITY AND BUSINESS AGILITY USING ALGOSEC Organization Verizon Industry Telecom Headquarters NJ, USA Download case study Share Customer
success stories "I selected AlgoSec’s Security Management Solution because the reporting is very trustworthy, it helps reduce the operational workload for network security administrators, and ultimately it improves performance and security." AlgoSec Business Impact Reduce the workload for the operations team and improve efficiency Provide comprehensive trustworthy reporting on change management Improve overall network performance and security Background Verizon is one of the world’s largest global communications companies and an international technology innovator. Verizon provides products and services related to networks, cloud, machine to machine and mobile technologies; data, hosting and storage; and managed security, as well as other wired and wireless offerings to business and government clients around the world. The company’s Global IP Network connects people and businesses in 2,700 cities and 150 countries. Challenge Verizon’s professional services consultants find that their clients too often focus on compliance to the detriment of security and operational issues. “From an auditing perspective, if the firewall is up and running some clients think they are more or less okay,” says Stefano Ciminelli, EMEA Practice Manager, Business Resiliency & Optimization at Verizon Business. Ciminelli warns that clients also need to be certain that “the firewall policies do not contain mistakes—those that could bring down their business. It’s not just a problem of protecting the IT systems, it’s really a matter of protecting the business,” he notes. Firewall management can also create tension between the network security group and business managers. “You always have the network security people focused on IT and the business people who like to focus on change management. Often these two groups don’t really communicate or understand each other easily,” Ciminelli adds.Moreover, many companies have several people devoted to managing firewalls and “firefighting,” “because they simply do not have the right tools,” says Ciminelli. Solution Ciminelli and his team at Verizon wanted to provide their clients with a way to address IT and security issues and, at the same time, automate change management workflows in order to support business continuity.“You want to be operationally efficient; you want to be secure; and especially, you want to help your business do their business. But, when it comes to network firewall management and analysis, you actually have few tools available that help you meet all those goals,” says Ciminelli. From the security manager’s perspective, AlgoSec’s Security Management Solution was the top choice. “The reporting is very trustworthy, it helps reduce the operational workload for network security administrators, and ultimately it improves performance and security,” Ciminelli states. “You can find a lot of vendors for security products in the market. But I don’t want to just sell products. I am entrusted to recommend quality services, so I rely on an extremely trustworthy partner like AlgoSec.” Results Ciminelli reports that when his customers invest in AlgoSec, “they are very happy because they can proactively manage their firewalls.” More importantly, though, “they are not forced to change a rule, close their eyes, cross their fingers and hope that everything is going to be okay.” Customers can trust AlgoSec’s reports to show how a rule change will affect access and their overall security before a change is made, and that there will be no surprises after the fact. The ability to share information between IT and business managers has also provided some unexpected benefits for Ciminelli. “When it comes to asking for additional budget, for instance, IT can now prove value and that makes life easier for everybody,” he notes. Customer service ranks high in Ciminelli’s priorities—and AlgoSec consistently delivers. “Whenever I have a problem I always get very efficient and proactive technical support from the AlgoSec team. This is one of the primary reasons I continue to advise my customers to purchase AlgoSec,” he says. Ciminelli urges his clients and other companies to think broadly about the real purpose of firewall policy management. “What you want is not just a well configured firewall, you want good long-term security management.” The goal is to have a firewall that provides excellent protection as the company grows, needs change, and applications are deployed, changed or decommissioned. Ciminelli’s final recommendation? “Using AlgoSec products and relying on good professional services to help you, that is really the smart choice.” Schedule time with one of our experts

Securely accelerate application delivery by automating application connectivity and security policy across the hybrid network estate. AlgoSecセキュリティマネジメントソリューション Bienvenue! クラウドセキュリティ制御およびオンプレミスファイアウォールのポリシー管理は、細心のバランスを要する作業です。一方でアタックサーフェスと呼ばれる外部脅威への露出を最小限に抑え、リスクを減らし、一方では重要なビジネス・アプリケーションへの接続を提供することで、生産性を向上させる必要があります。そして、ネットワークのセキュリティポリシーの管理プロセスは、常に複雑で、エラーが多く時間のかかるものでした。
しかし、今はもうその必要はありません。 AlgoSecはオンプレミスとクラウド上のネットワークセキュリティポリシーの管理を簡素化、自動化して、企業の俊敏性とセキュリティを強化し、常にコンプライアンスを遵守する環境を提供します。 セキュリティポリシーのライフサイクルマネジメントへ独自のアプローチ AlgoSecは、セキュリティポリシーのライフサイクル全体を管理し、ビジネスアプリケーションの継続的かつ安全な接続を確保するユニークなソリューションです。 アプリケーションのコネクティビティを自動的に検出し、リスクを事前に分析の上で、ネットワークセキュリティの変更を素早く実行、さらにファイアウォールルールを安全に削除することができます。 これらは、お客様のマルチベンダー環境での運用を調和し、自動的かつスムーズに行われます。 AlgoSecソリューションの利用例 クラウド環境とオンプレミス環境のネットワークセキュリティポリシー管理を統一 継続的にコンプライアンスを遵守し、ファイアウォール監査の準備にかかる時間とコストを大幅に削減 迅速かつ安全にアプリケーション接続を提供し、ネットワークのダウンタイムを防止 セキュリティ、ネットワーク、およびアプリケーションチーム間の連携で、DevSecOpsを促進 ファイアウォールの変更管理を自動化し、設定エラーを回避 適切なセキュリティ構成と効果的なネットワークセグメンテーションによりリスクを削減 AlgoSecセキュリティマネジメントソリューション ネットワークセキュリティポリシーの分析 より詳しい情報 Firewall Analyzer セキュリティポリシーの変更を自動化 より詳しい情報 FireFlow ROIを計算 AlgoSecホワイトペーパー コンタクト AlgoSec 日本担当 Email: [email protected] Relevant links TELEFÓNICA MÉXICO Estudio de caso NATURA Estudio de caso Schedule time with one of our experts

AlgoSec & Juniper Networks AlgoSec seamlessly integrates with Juniper devices to automate application and user aware security policy management and ensure that Juniper devices are properly configured. AlgoSec supports the entire security policy management lifecycle — from application connectivity discovery, through ongoing management and compliance, to rule recertification and secure decommissioning. How to Juniper Policy Optimization Learn how to achieve a clean and optimized security policy on your Juniper device Juniper Regulatory Compliance Learn how to prepare for a regulatory audit Juniper Risk Assessment Learn how to assess risk on your Juniper devices with AlgoSec See how Juniper Users Can Benefit from AlgoSec Schedule time with one of our experts

