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New version of Security Management Solution supports central control of access credentials, extends DevOps integrations, and optimizes security management processes AlgoSec Announces Support for Privileged Access Management to Enhance Security Management and Reduce Network Attack Surface New version of Security Management Solution supports central control of access credentials, extends DevOps integrations, and optimizes security management processes February 19, 2019 Speak to one of our experts 19 February 2019 – AlgoSec , the leading provider of business-driven network security management solutions, has introduced the AlgoSec Security Management Solution version 2018.2. The new version features support for privileged access management solutions, enabling customers to further enhance their organization’s security management processes with centralized control of device credentials and privileged accounts. AlgoSec 2018.2 delivers seamless access to security devices protected by privileged access control solutions, with no need to duplicate or save those devices’ account access credentials externally. It also includes extended support for DevOps and enhanced support functions for a range of market-leading security controls, to accelerate automation of network security management while minimizing the organization’s attack surface. “With support for privileged access control solutions, customers can now take a business-centric approach to security policy management that ensures agility and continuity, while maintaining a strong security and compliance posture across all of their strategic assets and privileged accounts,” said Omer Ganot, Product Manager at AlgoSec. “The range of new features and enhancements in version 2018.2 further extends AlgoSec’s business-driven security management capabilities, which optimize agility, security and compliance across today’s hybrid enterprise networks.” Key new features introduced in AlgoSec version 2018.2 include: Support for CyberArk Privileged Access Security Solution AlgoSec version 2018.2 gives access to security devices protected by CyberArk’s solution without duplicating or saving those devices’ access credentials, helping joint customers maintain centralized control of all privileged accounts and credentials. Enhanced support for Cisco, VMware, F5, Fortinet and Juniper devices Extended change management for Cisco Firepower devices controlled by the Firepower Management Center, giving full automation and end-to-end provisioning Extended change management support for VMWare NSX Distributed Firewalls, enabling rules to be automatically added, modified, disabled or removed from policies Seamless integration with Cisco Tetration , enabling automation of micro-segmentation projects; also reduces attack surface by combining endpoint and network security Extended support for F5’s BIG-IP Advanced Firewall Manager module Enhanced integration with FortiManager security policies, enabling fully automated management of related Fortinet firewalls managed by FortiManager Enhanced workflow automation for Juniper SRX firewalls New integrations with External Application Deployment Systems for DevOps DevOps can deploy new applications and manage their connectivity with new APIs for application, flow and object editing, and for user / role permission management. APIs are available for Ansible, Puppet and Chef Optimized user experience 2018.2 features a new, dedicated UI for troubleshooting results of traffic simulation queries, helping users to fine-tune their network maps and achieve automation faster The AlgoSec Security Management Solution version 2018.2 is generally available. About AlgoSec The leading provider of business-driven network security management solutions, AlgoSec helps the world’s largest organizations align security with their mission-critical business processes. With AlgoSec, users can discover, map and migrate business application connectivity, proactively analyze risk from the business perspective, tie cyber-attacks to business processes and intelligently automate network security changes with zero touch – across their cloud, SDN and on-premise networks. Over 1,800 enterprises , including 20 of the Fortune 50, utilize AlgoSec’s solutions to make their organizations more agile, more secure and more compliant – all the time. Since 2005, AlgoSec has shown its commitment to customer satisfaction with the industry’s only money-back guarantee. All product and company names herein may be trademarks of their registered owners. *** Media Contacts: Tsippi Dach AlgoSec [email protected] Craig Coward Context Public Relations [email protected] +44 (0)1625 511 966

Product Marketing Manager AlgoSec Cloud Navigating Compliance in the Cloud 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 6/29/25 Published Cloud adoption isn't just soaring; it's practically stratospheric. Businesses of all sizes are leveraging the agility, scalability, and innovation that cloud environments offer. Yet, hand-in-hand with this incredible growth comes an often-overlooked challenge: the increasing complexities of maintaining compliance. Whether your organization grapples with industry-specific regulations like HIPAA for healthcare, PCI DSS for payment processing, SOC 2 for service organizations, or simply adheres to stringent internal governance policies, navigating the ever-shifting landscape of cloud compliance can feel incredibly daunting. It's akin to staring at a giant, knotted ball of spaghetti, unsure where to even begin untangling. But here’s the good news: while it demands attention and a strategic approach, staying compliant in the cloud is far from an impossible feat. This article aims to be your friendly guide through the compliance labyrinth, offering practical insights and key considerations to help you maintain order and assurance in your cloud environments. The foundation: Understanding the Shared Responsibility Model Before you even think about specific regulations, you must grasp the Shared Responsibility Model . This is the bedrock of cloud compliance, and misunderstanding it is a common pitfall that can lead to critical security and compliance gaps. In essence, your cloud provider (AWS, Azure, Google Cloud, etc.) is responsible for the security of the cloud – that means the underlying infrastructure, the physical security of data centers, the global network, and the hypervisors. However, you