Understand the Federal Information Security Management Act (FISMA). Learn key requirements, best practices, and how to achieve and maintain FISMA compliance. FISMA compliance defined: Requirements & best practices Everything You wanted to know about the Federal Information Security Management Act (FISMA) The Federal Information Security Management Act (FISMA) is a U.S. federal law that requires federal government agencies and their third-party partners to implement an information security program to protect their sensitive data. It provides a comprehensive security and risk management framework to implement effective controls for federal information systems. Introduced in 2002, FISMA is part of the E-Government Act of 2002 that’s aimed at improving the management of electronic government services and processes. Both these U.S. government regulations are implemented to uphold federal data security standards and protect sensitive data in government systems. FISMA 2002 was amended by the Federal Information Security Modernization Act of 2014 (FISMA 2014). Schedule a Demo What is FISMA compliance? FISMA compliance means adhering to a set of policies, standards, and guidelines to protect the personal or sensitive information contained in government systems. FISMA requires all government agencies and their vendors, service providers, and contractors to improve their information security controls based on these pre-defined requirements. Like FISMA, the Federal Risk and Authorization Management Program (FedRAMP) enables federal agencies and their vendors to protect government data, albeit for cloud services. FISMA is jointly overseen by the Department of Homeland Security (DHS) and the National Institute of Standards and Technology (NIST). NIST develops the FISMA standards and guidelines – including the minimum security requirements – that bolster the IT security and risk management practices of agencies and their contractors. The DHS administers these programs to help maximize federal information system security. FISMA non-compliance penalties FISMA non-compliance can result in many penalties, including reduced federal funding and censure by the U.S. Congress. Companies can also lose federal contracts and suffer damage to their reputation. Further, non-compliance indicates a poor cybersecurity infrastructure, which may result in costly cyberattacks or data breaches, which could then result in regulatory fines or legal penalties. Schedule a Demo Who must be FISMA-compliant? FISMA’s data protection rules were originally applicable only to U.S. federal agencies. While these standards are still applicable to all federal agencies without exception, they are now applicable to other organizations as well. Thus, any third-party contractor or other organization that provides services to a federal agency and handles sensitive information on behalf of the government must also comply with FISMA. Thus the list of organizations that must comply with FISMA includes: Public or private sector organizations having contractual agreements with federal agencies Public or private organizations that support a federal program or receive grants from federal agencies State agencies like Medicare and Medicaid Schedule a Demo What are the FISMA compliance requirements? The seven key requirements of FISMA compliance are: 1. Maintain an inventory of information systems All federal agencies and their contractors must maintain an updated list of their IT systems. They must also identify and track the integrations between these systems and any other systems in the network. The inventory should include systems that are not operated by or under their direct control. 2. Categorize information security risks Organizations must categorize their information and information systems in order of risk. Such categorizations can help them to focus their security efforts on high-risk areas and ensure that sensitive information is given the highest level of security. The NIST’s FIPS 199 standard provides risk categorization guidelines. It also defines a range of risk levels that organizations can assign to their information systems during risk categorization. 3. Implement security controls Since FISMA’s purpose is to protect the information in government systems, security controls that provide this protection are a mandatory requirement. Under FISMA, all government information systems must meet the minimum security requirements defined in FIPS 200. Organizations are not required to implement every single control. However, they must implement the controls that are relevant to them and their systems. They must also document the selected controls in their system security plan (SSP). NIST 800-53 (NIST special publication or SP) provides a list of suggested security controls for FISMA compliance. 4. Conduct risk assessments A risk assessment is a review of an organization’s security program to identify and assess potential risks. After identifying cyber threats and vulnerabilities, the organization should map them to the security controls that could mitigate them. Based on the likelihood and impact of a security incident, they must determine the risk of that threat. The final risk assessment includes risk calculations of all possible security events plus information about whether the organization will accept or mitigate each of these risks. NIST SP 800-30 provides guidance to conduct risk assessments for FISMA compliance. The NIST recommends identifying risks at three levels: organizational, business process, and information system. 5. Create a system security plan All federal agencies must implement an SSP to help with the implementation of security controls. They must also regularly maintain it and update it annually to ensure that they can implement the best and most up-to-date security solutions. The SSP should include information about the organization’s security policies and controls, and a timeline to introduce further controls. It can also include security best practices. The document is a major input in the agency’s (or third party’s) security certification and accreditation process. 6. Conduct annual security reviews Under FISMA, all program officers, compliance officials, and agency heads must conduct and oversee annual security reviews to confirm that the implemented security controls are sufficient and information security risks are at a minimum level. Agency officials can also accredit their information systems. By doing this, they accept responsibility for the security of these systems and are accountable for any adverse impacts of security incidents. Accreditation is part of the four-phase FISMA certification process. Its other three phases are initiation and planning, certification, and continuous monitoring. 7. Continuously monitor information systems Organizations must monitor their implemented security controls and document system changes and modifications. If they make major changes, they should also conduct an updated risk assessment. They may also need to be recertified. Schedule a Demo What are the benefits of FISMA compliance? FISMA compliance benefits both government agencies and their contractors and vendors. By following its guidelines and implementing its requirements, they can: Adopt a robust risk management-centered approach to security planning and implementation Continually assess, monitor, and optimize their security ecosystem Increase org-wide awareness about the need to secure sensitive data Improve incident response and accelerate incident and risk remediation Benefits of FISMA compliance for federal agencies FISMA compliance increases the cybersecurity focus within federal agencies. By implementing its mandated security controls, it can protect its information and information systems, and also protect the privacy of individuals and national security. In addition, by continuously monitoring their controls, they can maintain a consistently strong security posture. They can also eliminate newly-discovered vulnerabilities quickly and cost-effectively. Benefits of FISMA compliance for other organizations FISMA-compliant organizations can strengthen their security postures by implementing its security best practices. They can better protect their data and the government’s data, prevent data breaches and improve incident response planning. Furthermore, they can demonstrate to federal agencies that they have implemented FISMA’s recommended security controls, which gives them an advantage when trying to get new business from these agencies. Schedule a Demo The three levels of FISMA compliance FISMA defines three compliance levels, which refer to the possible impact of a security breach on an organization. These three impact levels are: 1. Low impact Low impact means that the loss of confidentiality, integrity, or availability is likely to have a limited adverse effect on the organization’s operations, assets, or people. For this reason, the security controls for these systems or data types need only meet the low level of FISMA compliance. 2. Moderate impact A moderate impact incident is one in which the loss of confidentiality, integrity, or availability could have serious adverse consequences for the organization’s operations, assets, or people. For example, it may result in significant financial loss to the organization or significant harm to individuals. However, it is unlikely to cause severe damage or result in the loss of life. 3. High impact The compromise of a high-impact information system could have catastrophic consequences for the organization’s operations, assets, or people. For example, a breach may prevent the organization from performing its primary functions, resulting in major financial loss. It may also cause major damage to assets or result in severe harm to individuals (e.g., loss of life or life-threatening injuries). To prevent such consequences, these systems must be protected with the strongest controls. Schedule a Demo FISMA compliance best practices Following the best practices outlined below can ease the FISMA compliance effort and enable organizations to meet all applicable FISMA requirements: Identify the information that must be protected and classify it based on its sensitivity level as it is created Create a security plan to monitor data activity and detect threats Implement automatic encryption for sensitive data Conduct regular risk assessments to identify and fix vulnerabilities and outdated policies Regularly monitor information security systems Provide cybersecurity awareness training to employees Maintain evidence of FISMA compliance, including records of system inventories, risk categorization efforts, security controls, SSPs, certifications, and accreditations Stay updated on changes to FISMA standards, new NIST guidelines, and evolving security best practices Schedule a Demo How AlgoSec can help you with FISMA compliance? Using the AlgoSec platform , you can instantly and clearly see which applications expose you to FISMA compliance violations. You can also automatically generate pre-populated, audit-ready compliance reports to reduce your audit preparation efforts and costs and enhance your audit readiness. AlgoSec will also uncover gaps in your FISMA compliance posture and proactively check every change for possible compliance violations. Schedule a Demo Select a size Everything You wanted to know about the Federal Information Security Management Act (FISMA) What is FISMA compliance? Who must be FISMA-compliant? What are the FISMA compliance requirements? What are the benefits of FISMA compliance? The three levels of FISMA compliance FISMA compliance best practices How AlgoSec can help you with FISMA compliance? Get the latest insights from the experts Use these six best practices to simplify compliance and risk mitigation with the AlgoSec platform White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure continuous compliance Solution overview See how this customer improved compliance readiness and risk management with AlgoSec Case study Choose a better way to manage your network

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Recommendations from Rajpreet Kaur, Senior Principal Analyst at Gartner, in her recent blog on remote working, and a perspective on how... Security Policy Management Deploying NSPM to Implement a Gartner Analyst’s Work from Home Network Security Advice Jeffrey Starr 2 min read Jeffrey Starr 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 4/27/20 Published Recommendations from Rajpreet Kaur, Senior Principal Analyst at Gartner, in her recent blog on remote working, and a perspective on how Network Security Policy Management systems can help enterprises act upon this guidance The COVID-19 pandemic has been the catalyst for a global migration to remote home working. Managing and mitigating the network security risks this presents, on such an unprecedented scale and for a long period of time, poses a significant challenge even for companies that had remote access working plans in place before the pandemic. Not only are cybercriminals taking advantage of network insecurities to leverage attacks, they are also exploiting human anxiety around the crisis to break through security barriers. In fact, a recent survey found that 40 percent of companies reported seeing increased cyberattacks as they enable remote working. So how should organizations manage their security during these massive changes in network usage? In a recent blog , Rajpreet Kaur , Gartner Senior Principal Analyst, and a specialized expert on both hybrid environment network security and NSPM tools, offered recommendations to organizations on how to handle remote infrastructure security challenges, many of which closely align with a focus on network policy automation and application security. Here’s how network security policy management systems can support and enable Rajpreet Kaur’s key recommendations. 1. Don’t panic and start moving things to the cloud without a proper architectural design in place. Panicking and starting a large-scale move to the cloud without a proper plan in place can lead to poor security controls and ill-prepared migration. Before moving to the cloud, organizations must consider their network’s architectural design, which should always start with analysis. The analytical and discovery capabilities of NSPM systems automate this process by discovering and mapping network connectivity and providing a network map, which helps you to understand your network components, making migrations easier, faster and glitch-free. 2. Design a proper network security architecture and plan considering limited disruption and supporting work from home. Implementing these immediate and urgent network changes can only be done effectively and securely with robust change management processes. As with network analysis, NSPM automation capabilities are also vital in rapid change management. Security automation dramatically accelerates change processes, with request generation to implementation time drastically shortened and enables better enforcement and auditing for regulatory compliance. It also helps organizations overcome skill gaps and staffing limitations, which may have already been impacted by the current crisis. NSPM solutions enable full end-to-end change analysis and automation, including what if security checks, automation design, push of changes, and full documentation and audit trail. This ensures that changes can be implemented rapidly, and applied consistently and efficiently, with a full audit trail of every change. 3. Plan for what you need now, don’t try to implement a long-term strategic solution to fix your immediate needs. The current widespread move to home working is adding an extra layer of complexity to remote network security, since organizations are finding themselves having to implement new security policies and roll out adoption in a very short timeframe. Considering this, it’s important for organizations to focus on short-term needs, rather than attempting to develop a long-term strategic solution. Trying to develop a long-term solution in such a short window can be overwhelming and increase the risk of opening security vulnerabilities. Using NSPM speeds up the configuration and implementation process, allowing you to get your remote network security firewall policies up and running as soon as possible, with minimum disruption to your remote workforce. Once you have dealt with the critical immediate needs, you can then focus on developing a more long-term strategy. 