are responsible for the security in the cloud . This includes your data, your configurations, network traffic protection, identity and access management, and the applications you deploy. Think of it like a house: the cloud provider builds and secures the house (foundation, walls, roof), but you’re responsible for what you put inside it, how you lock the doors and windows, and who you let in. A clear understanding of this division is paramount for effective cloud security and compliance. Simplify to conquer: Centralize your compliance efforts Imagine trying to enforce different rules for different teams using separate playbooks – it's inefficient and riddled with potential for error. The same applies to cloud compliance, especially in multi-cloud environments. Juggling disparate compliance requirements across multiple cloud providers manually is not just time-consuming; it's a recipe for errors, missed deadlines, and a constant state of anxiety. The solution? Aim for a unified, centralized approach to policy enforcement and auditing across your entire multi-cloud footprint. This means establishing consistent security policies and compliance controls that can be applied and monitored seamlessly, regardless of which cloud platform your assets reside on. A unified strategy streamlines management, reduces complexity, and significantly lowers the risk of non-compliance. The power of automation: Your compliance superpower Manual compliance checks are, to put it mildly, an Achilles' heel in today's dynamic cloud environments. They are incredibly time-consuming, prone to human error, and simply cannot keep pace with the continuous changes in cloud configurations and evolving threats. This is where automation becomes your most potent compliance superpower. Leveraging automation for continuous monitoring of configurations, access controls, and network flows ensures ongoing adherence to compliance standards. Automated tools can flag deviations from policies in real-time, identify misconfigurations before they become vulnerabilities, and provide instant insights into your compliance posture. Think of it as having an always-on, hyper-vigilant auditor embedded directly within your cloud infrastructure. It frees up your security teams to focus on more strategic initiatives, rather than endless manual checks. Prove it: Maintain comprehensive audit trails Compliance isn't just about being compliant; it's about proving you're compliant. When an auditor comes knocking – and they will – you need to provide clear, irrefutable, and easily accessible evidence of your compliance posture. This means maintaining comprehensive, immutable audit trails . Ensure that all security events, configuration changes, network access attempts, and policy modifications are meticulously logged and retained. These logs serve as your digital paper trail, demonstrating due diligence and adherence to regulatory requirements. The ability to quickly retrieve specific audit data is critical during assessments, turning what could be a stressful scramble into a smooth, evidence-based conversation. The dynamic duo: Regular review and adaptation Cloud environments are not static. Regulations evolve, new services emerge, and your own business needs change. Therefore, compliance in the cloud is never a "set it and forget it" task. It requires a dynamic approach: regular review and adaptation . Implement a robust process for periodically reviewing your compliance controls. Are they still relevant? Are there new regulations or updates you need to account for? Are your existing controls still effective against emerging threats? Adapt your policies and controls as needed to ensure continuous alignment with both external regulatory demands and your internal security posture. This proactive stance keeps you ahead of potential issues rather than constantly playing catch-up. Simplify Your Journey with the Right Tools Ultimately, staying compliant in the cloud boils down to three core pillars: clear visibility into your cloud environment, consistent and automated policy enforcement, and the demonstrable ability to prove adherence. This is where specialized tools can be invaluable. Solutions like AlgoSec Cloud Enterprise can truly be your trusted co-pilot in this intricate journey. It's designed to help you discover all your cloud assets across multiple providers, proactively identify compliance risks and misconfigurations, and automate policy enforcement. By providing a unified view and control plane, it gives you the confidence that your multi-cloud environment not only meets but also continuously maintains the strictest regulatory requirements. Don't let the complexities of cloud compliance slow your innovation or introduce unnecessary risk. Embrace strategic approaches, leverage automation, and choose the right partners to keep those clouds compliant and your business secure. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Annual vendor-agnostic research found businesses continue to prioritize multi-cloud environments, with Cisco, Microsoft Azure, AWS, Palo Alto Networks and Fortinet leading the way AlgoSec’s 2025 State of Network Security Report Reveals Growing Adoption of Zero-Trust Architecture and Multi-Cloud Environments Annual vendor-agnostic research found businesses continue to prioritize multi-cloud environments, with Cisco, Microsoft Azure, AWS, Palo Alto Networks and Fortinet leading the way April 3, 2025 Speak to one of our experts RIDGEFIELD PARK, NJ, April 3, 2025 – Global cybersecurity leader AlgoSec has released its annual ‘The State of Network Security Report’, providing a comprehensive and objective, vendor-agnostic analysis of today’s network security landscape by identifying key market trends, highlighting in demand solutions and technologies and the most popular strategies being adopted by security professionals. The report identifies significant shifts in cloud platform adoption, deployment of firewalls and Software- Defined Wide Area Networks (SD-WAN), as well as Secure Access Service Edge (SASE) implementation and AI. Based on comparative findings from 2024 and 2025, AlgoSec’s research includes responses from security, network and cloud professionals across 28 countries and evaluates market leaders including Cisco, Microsoft Azure, AWS, Check Point, Palo Alto Networks and more. Key findings from the report include: Security visibility gaps are driving a shift in security management - 71% of security teams