4. Try to support your existing work from home employees by doing minimal changes to the existing architecture, like meeting throughput requirements and upgrading the equipment or restricting the access to a group of employees at times. Managing application connectivity and accessibility is key to ensuring minimal work disruption as employees move to remote working. An effective NSPM solution allows you to discover, identify and map business applications to ensure that they are safe and have the necessary connectivity flows. Having such a view of all the applications that are accessing the network allows security teams to map the workflow and provides visibility of the application’s required connectivity in order to minimise outages. 5. For any new network changes and upgrades, or new deployments, consider developing a work from home first strategy. Developing a work from home (WFH) strategy has never been more essential. The challenge is that WFH is a more vulnerable environment; employees are accessing sensitive data from a range of home devices, via outside networks, that may not have the same security controls. On top of this, cyber threats have already seen a sharp increase as cybercriminals exploit the widespread anxiety and vulnerabilities caused by the global crisis. IT security and networking staff are therefore having to do more, with the same staffing levels, whilst also navigating the challenges of doing this remotely from home. NSPM capabilities can help in overcoming these WFH issues. Security teams may, for example, need to change many Firewall rules to allow secure access to sensitive data. An effective NSPM solution can facilitate this and enable fast deployment by providing the ability to make changes to applications’ firewall openings from a single management interface. 6. Enhance security around public facing applications to protect against COVID-19 related cyber-attacks. With the move to remote working, organizations are increasingly relying on applications to carry out their work from home. Ensuring that business-critical applications stay available and secure while shifting to remote work is key to avoiding workflow disruption. It’s essential to take an application centric approach to application security, and an effective NSPM solution can help you to better manage and secure your business-critical applications . As discussed above, application visibility is key here. NSPM systems provides comprehensive application visibility, security operation teams can monitor critical applications for risks and vulnerabilities to ensure that they are safe. Gartner’s Rajpreet Kaur has delivered a good combination of practical and timely guidance along with the logical insights underlying the useful recommendations. These tips bring helpful guidance on the Work from Home security challenge that stands out for its clear relevance when there is now so much other noise out there. A robust NSPM can help you rapidly implement these invaluable recommendations. 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 the relationship between NetOps and SecOps and explains why they are the... DevOps The importance of bridging NetOps and SecOps in network management Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 4/16/21 Published Tsippi Dach, Director of Communications at AlgoSec, explores the relationship between NetOps and SecOps and explains why they are the perfect partnership The IT landscape has changed beyond recognition in the past decade or so. The vast majority of businesses now operate largely in the cloud, which has had a notable impact on their agility and productivity. A recent survey of 1,900 IT and security professionals found that 41 percent or organizations are running more of their workloads in public clouds compared to just one-quarter in 2019. Even businesses that were not digitally mature enough to take full advantage of the cloud will have dramatically altered their strategies in order to support remote working at scale during the COVID-19 pandemic. However, with cloud innovation so high up the boardroom agenda, security is often left lagging behind, creating a vulnerability gap that businesses can little afford in the current heightened risk landscape. The same survey found the leading concern about cloud adoption was network security (58%). Managing organizations’ networks and their security should go hand-in-hand, but, as reflected in the survey, there’s no clear ownership of public cloud security. Responsibility is scattered across SecOps, NOCs and DevOps, and they don’t collaborate in a way that aligns with business interests. We know through experience that this siloed approach hurts security, so what should businesses do about it? How can they bridge the gap between NetOps and SecOps to keep their network assets secure and prevent missteps? Building a case for NetSecOps Today’s digital infrastructure demands the collaboration, perhaps even the convergence, of NetOps and SecOps in order to achieve maximum security and productivity. While the majority of businesses do have open communication channels between the two departments, there is still a large proportion of network and security teams working in isolation. This creates unnecessary friction, which can be problematic for service-based businesses that are trying to deliver the best possible end-user experience. The reality is that NetOps and SecOps share several commonalities. They are both responsible for critical aspects of a business and have to navigate constantly evolving environments, often under extremely restrictive conditions. Agility is particularly important for security teams in order for them to keep pace with emerging technologies, yet deployments are often stalled or abandoned at the implementation phase due to misconfigurations or poor execution. As enterprises continue to deploy software-defined networks and public cloud architecture, security has become even more important to the network team, which is why this convergence needs to happen sooner rather than later. We somehow need to insert the network security element into the NetOps pipeline and seamlessly make it just another step in the process. If we had a way to automatically check whether network connectivity is already enabled as part of the pre-delivery testing phase, that could, at least, save us the heartache of deploying something that will not work. Thankfully, there are tools available that can bring SecOps and NetOps closer together, such as Cisco ACI , Cisco Secure Workload and AlgoSec Security Management Solution . Cisco ACI, for instance, is a tightly coupled policy-driven solution that integrates software and hardware, allowing for greater application agility and data center automation. Cisco Secure Workload (previously known as Tetration), is a micro-segmentation and cloud workload protection platform that offers multi-cloud security based on a zero-trust model. When combined with AlgoSec, Cisco Secure Workload is able to map existing application connectivity and automatically generate and deploy security policies on different network security devices, such as ACI contract, firewalls, routers and cloud security groups. So, while Cisco Secure Workload takes care of enforcing security at each and every endpoint, AlgoSec handles network management. This is NetOps and SecOps convergence in action, allowing for 360-degree oversight of network and security controls for threat detection across entire hybrid and multi-vendor frameworks. While the utopian harmony of NetOps and SecOps may be some way off, using existing tools, processes and platforms to bridge the divide between the two departments can mitigate the ‘silo effect’ resulting in stronger, safer and more resilient operations. We recently hosted a webinar with Doug Hurd from Cisco and Henrik Skovfoged from Conscia discussing how you can bring NetOps and SecOps teams together with Cisco and AlgoSec. You can watch the recorded session 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... 