struggle with visibility, which is delaying threat detection and response. The lack of insight into application connectivity, security policies and dependencies are proving to be a significant risk Multi-cloud and cloud firewalls are now standard – Businesses continue to adopt multi-cloud environments, with Azure becoming the most widely used platform in 2025. Firewall and SD-WAN adoption grow despite complexity – Multi-vendor strategies make firewall deployment more challenging. In terms of customer base, Palo Alto Networks took the lead, but Fortinet’s NGFW is gaining traction. SD-WAN adoption jumped, with Fortinet rising from 19.1% in 2024 to 25.8% in 2025. Zero-trust and SASE gain momentum – Zero-trust awareness is at an all-time high, with 56% of businesses fully or partially implementing it, though 20% are still in the learning phase. SASE adoption is also growing, with Zscaler leading at 35%, while Netskope has gained 15% market share. AI and automation are reshaping security – AI-driven security tools are improving real-time threat detection, but implementation and privacy concerns remain a challenge. Automation is now critical, with application connectivity automation ranked as the top priority for minimizing risk and downtime. “As businesses expand their digital footprints across hybrid and multi-cloud environments, securing network infrastructure has become a top challenge,” said Eran Shiff, VP of Product at AlgoSec. “We are seeing a major shift toward automation, orchestration and risk mitigation as key security priorities. Adoption of SD-WAN and SASE continues to rise, while awareness of AI-driven security and zero-trust principles is stronger than ever.” The full report can be accessed here. About AlgoSec AlgoSec, a global cybersecurity leader, empowers organizations to securely accelerate application delivery up to 10 times faster by automating application connectivity and security policy across the hybrid network environment. With two decades of expertise securing hybrid networks, over 2200 of the worlds most complex organizations trust AlgoSec to help secure their most critical workloads. AlgoSec Horizon platform utilizes advanced AI capabilities, enabling users to automatically discover and identify their business applications across multi-clouds, and remediate risks more effectively. It serves as a single source for visibility into security and compliance issues across the hybrid network environment, to ensure ongoing adherence to internet security standards, industry, and internal regulations. Additionally, organizations can leverage intelligent change automation to streamline security change processes, thus improving security and agility. Learn how AlgoSec enables application owners, information security experts, SecOps and cloud security teams to deploy business applications faster while maintaining security at www.algosec.com .

In this webinar, our experts demonstrate the usage of Objectflow in managing network objects Webinars Introducing Objectflow: Network Security Objects Made Simple In this webinar, our experts demonstrate the usage of Objectflow in managing network objects. January 31, 2022 Yoni Geva Product Manager Jacqueline Basil Product Marketing Manager Relevant resources AlgoSec AppViz – Rule Recertification Watch Video Changing the rules without risk: mapping firewall rules to business applications Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Webinars Firewall Rule Recertification - An Application-Centric Approach As part of your organization’s security policy management best practices, firewall rules must be reviewed and recertified regularly to ensure security, compliance and optimal firewall performance. Firewall rules which are out of date, unused or unnecessary should be removed, as firewall bloat creates gaps in your security posture, causes compliance violations, and impacts firewall performance. Manual firewall rule recertification, however, is an error-prone and time-consuming process. Please join our webinar by Asher Benbenisty, AlgoSec’s Director of Product Marketing, who will introduce an application-centric approach to firewall recertification, bringing a new, efficient, effective and automated method of recertifying firewall rules. The webinar will: Why it is important to regularly review and recertify your firewall rules The application-centric approach to firewall rule recertification How to automatically manage the rule-recertification process Want to find out more about the importance of ruleset hygiene? Watch this webinar today! Asher Benbenisty Director of product marketing Relevant resources Tips for Firewall Rule Recertification Watch Video Firewall Rule Recertification Read Document Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

The new product version release provides extended multi-cloud hybrid network visibility, reduces risk exposure and addresses new compliance regulations in a unified platform AlgoSec Security Management solution A33.10 delivers new compliance reporting and precise discovery of application connectivity The new product version release provides extended multi-cloud hybrid network visibility, reduces risk exposure and addresses new compliance regulations in a unified platform May 20, 2025 Speak to one of our experts RIDGEFIELD PARK, NJ, May 20, 2025 – Global cybersecurity leader AlgoSec has launched its new Security Management solution version A33.10, as a part of its AlgoSec Horizon platform. The new release provides better visibility across multi-cloud hybrid network environments, prioritizes risks more easily, reduces compliance effort and cuts down on manual processes by automating policy changes. As network environments grow more distributed, visibility becomes harder to maintain. The 2025 State of Network Security Report found that 71% of security teams struggle with visibility, which is delaying threat detection and response. Without comprehensive network visibility, security teams lack a clear understanding of application behavior to protect, detect, and prevent vulnerabilities. “AlgoSec is committed to updating its products to solve everyday problems that security teams face,” said Eran Shiff , VP Product of AlgoSec. “The A33.10 release ensures that our customers have clear and unified visibility into their complex hybrid network environment to reduce manual processes and ensure proper compliance reporting.” Highlights from the AlgoSec Horizon product update include: ● Visibility continues at the application level. Application security management is now faster and smarter with AlgoSec Firewall Analyzer and AlgoSec ACE ’s cloud application discovery as a datasource, allowing the creation of an application library fast. ● Security and compliance go hand in hand. To prepare security teams for audits and identify risks earlier, the new update includes a dedicated DORA and SOC2 compliance reporting, as well as built-in MITRE ATT&CK mapping. ● Streamlined application traffic view. This release introduces early availability support for AWS Load Balancer and Cisco Catalyst SD-WAN (Viptela), helping teams clearly see how traffic traverses across hybrid infrastructure and make more informed decisions. To learn more about the new A33.10 product release, click here . About AlgoSec AlgoSec, a global cybersecurity leader, empowers organizations to securely accelerate application delivery up to 10 times faster by automating application connectivity and security policy across the hybrid network environment. With two decades of expertise securing hybrid networks, over 2200 of the world's most complex organizations trust AlgoSec to help secure their most critical workloads. AlgoSec Horizon platform utilizes advanced AI capabilities, enabling users to automatically discover and identify their business applications across multi-clouds, and remediate risks more effectively. It serves as a single source for visibility into security and compliance issues across the hybrid network environment, to ensure ongoing adherence to internet security standards, industry, and internal regulations. Additionally, organizations can leverage intelligent change automation to streamline security change processes, thus improving security and agility. Learn how AlgoSec enables application owners, information security experts, SecOps and cloud security teams to deploy business applications faster while maintaining security at www.algosec.com . MEDIA CONTACT: Megan Davis Alloy, on behalf of AlgoSec [email protected]

Learn how automation can simplify the process of rule recertification and help determine which rules are still necessary Webinars Play by the rules: Automation for simplified rule recertification As time goes by, once effective firewall rules can become outdated. This results in bloated security policies which can slow down application delivery. Therefore, best practice and compliance requirements calls for rule recertification at least once per year. While rule recertification can be done manually by going through the comments fields of every rule, this is a tedious process which is also subject to the weaknesses of human error. Automation can simplify the process and help determine which rules are still necessary, if done right. Join security experts Asher Benbenisty and Tsippi Dach to learn about: Rule recertification as part of application delivery pipeline The importance of recertifying rules regularly Methods used for rule recertification The business application approach for rule recertification October 27, 2021 Tsippi Dach Director of marketing communications Asher Benbenisty Director of product marketing Relevant resources AlgoSec AppViz – Rule Recertification Watch Video Changing the rules without risk: mapping firewall rules to business applications Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Given the benefits of a micro segmentation strategy, it is worth understanding how to navigate these common challenges, and move towards a more consolidated, secure network Webinars Rescuing Your Network with Micro-Segmentation Cybersecurity has turned into a top priority as hackers grow more sophisticated. Micro-segmentation is a protective measure that allows you to put in gateways separating specific areas. This buffer can serve as a major deterrent keeping criminals from attacking sensitive data, and providing you with the ability to minimize the damage caused by unauthorized intrusions. It can also help with detection of weak points which expose your network to breaches. Join our panel of experts to learn how to plan and build your micro-segmentation strategy while avoiding common pitfalls along the way. In this session, we will discuss: The basics of micro-segmentation and it can help your network Why today’s environment has contributed to a greater need for micro-segmentation How to spot and avoid critical errors that can derail your micro-segmentation implementation July 5, 2021 Alex Hilton Chief Executive at Cloud Industry Forum (CIF) Prof. Avishai Wool CTO & Co Founder AlgoSec Relevant resources Building a Blueprint for a Successful Micro-segmentation Implementation Keep Reading Micro-Segmentation Implementation - Taking the Leap from Strategy to Execution Keep Reading Micro-segmentation – from strategy to execution Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Securely accelerate digital transformation – A joint VMware AlgoSec webinar VMware AlgoSec Webinar Webinars Securely Accelerate Digital Transformation – A Joint VMware & AlgoSec Webinar This past year was an earthquake. The global pandemic amplified the urgent need for businesses to accelerate digital transformation, at the same time that concerns about security achieved heightened levels of urgency. Digital transformation offers the ability to turn these challenges into opportunities. In this joint session by VMware and AlgoSec, you’ll find out how you can maintain both security and agility throughout your digital business transformation project though the AlgoSec integration with VMware NSX-T. Our experts, Brian Heili from VMware and Jeremiah Cornelius from AlgoSec will show you: How VMware simplifies security deployments with NSX Service-defined Firewall by delivering a fundamentally different, “intrinsic” approach to securing east-west traffic at scale — one that’s built into the hypervisor and available at every host. How to gain complete visibility in NSX and across your entire hybrid network with AlgoSec. How to automatically discover, map and manage application connectivity in VMware NSX. How to assess risk in configuration of all network security policy changes and eliminate error with zero-touch automation. How to ensure continuous compliance, by having AlgoSec monitor and track changes to network security policies, whether on VMware NSX firewalls, traditional firewalls or cloud security control February 17, 2021 Brian Heili Network Security Solution Engineer Jeremiah Cornelius Technical Leader for Alliances and Partners at AlgoSec Relevant resources Tips on How to Create Filtering Policies for VMware NSX Keep Reading Partner Solution Brief: AlgoSec and VMware Read Document Network Security for VMware NSX Watch Video Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Firewalls form the first line of defense against intrusive hackers trying to infiltrate internal networks and steal sensitive data. They... Firewall Change Management 5 Types of Firewalls for Enhanced Network Security 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 Firewalls form the first line of defense against intrusive hackers trying to infiltrate internal networks and steal sensitive data. They act as a barrier between networks, clearly defining the perimeters of each. The earliest generation of packet-filter firewalls were rudimentary compared to today’s next-generation firewalls, but cybercrime threats were also less sophisticated. Since then, cybersecurity vendors have added new security features to firewalls in response to emerging cyber threats. Today, organizations can choose between many different types of firewalls designed for a wide variety of purposes. Optimizing your organization’s firewall implementation requires understanding the differences between firewalls and the network layers they protect. How Do Firewalls Work? Firewalls protect networks by inspecting data packets as they travel from one place to another. These packets are organized according to the transmission control protocol/internet protocol (TCP/IP), which provides a standard way to organize data in transit. This protocol is a concise version of the more general OSI model commonly used to describe computer networks. These frameworks allow firewalls to interpret incoming traffic according to strictly defined standards. Security experts use these standards to create rules that tell firewalls what to do when they detect unusual traffic. The OSI model has seven layers: Application Presentation Session Transport Network Data link Physical Most of the traffic that reaches your firewall will use one of the three major Transport layer protocols in this model, TCP, UDP, or ICMP. Many security experts focus on TCP rules because this protocol uses a three-step TCP handshake to provide a reliable two-way connection. The earliest firewalls only operated on the Network Layer, which provides information about source and destination IP addresses, protocols, and port numbers. Later firewalls added Transport Layer and Application Layer functionality. The latest next-generation firewalls go even further, allowing organizations to enforce identity-based policies directly from the firewall. Related Read : Host-Based vs. Network-Based Firewalls 1. Traditional Firewalls Packet Filtering Firewalls Packet-filtering firewalls only examine Network Layer data, filtering out traffic according to the network address, the protocol used, or source and destination port data. Because they do not inspect the connection state of individual data packets, they are also called stateless firewalls. These firewalls are simple and they don’t support advanced inspection features. However, they offer low latency and high throughput, making them ideal for certain low-cost inline security applications. Stateful Inspection Firewalls When stateful firewalls inspect data packets, they capture details about active sessions and connection states. Recording this data provides visibility into the Transport layer and allows the firewall to make more complex decisions. For example, a stateful firewall can mitigate a denial-of-service attack by comparing a spike in incoming traffic against rules for making new connections – stateless firewalls don’t have a historical record of connections to look up. These firewalls are also called dynamic packet-filtering firewalls. They are generally more secure than stateless firewalls but may introduce latency because it takes time to inspect every data packet traveling through the network. Circuit-Level Gateways Circuit-level gateways act as a proxy between two devices attempting to connect with one another. These firewalls work on the Session layer of the OSI model, performing the TCP handshake on behalf of a protected internal server. This effectively hides valuable information about the internal host, preventing attackers from conducting reconnaissance into potential targets. Instead of inspecting individual data packets, these firewalls translate internal IP addresses to registered Network Address Translation (NAT) addresses. NAT rules allow organizations to protect servers and endpoints by preventing their internal IP address from being public knowledge. 2. Next-Generation Firewalls (NGFWs) Traditional firewalls only address threats from a few layers in the OSI model. Advanced threats can bypass these Network and Transport Layer protections to attack web applications directly. To address these threats, firewalls must be able to analyze individual users, devices, and data assets as they travel through complex enterprise networks. Next-generation firewalls achieve this by looking beyond the port and protocol data of individual packets and sessions. This grants visibility into sophisticated threats that simpler firewalls would overlook. For example, a traditional firewall may block traffic from an IP address known for conducting denial-of-service attacks. Hackers can bypass this by continuously changing IP addresses to confuse and overload the firewall, which may allow routing malicious traffic to vulnerable assets. A next-generation firewall may notice that all this incoming traffic carries the same malicious content. It may act as a TCP proxy and limit the number of new connections made per second. When illegitimate connections fail the TCP handshake, it can simply drop them without causing the organization’s internal systems to overload. This is just one example of what next-gen firewalls are capable of. Most modern firewall products combine a wide variety of technologies to provide comprehensive perimeter security against comprehensive cyber attacks. How do NGFWs Enhance Network Security? Deep Packet Inspection (DPI) : NGFWs go beyond basic packet filtering by inspecting the content of data packets. They analyze the actual data payload and not just header information. This allows them to identify and block threats within the packet content, such as malware, viruses, and suspicious patterns. Application-Level