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Network vulnerability scanning provides in-depth insight into your organization’s security posture and highlights the specific types of... Network Security 5 Best Network Vulnerability Scanning Tools in 2024 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 2/11/24 Published Network vulnerability scanning provides in-depth insight into your organization’s security posture and highlights the specific types of vulnerabilities attackers may exploit when targeting it. These tools work by systematically scanning your network environment — including all desktops, laptops, mobile endpoints, servers, and other assets for known weaknesses and misconfigurations. Your analyzer then produces a detailed report that tells you exactly how hackers might breach your systems. Find out how these important tools contribute to successfully managing your security policies and protecting sensitive assets from cybercriminals and malware. What is Network Vulnerability Management? Network vulnerability scanners are cybersecurity solutions typically delivered under a software-as-a-service (SaaS) model. These solutions match your network asset configurations with a comprehensive list of known misconfigurations and security threats, including unpatched software, open ports, and other security issues. By comparing system details against a comprehensive database of known vulnerabilities, network scanning helps pinpoint areas of weakness that could potentially be exploited by threat actors. This proactive approach is essential for maintaining robust network security and protecting sensitive data from unauthorized access and cyberattacks. This provides your organization with several valuable benefits: Early detection of known security vulnerabilities. If your organization is exposed to security threats that leverage known vulnerabilities, you’ll want to address these security gaps as soon as possible. Comprehensive data for efficient risk management. Knowing exactly how many security vulnerabilities your organization is exposed to gives you clear data for conducting in-depth risk management . Regulatory compliance. Many regulatory compliance frameworks like SOC 2, ISO 27001, and PCI DSS require organizations to undergo regular vulnerability scanning. Reduced costs. Automating the process of scanning for vulnerabilities reduces the costs associated with discovering and remediating security weaknesses manually. Key Features and Functions The best network security vulnerability scanners have several important features in common: Prioritized vulnerability assessment tools. You need to be able to assess and prioritize vulnerabilities based on their severity. This allows you to commit security resources to addressing high-priority vulnerabilities first, and taking care of low-impact weaknesses afterwards. Automation and real-time analysis. Manual scanning is a difficult and time-consuming process. Your vulnerability scanner must support automated, ongoing scanning for real-time vulnerability detection, providing on-demand insights into your security risk profile. Integration with remediation tools: The best network vulnerability scanners integrate with other security tools for quick mitigation and remediation. This lets security teams quickly close security gaps and move on to the next, without having to spend time accessing and managing a separate set of security tools. How Network Vulnerability Scanning Tools Work Step 1. Scanning Process Initial network mapping is the first step in the vulnerability scanning process. At this point, your scanner maps your entire network and identifies every device and asset connected to it. This includes all web servers, workstations, firewalls , and network devices. The automatic discovery process should produce a comprehensive map showing how your network is connected, and show detailed information about each network device. It should include comprehensive port scanning to identify open ports that attackers could use to gain entry to the network. Step 2. Detection Techniques The next step in the process involves leveraging advanced detection techniques to identify known vulnerabilities in the network. Most network vulnerability scanners rely on two specific techniques to achieve this: Signature-Based Detection: The scanner checks for known vulnerabilities by comparing system details against a database of known issues. This database is drawn from extensive threat intelligence feeds and public records like the MITRE CVE Program . Heuristic Analysis: This technique relies on heuristic and behavioral techniques to identify unknown or zero-day vulnerabilities based on unusual system behavior or configurations. It may detect suspicious activities that don’t correspond to known threats, prompting further investigation. Step 3. Vulnerability Identification This step involves checking network assets for known vulnerabilities according to their unique risk profile. This includes scanning for outdated software and operating system versions, and looking for misconfigurations in network devices and settings. Most network scanners achieve this by pinging network-accessible systems, sending them TCP/UDP packets, and remotely logging into compatible systems to gather detailed information about them. Highly advanced network vulnerability scanning tools have more comprehensive sets of features for identifying these vulnerabilities, because they recognize a wider, more up-to-date range of network devices. Step 4. Assessment and Reporting This step describes the process of matching network data to known vulnerabilities and prioritizing them based on their severity. Advanced network scanning devices may use automation and sophisticated scripting to produce a list of vulnerabilities and exposed network components. First, each vulnerability is assessed for its potential impact and risk level, often based on industry-wide compliance standards like NIST. Then the tool prioritizes each vulnerability based on its severity, ease of exploitation, and potential impact on the network. Afterwards, the tool generates a detailed report outlining every vulnerability assessed and ranking it according to its severity. These reports guide the security teams in addressing the identified issues. Step 5. Continuous Monitoring and Updates Scanning for vulnerabilities once is helpful, but it won’t help you achieve the long-term goal of keeping your network protected against new and emerging threats. To do that, you need to continuously monitor your network for new weaknesses and establish workflows for resolving security issues proactively. Many advanced scanners provide real-time monitoring, constantly scanning the network for new vulnerabilities as they emerge. Regular updates to the scanner’s vulnerability database ensure it can recognize the latest known vulnerabilities and threats. If your vulnerability scanner doesn’t support these two important features, you may need to invest additional time and effort into time-consuming manual operations that achieve the same results. Step 6. Integration with Other Security Measures Security leaders must pay close attention to what happens after a vulnerability scan detects an outdated software patch or misconfiguration. Alerting security teams to the danger represented by these weaknesses is only the first step towards actually resolving them, and many scanning tools offer comprehensive integrations for launching remediation actions. Remediation integrations are valuable because they allow security teams to quickly address vulnerabilities immediately upon discovering them. The alternative is creating a list of weaknesses and having the team manually go through them, which takes time and distracts from higher-impact security tasks. Another useful integration involves large-scale security posture analytics. If your vulnerability assessment includes analysis and management tools for addressing observable patterns in your network vulnerability scans, it will be much easier to dedicate resources to the appropriate security-enhancing initiatives. Choosing a Network Vulnerability Scanning Solution There are two major categories of features that network vulnerability scanning tools must offer in order to provide best-in-class coverage against sophisticated threats. Keep these aspects in mind when reviewing your options for deploying vulnerability scans in your security workflow. Important Considerations Comprehensive Vulnerability Database. Access to an extensive CVE database is vital. Many of these are open-source and available to the general public, but the sheer number of CVE records can drag down performance. The best vulnerability management tools have highly optimized APIs capable of processing these records quickly. Customizability and Templates. Tailoring scans to specific needs and environments is important for every organization, but it takes on special significance for organizations seeking to demonstrate regulatory compliance. That’s because the outcome of compliance assessments and audits will depend on the quality of data included in your reports. False Positive Management. All vulnerability scanners are susceptible to displaying false positives, but some manage these events better than others. This is especially important in misconfiguration cases, because it can cause security teams to mistakenly misconfigure security tools that were configured correctly in the first place. Business Essentials Support for Various Platforms. Your vulnerability scan must ingest data from multiple operating systems like Windows, Linux, and a variety of cloud platforms. If any of these systems are not compatible with the scanning process, you may end up with unstable performance or unreliable data. Reporting and Analytics. Detailed reports and analytics help you establish a clear security posture assessment. Your vulnerability management tool must provide clear reports that are easy for non-technical stakeholders to understand. This will help you make the case for necessary security investments in the future. Scalability and Flexibility. These solutions must scale with the growth of your organization’s IT infrastructure . Pay attention to the usage and payment model each vulnerability scanning vendor uses. Some of them may be better suited to small, growing organizations while others are more appropriate for large enterprises and government agencies. Top 5 Network Vulnerability Scanning Providers 1. AlgoSec AlgoSec is a network security platform that helps organizations identify vulnerabilities and orchestrate network security policies in response. It includes comprehensive features for managing firewalls routers , and other security device configurations, and enables teams to proactively scan for new vulnerabilities on their network. AlgoSec reports on misconfigurations and vulnerabilities, and can show how simulated changes to IT infrastructure impact the organization’s security posture. It provides in-depth visibility and control over multi-cloud and on-premises environments. Key features: Comprehensive network mapping. AlgoSec supports automatic network asset discovery, giving security teams complete coverage of the hybrid network. In-depth automation. The platform supports automatic security policy updates in response to detected security vulnerabilities, allowing security teams to manage risk proactively. Detailed risk analysis. When AlgoSec detects a vulnerability, it provides complete details and background on the vulnerability itself and the risk it represents. 2. Tenable Nessus Tenable Nessus is one of the industry’s most reputable names in vulnerability assessment and management. It is widely used to identify and fix vulnerabilities including software flaws, missing security patches, and misconfigurations. It supports a wide range of operating systems and applications, making it a flexible tool for many different use cases. Key features: High-speed discovery. Tenable supports high speed network asset discovery scans through advanced features. Break up scans into easily managed subnetworks and configure ping settings to make the scan faster. Configuration auditing. Security teams can ensure IT assets are compliant with specific compliance-oriented audit policies designed to meet a wide range of assets and standards. Sensitive data discovery. Tenable Nessus can discover sensitive data located on the network and provide clear, actionable steps for protecting that data in compliance with regulatory standards. 3. Rapid7 Nexpose Nexpose offers real-time monitoring and risk assessment designed for enterprise organizations. As an on-premises vulnerability scanner, the solution is well-suited to the needs of large organizations with significant IT infrastructure deployments. It collects vulnerability information, prioritizes it effectively, and provides guidance on remediating risks. Key Features: Enterprise-ready on-premises form factor. Rapid7 designed Nexpose to meet the needs of large organizations with constant vulnerability scanning needs. Live monitoring of the attack surface. Organizations can continuously scan their IT environment and prioritize discovered vulnerabilities using more than 50 filters to create asset groups that correspond to known threats. Integration with penetration testing. Rapid7 comes with a wide range of fully supported integrations and provides vulnerability and exploitability context useful for pentest scenarios. 4. Qualys Qualys is an enterprise cloud security provider that includes vulnerability management in its IT security and compliance platform. It includes features that help security teams understand and manage security risks while automating remediation with intuitive no-code workflows. It integrates well with other enterprise security solutions, but may not be accessible for smaller organizations. Key features: All-in-one vulnerability management workflow . Qualys covers all of your vulnerability scanning and remediation needs in a single, centralized platform. It conducts asset discovery, detects vulnerabilities, prioritizes findings, and launches responses with deep customization and automation capabilities. Web application scanning . The platform is well-suited to organizations with extensive public-facing web applications outside the network perimeter. It supports container runtime security, including container-as-a-service environments. Complete compliance reporting . Security teams can renew expiring certificates directly through Qualys, making it a comprehensive solution to obtaining and maintaining compliance. 5. OpenVAS (Greenbone Networks) OpenVAS is an open-source tool that offers a comprehensive scanning to organizations of all sizes. It is available under a General Public License (GPL) agreement, making it a cost-effective option compared to competing proprietary software options. It supports a range of customizable plugins through its open source developer community. Key Features: Open-source vulnerability scanner. Organizations can use and customize OpenVAS at no charge, giving it a significant advantage for organizations that prioritize cost savings. Customizable plugins. As with many open-source tools, there is a thriving community of developers involved in creating customizable plugins for unique use cases. Supports a wide range of vulnerability tests . The high level of customization offered by OpenVAS allows security teams to run many different kinds of vulnerability tests from a single, centralized interface. Honorable Mentions Nmap (Network Mapper): A versatile and free open-source tool, NMAP is popular for network discovery and security auditing. It’s particularly noted for its flexibility in scanning both large networks and single hosts. Nmap is a powerful and popular Linux command-line tool commonly featured in cybersecurity education courses. Microsoft’s Azure