Control : NGFWs can identify and control applications and services running on the network. This enables administrators to define and enforce policies based on specific applications, rather than just port numbers. For example, you can allow or deny access to social media sites or file-sharing applications. Intrusion Prevention Systems (IPS) : NGFWs often incorporate intrusion prevention capabilities. They can detect and prevent known and emerging cyber threats by comparing network traffic patterns against a database of known attack signatures. This proactive approach helps protect against various cyberattacks. Advanced Threat Detection: NGFWs use behavioral analysis and heuristics to detect and block unknown or zero-day threats. By monitoring network traffic for anomalies, they can identify suspicious behavior and take action to mitigate potential threats. U ser and Device Identification : NGFWs can associate network traffic with specific users or devices, even in complex network environments. This user/device awareness allows for more granular security policies and helps in tracking and responding to security incidents effectively. Integration with Security Ecosystem : NGFWs often integrate with other security solutions, such as antivirus software, intrusion detection systems (IDS), and security information and event management (SIEM) systems. This collaborative approach provides a multi-layered defense strategy . Security Automation : NGFWs can automate threat response and mitigation. For example, they can isolate compromised devices from the network or initiate other predefined actions to contain threats swiftly. In a multi-layered security environment, these firewalls often enforce the policies established by security orchestration, automation, and response (SOAR) platforms. Content Filtering : NGFWs can filter web content, providing URL filtering and content categorization. This helps organizations enforce internet usage policies and block access to potentially harmful or inappropriate websites. Some NGFWs can even detect outgoing user credentials (like an employee’s Microsoft account password) and prevent that content from leaving the network. VPN and Secure Remote Access : NGFWs often include VPN capabilities to secure remote connections. This is crucial for ensuring the security of remote workers and branch offices. Advanced firewalls may also be able to identify malicious patterns in external VPN traffic, protecting organizations from threat actors hiding behind encrypted VPN providers. Cloud-Based Threat Intelligence : Many NGFWs leverage cloud-based threat intelligence services to stay updated with the latest threat information. This real-time threat intelligence helps NGFWs identify and block emerging threats more effectively. Scalability and Performance : NGFWs are designed to handle the increasing volume of network traffic in modern networks. They offer improved performance and scalability, ensuring that security does not compromise network speed. Logging and Reporting : NGFWs generate detailed logs and reports of network activity. These logs are valuable for auditing, compliance, and forensic analysis, helping organizations understand and respond to security incidents. 3. Proxy Firewalls Proxy firewalls are also called application-level gateways or gateway firewalls. They define which applications a network can support, increasing security but demanding continuous attention to maintain network functionality and efficiency. Proxy firewalls provide a single point of access allowing organizations to assess the threat posed by the applications they use. It conducts deep packet inspection and uses proxy-based architecture to mitigate the risk of Application Layer attacks. Many organizations use proxy servers to segment the parts of their network most likely to come under attack. Proxy firewalls can monitor the core internet protocols these servers use against every application they support. The proxy firewall centralizes application activity into a single server and provides visibility into each data packet processed. This allows the organization to maintain a high level of security on servers that make tempting cyberattack targets. However, these servers won’t be able to support new applications without additional firewall configuration. These types of firewalls work well in highly segmented networks that allow organizations to restrict access to sensitive data without impacting usability and production. 4. Hardware Firewalls Hardware firewalls are physical devices that secure the flow of traffic between devices in a network. Before cloud computing became prevalent, most firewalls were physical hardware devices. Now, organizations can choose to secure on-premises network infrastructure using hardware firewalls that manage the connections between routers, switches, and individual devices. While the initial cost of acquiring and configuring a hardware firewall can be high, the ongoing overhead costs are smaller than what software firewall vendors charge (often an annual license fee). This pricing structure makes it difficult for growing organizations to rely entirely on hardware devices. There is always a chance that you end up paying for equipment you don’t end up using at full capacity. Hardware firewalls offer a few advantages over software firewalls: They avoid using network resources that could otherwise go to value-generating tasks. They may end up costing less over time than a continuously renewed software firewall subscription fee. Centralized logging and monitoring can make hardware firewalls easier to manage than complex software-based deployments. 5. Software Firewalls Many firewall vendors provide virtualized versions of their products as software. They typically charge an annual licensing fee for their firewall-as-a-service product, which runs on any suitably provisioned server or device. Some software firewall configurations require the software to be installed on every computer in the network, which can increase the complexity of deployment and maintenance over time. If firewall administrators forget to update a single device, it may become a security vulnerability. At the same time, these firewalls don’t have their own operating systems or dedicated system resources available. They must draw computing power and memory from the devices they are installed on. This leaves less power available for mission-critical tasks. However, software firewalls carry a few advantages compared to hardware firewalls: The initial subscription-based cost is much lower, and many vendors offer a price structure that ensures you don’t pay for resources you don’t use. Software firewalls do not take up any physical space, making them ideal for smaller organizations. The process of deploying software firewalls often only takes a few clicks. With hardware firewalls, the process can involve complex wiring and time-consuming testing. Advanced Threats and Firewall Solutions Most firewalls are well-equipped to block simple threats, but advanced threats can still cause problems. There are many different types of advanced threats designed to bypass standard firewall policies. Advanced Persistent Threats (APTs) often compromise high-level user accounts and slowly spread throughout the network using lateral movement. They may move slowly, gathering information and account credentials over weeks or months before exfiltrating the data undetected. By moving slowly, these threats avoid triggering firewall rules. Credential-based attacks bypass simple firewall rules by using genuine user credentials to carry out attacks. Since most firewall policies trust authenticated users, attackers can easily bypass rules by stealing user account credentials. Simple firewalls can’t distinguish between normal traffic and malicious traffic by an authenticated, signed-in user. Malicious insiders can be incredibly difficult to detect. These are genuine, authenticated users who have decided to act against the organization’s interest. They may already know how the firewall system works, or have privileged access to firewall configurations and policies. Combination attacks may target multiple security layers with separate, independent attacks. For example, your cloud-based firewalls may face a Distributed Denial of Service (DDoS) attack while a malicious insider exfiltrates information from the cloud. These tactics allow hackers to coordinate attacks and cover their tracks. Only next-generation firewalls have security features that can address these types of attack. Anti-data exfiltration tools may prevent users from sending their login credentials to unsecured destinations, or prevent large-scale data exfiltration altogether. Identity-based policies may block authenticated users from accessing assets they do not routinely use. Firewall Configuration and Security Policies The success of any firewall implementation is determined by the quality of its security rules. These rules decide which types of traffic the firewall will allow to pass, and what traffic it will block. In a modern network environment, this is done using four basic types of firewall rules: Access Control Lists (ACLs). These identify the users who have permission to access a certain resource or asset. They may also dictate which operations are allowed on that resource or asset. Network Address Translation (NAT) rules. These rules protect internal devices by hiding their original IP address from the public Internet. This makes it harder for hackers to gain unauthorized access to system resources because they can’t easily target individual devices from outside the network. Stateful packet filtering . This is the process of inspecting data packets in each connection and determining what to do with data flows that do not appear genuine. Stateful firewalls keep track of existing connections, allowing them to verify the authentication of incoming data that claims to be part of an already established connection. Application-level gateways. These firewall rules provide application-level protection, preventing hackers from disguising malicious traffic as data from (or for) an application. To perform this kind of inspection, the firewall must know what normal traffic looks like for each application on the network, and be able to match incoming traffic with those applications. Network Performance and Firewalls Firewalls can impact network performance and introduce latency into networks. Optimizing network performance with firewalls is a major challenge in any firewall implementation project. Firewall experts use a few different approaches to reduce latency and maintain fast, reliable network performance: Installing hardware firewalls on high-volume routes helps, since separate physical devices won’t draw computing resources away from other network devices. Using software firewalls in low-volume situations where flexibility is important. Sometimes, being able to quickly configure firewall rules to adapt to changing business conditions can make a major difference in overall network performance. Configuring servers to efficiently block unwanted traffic is a continuous process. Server administrators should avoid overloading firewalls with denied outbound requests that strain firewalls at the network perimeter. Firewall administrators should try to distribute unwanted traffic across multiple firewalls and routers instead of allowing it to concentrate on one or two devices. They should also try reducing the complexity of the firewall rule base and minimize overlapping rules. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... 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As 2022 comes to a close, Professor Avishai Wool, AlgoSec Co-Founder and CTO, provides his top 5 issues organizations will need to be... IaC 2023 Cybersecurity Predictions and Best Practices Prof. Avishai Wool 2 min read Prof. Avishai Wool Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 12/6/22 Published As 2022 comes to a close, Professor Avishai Wool, AlgoSec Co-Founder and CTO, provides his top 5 issues organizations will need to be aware in 2023 that will also dominate the cyber community conversation. 