Security Center: Ideal for organizations heavily invested in the Azure cloud platform, this tool provides integrated security monitoring and policy management across hybrid cloud workloads. It unifies many different security features, including vulnerability assessment, proactive threat hunting, and more. IBM Security QRadar Vulnerability Manager: This is a comprehensive solution that integrates with other IBM QRadar products, providing a full-spectrum view of network vulnerabilities. It’s especially valuable for enterprises that already rely on IBM infrastructure for security workflows. McAfee Vulnerability Manager: A well-known solution offering robust vulnerability scanning capabilities, with additional features for risk and compliance management. It provides a combination of active and passive monitoring, along with penetration testing and authentication scanning designed to provide maximum protection to sensitive network assets. Choosing the Right Vulnerability Management Tool Choosing the right vulnerability management tool requires in-depth knowledge of your organization’s security and IT infrastructure context. You need to select the tool that matches your unique use cases and security requirements while providing the support you need to achieve long-term business goals. Those goals may change over time, which makes ongoing evaluation of your security tools an even more important strategic asset to keep in your arsenal. Gathering clear and detailed information about your organization’s security posture allows you to flexibility adapt to changes in your IT environment without exposing sensitive assets to additional risk. AlgoSec provides a wide range of flexible options for vulnerability scanning, policy change management, and proactive configuration simulation. Enhance your organization’s security capabilities by deploying a vulnerability management solution that provides the visibility and flexibility you need to stay on top of a challenging industry. 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

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Organizations no longer keep their data in one centralized location. Users and assets responsible for processing data may be located... Zero Trust How to Create a Zero Trust Network 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 2/12/24 Published Organizations no longer keep their data in one centralized location. Users and assets responsible for processing data may be located outside the network, and may share information with third-party vendors who are themselves removed from those external networks. The Zero Trust approach addresses this situation by treating every user, asset, and application as a potential attack vector whether it is authenticated or not. This means that everyone trying to access network resources will have to verify their identity, whether they are coming from inside the network or outside. What are the Zero Trust Principles and Concepts? The Zero Trust approach is made up of six core concepts that work together to mitigate network security risks and reduce the organization’s attack surface. 1. The principle of least privilege Under the Zero Trust model, network administrators do not provide users and assets with more network access than strictly necessary. Access to data is also revoked when it is no longer needed. This requires security teams to carefully manage user permissions , and to be able to manage permissions based on users’ identities or roles. The principle of least privilege secures the enterprise network ecosystem by limiting the amount of damage that can result from a single security failure. If an attacker compromises a user’s account, it won’t automatically gain access to a wide range of systems, tools, and workloads beyond what that account is provisioned for. This can also dramatically simplify the process of responding to security events, because no user or asset has access to assets beyond the scope of their work. 2. Continuous data monitoring and validation Zero trust policy assumes that there are attackers both inside and outside the network. To guarantee the confidentiality, integrity, and availability of network assets, it must continuously evaluate users and assets on the network. User identity and privileges must be checked periodically along with device identity and security. Organizations accomplish this in a variety of ways. Connection and login time-outs are one way to ensure periodic monitoring and validation since it requires users to re-authenticate even if they haven’t done anything suspicious. This helps protect against the risk of threat actors using credential-based attacks to impersonate authenticated users, as well as a variety of other attacks. 3. Device access control Organizations undergoing the Zero Trust journey must carefully manage and control the way users interact with endpoint devices. Zero Trust relies on verifying and authenticating user identities separately from the devices they use. For example, Zero Trust security tools must be able to distinguish between two different individuals using the same endpoint device. This approach requires fundamental changes to the way certain security tools work. For example, firewalls that allow or deny access to network assets based purely on IP address and port information aren’t sufficient. Most end users have more than one device at their disposal, and it’s common for mobile devices to change IP addresses. As a result, the cybersecurity tech stack needs to be able to grant and revoke permissions based on the user’s actual identity or role. 4. Network micro segmentation Network segmentation is a good security practice even outside the Zero Trust framework, but it takes on special significance when threats can come from inside and outside the network. Microsegmentation takes this one step further by breaking regular network segments down into small zones with their own sets of permissions and authorizations. These microsegments can be as small as a single asset, and an enterprise data center may have dozens of separately secured zones like these. Any user or asset with permission to access one zone will not necessarily have access to any of the others. Microsegmentation improves security resilience by making it harder for attackers to move between zones. 5. Detecting lateral movement Lateral movement is when threat actors move from one zone to another in the network. One of the benefits of micro segmentation is that threat actors must interact with security tools in order to move between different zones on the network. Even if the attackers are successful, their activities generate logs and audit trails that analysts can follow when investigating security incidents. Zero Trust architecture is designed to contain attackers and make it harder for them to move laterally through networks. When an attack is detected, the compromised asset can be quarantined from the rest of the network. Assets can be as small as individual devices or user accounts, or as large as entire network segments. The more granular your security architecture is, the more choices you have for detecting and preventing lateral movement on the network. 6. Multi-factor authentication (MFA) Passwords are a major problem for traditional security models, because most security tools automatically extend trust to anyone who knows the password. Once a malicious actor learns a privileged user’s login credentials, they can bypass most security checks by impersonating that user. Multi-factor authentication solves that problem by requiring users to provide more information. Knowing a password isn’t enough – users must authenticate by proving their identity in another way. These additional authentication factors can come in the form of biometrics, challenge/response protocols, or hardware-based verifications. How To Implement a Zero Trust Network 1. Map Out Your Attack Surface There is no one-size-fits-all solution for designing and implementing Zero Trust architecture. You must carefully define your organization’s attack surface and implement solutions that protect your most valuable assets. This will require a variety of tools, including firewalls, user access controls, permissions, and encryption. You will need to segment your network into individual zones and use microsegmentation to secure high-value and high-volume zones separately. Pay close attention to how your organization secures its most important assets and connections: Sensitive data . This might include customer and employee data, proprietary information, and intellectual property that you can’t allow threat actors to gain access to. It should benefit from the highest degree of security. Critical applications. These applications play a central role in your organization’s business processes, and must be protected against the risk of disruption. Many of them process sensitive data and must benefit from the same degree of security. Physical assets. This includes everything from customer-facing kiosks to hardware servers located in a data center. Access control is vital for preventing malicious actors from interacting with physical assets. Third-party services. Your organization relies on a network of partners and service providers, many of whom need privileged access to your data. Your Zero Trust policy must include safeguards against attacks that compromise third-party partners in your supply chain. 2. Implement Zero Trust Controls using Network Security Tools The next step in your Zero Trust journey is the implementation of security tools that allow you collect, analyze, and respond to user behaviors on your network. This may require the adjustment of your existing security tech stack, and the addition of new tools designed for Zero Trust use cases. Firewalls must be able to capture connection data beyond the traditional IP, port, and protocol data that most simple solutions rely on. The Zero Trust approach requires inspecting the identities of users and assets that connect with network assets, which requires more advanced firewall technology. This is possible with next generation firewall (NGFW) technology. VPNs may need to be reconfigured or replaced because they do not typically enforce the principle of least privilege. Usually, VPNs grant users access to the entire connected network – not just one small portion of it. In most cases, organizations pursuing Zero Trust stop using VPNs altogether because they no longer provide meaningful security benefits. Zero Trust Network Access (ZTNA) provides secure access to network resources while concealing network infrastructure and services. It is similar to a software-defined perimeter that dynamically responds to network changes and grants flexibility to security policies. ZTNA works by establishing one-to-one encrypted connections between network assets, making imprecise VPNs largely redundant. 3. Configure for Identity and Access Management Identity-based monitoring is one of the cornerstones of the Zero Trust approach. In order to accurately grant and revoke permissions to users and assets on the network, you must have some visibility into the identities behind the devices being used. Zero Trust networks verify user identities in a variety of ways. Some next-generation firewalls can distinguish between user traffic, device traffic, application traffic, and content. This allows the firewall to assign application sessions to individual users and devices, and inspect the data being transmitted between individuals on networks. In practice, this might mean configuring a firewall to compare outgoing content traffic with an encrypted list of login credentials. If a user accidentally logs onto a spoofed phishing website and enters their login credentials, the firewall can catch the data before it is transferred off the network. This would not be possible without the ability to distinguish between different types of traffic using next-generation firewall technology. Multi-factor authentication is also vital to identity and access management. A Zero Trust network should not automatically authenticate a user who presents the correct username and password combination to access a secure account. This does not prove the identity of the individual who owns the account – it only proves that the individual knows the username and password. Additional verification factors make it more likely that this person is, in fact, the owner of the account. 4. Create a Zero Trust Policy for Your IT Environment The process of implementing Zero Trust policies in cloud-native environments can be complex. Every third-party vendor and service provider has a role to play in establishing and maintaining Zero Trust. This often puts significant technical demands on third-party partners, which may require organizations to change their existing agreements. If a third-party partner cannot support Zero Trust, they can’t be allowed onto the network. The same is true for on-premises and data center environments, but with added emphasis on physical security and access control. Security leaders need to know who has physical access to servers and similar assets so they can conduct investigations into security incidents properly. Data centers need to implement strict controls on who interacts with protected equipment and how their access is supervised. How to Operationalize Zero Trust Your Zero Trust implementation will not automatically translate to an operational security context that you can immediately use. You will need to adopt security operations that reflect the Zero Trust strategy and launch adaptive security measures that address vulnerabilities in real-time. Gain visibility into your network. Your network perimeter is no longer strictly defined by its hardware. It consists of cloud resources, automated workflows, operating systems, and more. You won’t be able to enforce Zero Trust without gaining visibility into every aspect of your network environment. Monitor network infrastructure and traffic. Your security team will need to monitor and respond to access requests coming from inside and outside your network. This can lead to significant bottlenecks if your team is not equipped with solutions for automatically managing network traffic and access. Streamline detection and response. Zero Trust networks mitigate the risks of cyberattacks, malware, ransomware, and other potential threats, but it’s still up to individual security analysts to detect and investigate security incidents. The volume of data analysts must inspect may increase significantly, so you should be prepared to mitigate the issue of alert fatigue. Automate Endpoint Security. Consider implementing an automated Endpoint Detection and Response (EDR) solution that can identify malicious behaviors on network devices and address them in real-time. Implement Zero Trust With AlgoSec AlgoSec is a global cybersecurity leader that provides secure application connectivity and policy management through a unified platform. It aligns with Zero Trust principles to provide comprehensive traffic flow analysis and optimization while automated policy changes and eliminating the risk of compliance violations. Security leaders rely on AlgoSec to implement and operationalize Zero Trust deployments while proactively managing complex security policies . AlgoSec can help you establish a Zero Trust network quickly and efficiently, providing visibility and change management capabilities to your entire security tech stack and enabling security personnel to address misconfiguration risks in real-time. Book a demo now to find out how AlgoSec can help you adopt Zero Trust security and prevent attackers from infiltrating your organization. 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