1) Application centric approach to network security will supersede basic NSPM I think the market has matured to the point where the NSPM approach has reached a tipping point and I see the shift to an application perspective becoming the de facto approach in network security policy management as there are better and more robust technologies in the market that can help organizations get there faster. I see this shift becoming even more viable in 2023 based on recent market trends in which organizations are opting for downsizing and trying to do more with the smaller staff at the expense of losing tribal knowledge. As a result, I see organizations shifting more towards adopting a holistic approach to network security that are more application centric in which they can retain critical knowledge, such as application traffic intent and application policy rules, so that the new generations can step in and pick up where the previous predecessors left off. 2) Containerization will enhance layered security I expect container security to be increasingly popular in the future, as companies understand that their existing network security mechanisms are not enough for the communication networks of today. Containers are seen as a cost-effective light-weight solution for deployment – and deploying them introduces another inner layer where security policies can be applied: behind the perimeter filters, the internal zoning, and the micro-segmentation, organizations can now also consider nano-segmentation at the container level. Vulnerability testing is another dimension of the container platform especially within cloud applications and SaaS products. The common Kubernetes platform offers both opportunities and challenges for vulnerability scanners. Beyond 2023 , businesses will need to enhance both their visibility and management capabilities of security within their containerized applications 3) Security driven IaaS ecosystems to improve network security I expect the popularity of Infrastructure as a service (IaaS) to continue to soar, making it difficult for security teams to keep up with the associated risks and vulnerabilities. Pre-set security settings may not meet the needs of the organization and customizing these settings can prove to be difficult. The customizability of IaaS offers great potential for productivity, but it also makes it complicated to secure. The bottom line is that companies can no longer depend on their network perimeter to guard sensitive data. In response, I anticipate organizations that begin utilizing an “Always-on Security” approach such as Infrastructure as Code (IaC) which would permit them to construct personalized policies to control the development environments during each phase of the software development life cycle (SDLC) and recognize potential risks, security flaws, and compliance issues on a what-if basis, before deploying flawed settings into production. 4) Cloud-native security tools will reign supreme I expect that cloud-based security systems will become more commonplace: these security solutions offer a wide range of abilities, such as secure access, identity and access management, data loss prevention, application security, automation of security, detection and prevention of intrusions, security information and event management, and encryption. With companies transitioning more workloads to the cloud, they will want to make use of many of these features. These tools make it possible for remote teams to manage a greater public cloud presence: comfortably configuring services and automating processes, to identify and preemptively tackle any kind of threats. To bridge the gap in cloud data security, I anticipate the emergence of data safeguarding systems that are designed specifically for cloud usage and are able to link up with public cloud systems in an advanced, agentless manner. This has been classified in the market as Cloud Native Application Protection Platform (CNAPP) . These platforms must be able to detect where the data is stored and what sorts of data are stored in the cloud, so that corporations can prioritize on what is most important – defending their most sensitive data and cloud-based applications without interfering with their normal operations. 5) Expect ransomware not to go away and get even more sophisticated Organizations in 2022 saw no let-up from ransomware threats, some of whom were attacked multiple times and I do not see any reason why this trend will change in 2023. Cyber criminals are getting more resourceful and savvier in their attempts to stay ahead of law enforcement, and I anticipate these attacks will only become more frequent as their perpetrators are proving more capable of infiltrating many organizations’ cyber defenses. In response, organizations will have to seek more technology solutions to protect data at the source. But that would not suffice. I think organizations will need to look beyond technological solutions and apply better preparedness strategies. Whether it be Zero Trust or something less overarching but more practical for an organization’s business needs, such as Micro-segmentation , it would ensure that threat-actors would not be able to access the data residing inside the security perimeter. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Best practices for network security governance in AWS and hybrid network environments Webinars Turning Network Security Alerts into Action: Change Automation to the Rescue You use multiple network security controls in your organization, but they don’t talk to each other. And while you may get alerts that come with tools such as SIEM solutions and vulnerability scanners – in your security landscape, making the necessary changes to proactively react to the myriad of alerts is difficult. Responding to alerts feels like a game of whack-a-mole. Manual changes are also error-prone, resulting in misconfigurations. It’s clear that manual processes are insufficient for your multi-device, multi-vendor, and heterogeneous environment network landscape. What’s the solution? Network security change automation! By implementing change automation for your network security policies across your enterprise security landscape you can continue to use your existing business processes while enhancing business agility, accelerate incident response times, and reduce the risk of compliance violations and security misconfigurations. In this webinar, Dania Ben Peretz, Product Manager at AlgoSec, shows you how to: Automate your network security policy changes without breaking core network connectivity Analyze and recommend changes to your network security policies Push network security policy changes with zero-touch automation to your multi-vendor security devices Maximize the ROI of your existing security controls by automatically analyzing, validating, and implementing network security policy changes – all while seamlessly integrating with your existing business processes April 7, 2020 Dania Ben Peretz Product Manager Relevant resources Network firewall security management See Documentation Simplify and Accelerate Large-scale Application Migration Projects Read Document Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue