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A gross dollar retention rate of over 90% and 36% year-over-year new business growth highlight adoption across industries AlgoSec’s Horizon Platform Fuels Company Growth and Global Application-Centric Security A gross dollar retention rate of over 90% and 36% year-over-year new business growth highlight adoption across industries September 9, 2025 Speak to one of our experts RIDGEFIELD PARK, NJ, September 9, 2025 – AlgoSec , a global cybersecurity leader, today announced a gross dollar retention rate of over 90% in the first half of 2025, following the launch of its AlgoSec Horizon platform. Since its release, the Horizon platform has gained adoption across industries, underscoring the market need for convergence of cloud and on-premises networks. This widespread adoption has driven a 36% increase in new annual recurring revenue (ARR) in the first half of 2025 compared to 2024. The Horizon platform utilizes advanced AI capabilities to automatically discover and identify an organization’s business applications across complex hybrid networks, and remediate risks more effectively. Its Intelligent automation minimizes misconfigurations and enhances operational resilience to accelerate application delivery from weeks to hours. In one such example, one of the largest financial institutions in the U.S. uncovered 1,800 applications and their connectivity requirements within the first two weeks of using Horizon. Throughout September and October, AlgoSec is running the Horizon Tour, a series of sessions showcasing the platform’s capabilities and expert insights for enterprise security teams across EMEA and the U.S. “Security teams today are being asked to protect applications in a hybrid world, from multi-clouds to datacenters globally,” said Chris Thomas , Chief Revenue Officer at AlgoSec. “We’re excited about our early 2025 successes and our evolving AlgoSec solutions which will help us meet our mission to enable the world’s most complex organizations to gain visibility, reduce risk and process changes. To hear first-hand AlgoSec’s strategic direction and product innovation roadmap, join us for our annual virtual AlgoSummit event on September 30.” To learn why over 2,200 of the world's most complex organizations trust AlgoSec to help secure their most critical workloads, visit www.algosec.com . 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]

So we’ve made it to the last part of our blog series on PCI 3.0 Requirement 1. The first two posts covered Requirement 1.1... Auditing and Compliance Avoid the Traps: What You Need to Know About PCI Requirement 1 (Part 3) Matthew Pascucci 2 min read Matthew Pascucci Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 9/9/14 Published So we’ve made it to the last part of our blog series on PCI 3.0 Requirement 1. The first two posts covered Requirement 1.1 (appropriate firewall and router configurations) and 1.2 (restrict connections between untrusted networks and any system components in the cardholder data environment) and in this final post we’ll discuss key requirements of Requirements 1.3 -1.5 and I’ll again give you my insight to help you understand the implications of these requirements and how to comply with them. Implement a DMZ to limit inbound traffic to only system components that provide authorized publicly accessible services, protocols, and ports (1.3.1.): The DMZ is used to publish services such as HTTP and HTTPS to the internet and allow external entities to access these services. But the key point here is that you don’t need to open every port on the DMZ. This requirement verifies that a company has a DMZ implemented and that inbound activity is limited to only the required protocols and ports. Limit inbound Internet traffic to IP addresses within the DMZ (1.3.2): This is a similar requirement to 1.3.1, however instead of looking for protocols, the requirement focuses on the IPs that the protocol is able to access. In this case, just because you might need HTTP open to a web server, doesn’t mean that all systems should have external port 80 open to inbound traffic. Do not allow any direct connections inbound or outbound for traffic between the Internet and the cardholder data environment (1.3.3): This requirement verifies that there isn’t unfiltered access, either going into the CDE or leaving it, which means that all traffic that traverses this network must pass through a firewall. All unwanted traffic should be blocked and all allowed traffic should be permitted based on an explicit source/destination/protocol. There should never be a time that someone can enter or leave the CDE without first being inspected by a firewall of some type. Implement anti-spoofing measures to detect and block forged source IP addresses from entering the network (1.3.4): In an attempt to bypass your firewall, cyber attackers will try and spoof packets using the internal IP range of your network to make it look like the request originated internally. Enabling the IP spoofing feature on your firewall will help prevent these types of attacks. Do not allow unauthorized outbound traffic from the cardholder data environment to the Internet (1.3.5): Similar to 1.3.3, this requirement assumes that you don’t have direct outbound access to the internet without a firewall. However in the event that a system has filtered egress access to the internet the QSA will want to understand why this access is needed, and whether there are controls in place to ensure that sensitive data cannot be transmitted outbound. Implement stateful inspection, also known as dynamic packet filtering (1.3.6): If you’re running a modern firewall this feature is most likely already configured by default. With stateful inspection, the firewall maintains a state table which includes all the connections that traverse the firewall, and it knows if there’s a valid response from the current connection. It is used to stop attackers from trying to trick a firewall into initiating a request that didn’t previously exist. Place system components that store cardholder data (such as a database) in an internal network zone, segregated from the DMZ and other untrusted networks (1.3.7): Attackers are looking for your card holder database. Therefore, it shouldn’t be stored within the DMZ. The DMZ should be considered an untrusted network and segregated from the rest of the network. By having the database on the internal network provides another layer of protection against unwanted access. [Also see my suggestions for designing and securing you DMZ in my previous blog series: The Ideal Network Security Perimeter Design: Examining the DMZ Do not disclose private IP addresses and routing information to unauthorized parties (1.3.8): There should be methods in place to prevent your internal IP address scheme from being leaked outside your company. Attackers are looking for any information on how to breach your network, and giving them your internal address scheme is just one less thing they need to learn. You can stop this by using NAT, proxy servers, etc. to limit what can be seen from the outside. Install personal firewall software on any mobile and/or employee-owned devices that connect to the Internet when outside the network (for example, laptops used by employees), and which are also used to access the network (1.4): Mobile devices, such as laptops, that can connect to both the internal network and externally, should have a personal firewall configured with rules that prevent malicious software or attackers from communicating with the device. These firewalls need to be configured so that their rulebase can never be stopped or changed by anyone other than an administrator. Ensure that security policies and operational procedures for managing firewalls are documented, in use, and known to all affected parties (1.5): There needs to be a unified policy regarding firewall maintenance including how maintenance procedures are performed, who has access to the firewall and when maintenance is scheduled. Well, that’s it! Hopefully, my posts have given you a better insight into what is actually required in Requirement 1 and what you need to do to comply with it. Schedule a demo Related Articles 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 Convergence didn’t fail, compliance did. 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

Before your organization can move business applications to the cloud, it must deploy network security solutions that can reliably block... Network Segmentation Host-based firewalls vs. network-based firewalls for network security? 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 8/28/23 Published Before your organization can move business applications to the cloud, it must deploy network security solutions that can reliably block cybercrime and malware. Firewalls are essential cybersecurity tools that protect network traffic against threat actors. There are many different types of firewalls available, but put the same basic principles in action. Before finding out which types of firewalls offer the best security performance for your cloud implementation, it’s important to cover how firewalls work and what characteristics set them apart. How firewalls work: Different types of firewalls explained Firewalls are best explained through analogy. Think of firewalls as 24/7 security guards with deep knowledge of millions of criminals. Whenever the security guard sees a criminal approaching an access point, they block access and turn the criminal away. This kind of access control is accomplished in a few different ways. Some firewalls inspect packets for suspicious characteristics. Others use stateful inspection to identify malicious traffic. Some incorporate contextual awareness to tell the difference between harmless traffic and cyberattacks . Here are some of the major types of firewalls and how they work: Packet filtering firewalls inspect data traveling through inline junction points like routers and switches. They don’t route data packets themselves, but compare them to a list of firewall rules. For example, they may filter packets that are traveling to untrusted IP addresses and drop them. Circuit-level gateways monitor TCP handshake data and other protocol messages for signs of unauthorized access. These firewalls don’t inspect individual packets or application layer monitoring, though. Proxy firewalls apply application layer filtering that filters data according to a wide range of characteristics. This category includes web application firewalls, which are a type of reverse proxy firewall – they protect the server from malicious traffic by filtering clients before they reach the server. Stateful inspection firewalls examine and compare multiple packets to find out if they are part of an established network session. This offers a high degree of control over incoming and outgoing traffic while providing comprehensive logs on network connections. Next-generation firewalls combine packet inspection, stateful inspection, antivirus, and additional technologies to protect organizations against unknown threats and vulnerabilities. These firewalls are expensive and have high bandwidth requirements, but they also offer a high level of protection. All of these firewalls exist in different forms. Traditional hardware firewalls are physical devices that sit between network devices and the internet. Network-based firewalls are software-defined apps designed to do the same thing. Hardware, software, or cloud? firewall deployment methods compared Organizations have multiple options when deciding to host firewalls on their private networks. The market offers a vast number of security devices and firewall providers, ranging from Cisco hardware to software solutions like Microsoft’s Windows firewall. Large enterprises use a combination of firewall solutions to adopt a multi-layered security posture. This allows them to achieve network scalability and segmentation while offering different levels of protection to data centers, individual devices, and user endpoints. As firewall technology becomes more accessible, smaller organizations are following suit. Here are some of the delivery formats that firewall solutions commonly come in: Network-based Firewalls are self-contained hardware appliances. They typically run custom operating systems using Linux distributions designed for secure computer networking. They can be challenging to configure and deploy, but are appropriate for a wide range of use cases. Host-based Firewalls run as software on a server or other device. You can run host-based firewalls on individual computers, or at the host level of a cloud environment. The firewalls offer granular control over security rules and individual hosts, but consume resources in the process. Cloud Hosted Firewalls are provided by third-party security partners as a service. These firewalls may be entirely managed by a third-party partner, making them ideal for small organizations that can’t afford building their own security infrastructure from the ground up. How to select an optimal firewall solution for your organization Every organization has a unique security risk profile. Finding the right firewall deployment for your organization requires in-depth knowledge of your network’s security vulnerabilities and potential for long-term growth. Some of the issues you have to consider include: Identifying technical objectives for individual firewalls. There are no one-size-fits-all firewall solutions. One solution may match a particular use case that another does not. Both stateless packet inspection firewalls and sophisticated next-generation solutions operate at different levels of the OSI model, which means each device should serve a well-defined purpose. Selecting firewall solutions that match your team’s expertise. Consider your IT team’s technical qualifications. If configuring a sophisticated next-generation firewall requires adding talent with specialized certifications to your team, the cost of that deployment will rise considerably. Deploying firewalls in ways that improve security performance while reducing waste. Optimal firewall architecture requires effective network segmentation and good security policies. Deploying a secure local area network (LAN) and using virtual private networks (VPNs) can help optimize firewall placement throughout the organization. Determining which kinds of traffic inspection are necessary. Different types of network connections require different levels of security. For example, a public-facing Wi-Fi router is far more likely to encounter malicious traffic than an internal virtual local area network (VLAN) that only authenticated employees can access. How to choose between host-based firewalls and network-based firewalls when moving to the cloud Organizations that are transitioning to cloud infrastructure need to completely rethink their firewall deployment strategy. Firewalls are the cornerstone of access control, and cloud-hosted infrastructure comes with the shared responsibility model that puts pressure on security leaders to carefully deploy security resources. In many cases, you’ll face tough decisions concerning which type of firewall to deploy at particular points in your network. Building an optimal deployment means working through the pros and cons of each option on a case-by-case basis. Host-based firewalls and network-based firewalls are the two main options you’ll encounter for most use cases. Let’s look at what each of those options look like from a complete network security perspective . 1. Host-based firewalls offer flexibility but may introduce vulnerabilities A cloud-native organization that exclusively uses host-based firewalls will have a cloud environment filled with virtual machines that take the place of servers and individual computers. To protect those devices, the organization will implement host-based firewalls on every virtual machine and configure them accordingly. This provides the organization with a great deal of flexibility. IT team members can clone virtual machines and move them within the cloud on demand. The host-based firewalls that protect these machines can move right alongside them, ensuring consistent security policies are enforced without painstaking manual configuration. It’s even possible to move virtual machines between cloud environments – like moving a virtual server from Amazon AWS to Microsoft Azure – without having to create completely new security policies in the process. This makes it easy for IT teams to work securely without introducing friction. However, if attackers gain privileged access to host-based firewalls, they gain the same level of control. They may switch off the firewall or install malicious code in ways that other security technologies cannot detect. Even highly secure organizations are subject to this kind of risk. Imagine an attacker compromises the credentials of a system administrator with firewall configuration privileges. Very few obstacles stand between an insider threat and the sensitive data they wish to exfiltrate. Network-based firewalls offer independent security Compared to host-based firewall products, it’s much harder for a malicious insider to compromise a network-based firewall solution managed by a cloud provider. That’s because the physical hardware is operating on a completely separate system from the host. In a cloud-native environment, the network-based firewall would be a fully hardened device managed by a third-party provider running their own intrusion detection systems. This makes it much harder for attackers to successfully infiltrate and compromise systems without being noticed. At the same time, independent network-based firewall architecture means that the attacker would have to compromise both your network and the cloud provider’s network without triggering security alerts from either. This adds a great deal of complexity to any attack, and significantly increases the chance it will be detected. However, few organizations can afford to exclusively deploy hardware firewalls at every layer of their network. Even those that can afford it will run into significant challenges when planning for growth and scalability. Segment your network for optimal protection While they offer increased security, hardware firewalls are costly to deploy and maintain. Most organizations segment their networks in ways that offer extensive multi-layered protection to their most sensitive data while allowing more flexible host-based firewalls to protect less critical assets. Every organization has a unique balance between optimal network-based firewall and host-based firewall deployment. This depends heavily on the volume of sensitive data the organization regularly accesses, and the security of its connections with users and third-party service providers. Proper network segmentation helps reduce the organization’s attack surface and decrease the risk of business disruption. Schedule a demo Related Articles 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 Convergence didn’t fail, compliance did. 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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AlgoSec leads in automating application connectivity and security policy management, essential for complex hybrid and multi-cloud networks AlgoSec Achieves Outperformer Status in GigaOm’s Cloud Network Security Radar Report AlgoSec leads in automating application connectivity and security policy management, essential for complex hybrid and multi-cloud networks February 15, 2024 Speak to one of our experts RIDGEFIELD PARK, N.J., Feb 15, 2024 – Global cybersecurity leader AlgoSec has been named a Market Outperformer in GigaOm’s first cloud network security Radar Report, recognizing its position at the forefront of Cloud security innovation. The GigaOm Radar report highlights key cloud network security vendors to equip IT decision-makers with the information they need to select the best fit for their business. It measures selected vendors based on their execution and ability to innovate. In the report, Andrew Green, IT writer and practitioner, acknowledged several of AlgoSec’s distinguishing capabilities including Automation and Security Policy Management: “AlgoSec automates application connectivity and security policy across the hybrid network estate including public cloud, private cloud, containers, and on-premises networks.” Comprehensive Solution Suite : “AlgoSec delivers cloud network security solutions via its Firewall Analyzer, FireFlow, and AlgoSec Cloud products. AlgoSec Cloud provides application-based risk identification and security policy management across multi-cloud environments.” Real-Time Network Mapping : “A real-time network map provides a comprehensive view and connectivity flows of security and networking appliances such as firewalls, routers, and switches.” Other highlights from the report include infrastructure as code (IaC) security scanning capability, which produces “what-if” risks and vulnerability analysis scans within existing source control applications, and AlgoBot, an intelligent chatbot that assists with change management processes. Green said: “Network security policy managers have a distinct set of features, with particularly strong observability, misconfiguration, and simulation capabilities. These solutions are less invasive as they orchestrate only existing appliances without imposing architectural changes, and they can help enterprises reach the low-hanging fruit for improving their security posture. AlgoSec offers a range of innovative developments, including AlgoBot, which helps with change management processes, and the solution’s capabilities for planning and simulations.” “We are at the forefront of a pivotal shift within cloud network security”, said Eran Shiff, VP Product at AlgoSec. “To effectively address the needs of businesses working in a complex hybrid world, we are disregarding conventional norms and operating deep within the cloud application level. By understanding the business context and purpose of every application, we are enabling our customers to gain visibility, reduce overall risk and process hundreds of application changes with zero-touch across a hybrid network. Our inclusion in this report is a testament of this evolution and marks a new chapter in securing application connectivity.” AlgoSec is trusted by more than 1,800 of the world’s leading organizations including NCR Corporation, a leading global point-of-sale (POS) provider for restaurants, retailers, and banks and a provider of multi-vendor ATM software. Commenting on the partnership, Scott Theriault, Global Manager, Network Perimeter Security at NCR said: “As we aspire to achieve zero-trust, when moving into the cloud, micro-segmentation and container security come into play. Therefore, we need tools like AlgoSec to assist us in the journey because most application owners do not know what access is needed. This tool helps them learn what needs to be implemented to reduce the attack surface,” stated Theriault. About AlgoSec AlgoSec, a global cybersecurity leader, empowers organizations to secure application connectivity and cloud-native applications throughout their multi-cloud and hybrid network. Trusted by more than 1,800 of the world’s leading organizations, AlgoSec’s application-centric approach enables to securely accelerate business application deployment by centrally managing application connectivity and security policies across the public clouds, private clouds, containers, and on-premises networks. Using its unique vendor-agnostic deep algorithm for intelligent change management automation, AlgoSec enables acceleration of digital transformation projects, helps prevent business application downtime and substantially reduces manual work and exposure to security risks. AlgoSec’s policy management and CNAPP platforms provide a single source for visibility into security and compliance issues within cloud-native applications as well as across the hybrid network environment, to ensure ongoing adherence to internet security standards, industry, and internal regulations. Learn how AlgoSec enables application owners, information security experts, DevSecOps and cloud security teams to deploy business applications up to 10 times faster while maintaining security at www.algosec.com . About GigaOm GigaOm provides technical, operational, and business advice for strategic digital enterprise and business initiatives. Enterprise business leaders, CIOs, and technology organizations partner with GigaOm for practical, actionable, strategic, and visionary advice for modernizing and transforming their business. GigaOm’s advice empowers enterprises to successfully compete in an increasingly complicated business atmosphere that requires a solid understanding of constantly changing customer demands. GigaOm works directly with enterprises both inside and outside of the IT organization to apply proven research and methodologies designed to avoid pitfalls and roadblocks while balancing risk and innovation. Research methodologies include but are not limited to adoption and benchmarking surveys, use cases, interviews, ROI/TCO, market landscapes, strategic trends, and technical benchmarks. Our analysts possess 20+ years of experience advising a spectrum of clients from early adopters to mainstream enterprises. GigaOm’s perspective is that of the unbiased enterprise practitioner. Through this perspective, GigaOm connects with engaged and loyal subscribers on a deep and meaningful level.

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Information security is vital to business continuity. Organizations trust their IT teams to enable innovation and business transformation... Risk Management and Vulnerabilities How to optimize the security policy management lifecycle Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 8/9/23 Published Information security is vital to business continuity. Organizations trust their IT teams to enable innovation and business transformation but need them to safeguard digital assets in the process. This leads some leaders to feel that their information security policies are standing in the way of innovation and business agility. Instead of rolling new a new enterprise application and provisioning it for full connectivity from the start, security teams demand weeks or months of time to secure those systems before they’re ready. But this doesn’t mean that cybersecurity is a bottleneck to business agility. The need for speedier deployment doesn’t automatically translate to increased risk. Organizations that manage application connectivity and network security policies using a structured lifecycle approach can improve security without compromising deployment speed. Many challenges stand between organizations and their application and network connectivity goals. Understanding each stage of the lifecycle approach to security policy change management is key to overcoming these obstacles. Challenges to optimizing security policy management ` Complex enterprise infrastructure and compliance requirements A medium-sizded enterprise may have hundreds of servers, systems, and security solutions like firewalls in place. These may be spread across several different cloud providers, with additional inputs from SaaS vendors and other third-party partners. Add in strict regulatory compliance requirements like HIPAA , and the risk management picture gets much more complicated. Even voluntary frameworks like NIST heavily impact an organization’s information security posture, acceptable use policies, and more – without the added risk of non-compliance. Before organizations can optimize their approach to security policy management, they must have visibility and control over an increasingly complex landscape. Without this, making meaningful progress of data classification and retention policies is difficult, if not impossible. Modern workflows involve non-stop change When information technology teams deploy or modify an application, it’s in response to an identified business need. When those deployments get delayed, there is a real business impact. IT departments now need to implement security measures earlier, faster, and more comprehensively than they used to. They must conduct risk assessments and security training processes within ever-smaller timeframes, or risk exposing the organization to vulnerabilities and security breaches . Strong security policies need thousands of custom rules There is no one-size-fits-all solution for managing access control and data protection at the application level. Different organizations have different security postures and security risk profiles. Compliance requirements can change, leading to new security requirements that demand implementation. Enterprise organizations that handle sensitive data and adhere to strict compliance rules must severely restrict access to information systems. It’s not easy to achieve PCI DSS compliance or adhere to GDPR security standards solely through automation – at least, not without a dedicated change management platform like AlgoSec . Effectively managing an enormous volume of custom security rules and authentication policies requires access to scalable security resources under a centralized, well-managed security program. Organizations must ensure their security teams are equipped to enforce data security policies successfully. Inter-department communication needs improvement Application deliver managers, network architects, security professionals, and compliance managers must all contribute to the delivery of new application projects. Achieving clear channels of communication between these different groups is no easy task. In most enterprise environments, these teams speak different technical languages. They draw their data from internally siloed sources, and rarely share comprehensive documentation with one another. In many cases, one or more of these groups are only brought in after everyone else has had their say, which significantly limits the amount of influence they can have. The lifecycle approach to managing IT security policies can help establish a standardized set of security controls that everyone follows. However, it also requires better communication and security awareness from stakeholders throughout the organization. The policy management lifecycle addresses these challenges in five stages ` Without a clear security policy management lifecycle in place, most enterprises end up managing security changes on an ad hoc basis. This puts them at a disadvantage, especially when security resources are stretched thin on incident response and disaster recovery initiatives. Instead of adopting a reactive approach that delays application releases and reduces productivity, organizations can leverage the lifecycle approach to security policy management to address vulnerabilities early in the application development lifecycle. This leaves additional resources available for responding to security incidents, managing security threats, and proactively preventing data breaches. Discover and visualize application connectivity The first stage of the security policy management lifecycle revolves around mapping how your apps connect to each other and to your network setup. The more details can include in this map, the better prepared your IT team will be for handling the challenges of policy management. Performing this discovery process manually can cost enterprise-level security teams a great deal of time and accuracy. There may be thousands of devices on the network, with a complex web of connections between them. Any errors that enter the framework at this stage will be amplified through the later stages – it’s important to get things right at this stage. Automated tools help IT staff improve the speed and accuracy of the discovery and visualization stage. This helps everyone – technical and nontechnical staff included – to understand what apps need to connect and work together properly. Automated tools help translate these needs into language that the rest of the organization can understand, reducing the risk of misconfiguration down the line. Plan and assess security policy changes Once you have a good understanding of how your apps connect with each other and your network setup, you can plan changes more effectively. You want to make sure these changes will allow the organization’s apps to connect with one another and work together without increasing security risks. It’s important to adopt a vulnerability-oriented perspective at this stage. You don’t want to accidentally introduce weak spots that hackers can exploit, or establish policies that are too complex for your organization’s employees to follow. This process usually involves translating application connectivity requests into network operations terms. Your IT team will have to check if the proposed changes are necessary, and predict what the results of implementing those changes might be. This is especially important for cloud-based apps that may change quickly and unpredictably. At the same time, security teams must evaluate the risks and determine whether the changes are compliant with security policy. Automating these tasks as part of a regular cycle ensures the data is always relevant and saves valuable time. Migrate and deploy changes efficiently The process of deploying new security rules is complex, time-consuming, and prone to error . It often stretches the capabilities of security teams that already have a wide range of operational security issues to address at any given time. In between managing incident response and regulatory compliance, they must now also manually update thousands of security rules over a fleet of complex network assets. This process gets a little bit easier when guided by a comprehensive security policy change management framework. But most organizations don’t unlock the true value of the security policy management lifecycle until they adopt automation. Automated security policy management platforms enable organizations to design rule changes intelligently, migrate rules automatically, and push new policies to firewalls through a zero-touch interface. They can even validate whether the intended changes updated correctly. This final step is especially important. Without it, security teams must manually verify whether their new policies successfully address the vulnerabilities the way they’re supposed to. This doesn’t always happen, leaving security teams with a false sense of security. Maintain configurations using templates Most firewalls accumulate thousands of rules as security teams update them against new threats. Many of these rules become outdated and obsolete over time, but remain in place nonetheless. This adds a great deal of complexity to small-scale tasks like change management, troubleshooting issues, and compliance auditing. It can also impact the performance of firewall hardware , which decreases the overall lifespan of expensive physical equipment. Configuration changes and maintenance should include processes for identifying and eliminating rules that are redundant, misconfigured, or obsolete. The cleaner and better-documented the organization’s rulesets are, the easier subsequent configuration changes will be. Rule templates provide a simple solution to this problem. Organizations that create and maintain comprehensive templates for their current firewall rulesets can easily modify, update, and change those rules without having to painstakingly review and update individual devices manually. Decommission obsolete applications completely Every business application will eventually reach the end of its lifecycle. However, many organizations keep decommissioned security policies in place for one of two reasons: Oversight that stems from unstandardized or poorly documented processes, or; Fear that removing policies will negatively impact other, active applications. As these obsolete security policies pile up, they force the organization to spend more time and resources updating their firewall rulesets. This adds bloat to firewall security processes, and increases the risk of misconfigurations that can lead to cyber attacks. A standardized, lifecycle-centric approach to security policy management makes space for the structured decommissioning of obsolete applications and the rules that apply to them. This improves change management and ensures the organization’s security posture is optimally suited for later changes. At the same time, it provides comprehensive visibility that reduces oversight risks and gives security teams fewer unknowns to fear when decommissioning obsolete applications. Many organizations believe that Security stands in the way of the business – particularly when it comes to changing or provisioning connectivity for applications. It can take weeks, or even months to ensure that all the servers, devices, and network segments that support the application can communicate with each other while blocking access to hackers and unauthorized users. It’s a complex and intricate process. This is because, for every single application update or change, Networking and Security teams need to understand how it will affect the information flows between the various firewalls and servers the application relies on, and then change connectivity rules and security policies to ensure that only legitimate traffic is allowed, without creating security gaps or compliance violations. As a result, many enterprises manage security changes on an ad-hoc basis: they move quickly to address the immediate needs of high-profile applications or to resolve critical threats, but have little time left over to maintain network maps, document security policies, or analyze the impact of rule changes on applications. This reactive approach delays application releases, can cause outages and lost productivity, increases the risk of security breaches and puts the brakes on business agility. But it doesn’t have to be this way. Nor is it necessary for businesses to accept greater security risk to satisfy the demand for speed. Accelerating agility without sacrificing security The solution is to manage application connectivity and network security policies through a structured lifecycle methodology, which ensures that the right security policy management activities are performed in the right order, through an automated, repeatable process. This dramatically speeds up application connectivity provisioning and improves business agility, without sacrificing security and compliance. So, what is the network security policy management lifecycle, and how should network and security teams implement a lifecycle approach in their organizations? Discover and visualize The first stage involves creating an accurate, real-time map of application connectivity and the network topology across the entire organization, including on-premise, cloud, and software-defined environments. Without this information, IT staff are essentially working blind, and will inevitably make mistakes and encounter problems down the line. Security policy management solutions can automate the application connectivity discovery, mapping, and documentation processes across the thousands of devices on networks – a task that is enormously time-consuming and labor-intensive if done manually. In addition, the mapping process can help business and technical groups develop a shared understanding of application connectivity requirements. Plan and assess Once there is a clear picture of application connectivity and the network infrastructure, you can start to plan changes more effectively – ensure that proposed changes will provide the required connectivity, while minimizing the risks of introducing vulnerabilities, causing application outages, or compliance violations. Typically, it involves translating application connectivity requests into networking terminology, analyzing the network topology to determine if the changes are really needed, conducting an impact analysis of proposed rule changes (particularly valuable with unpredictable cloud-based applications), performing a risk and compliance assessment, and assessing inputs from vulnerabilities scanners and SIEM solutions. Automating these activities as part of a structured lifecycle keeps data up-to-date, saves time, and ensures that these critical steps are not omitted – helping avoid configuration errors and outages. Functions Of An Automatic Pool Cleaner An automatic pool cleaner is very useful for people who have a bad back and find it hard to manually operate the pool cleaner throughout the pool area. This type of pool cleaner can move along the various areas of a pool automatically. Its main function is to suck up dirt and other debris in the pool. It functions as a vacuum. Automatic pool cleaners may also come in different types and styles. These include automatic pressure-driven cleaners, automatic suction side-drive cleaners, and robotic pool cleaners. Migrate and deploy Deploying connectivity and security rules can be a labor-intensive and error-prone process. Security policy management solutions automate the critical tasks involved, including designing rule changes intelligently, automatically migrating rules, and pushing policies to firewalls and other security devices – all with zero-touch if no problems or exceptions are detected. Crucially, the solution can also validate that the intended changes have been implemented correctly. This last step is often neglected, creating the false impression that application connectivity has been provided, or that vulnerabilities have been removed, when in fact there are time bombs ticking in the network. Maintain Most firewalls accumulate thousands of rules which become outdated or obsolete over the years. Bloated rulesets not only add complexity to daily tasks such as change management, troubleshooting and auditing, but they can also impact the performance of firewall appliances, resulting in decreased hardware lifespan and increased TCO. Cleaning up and optimizing security policies on an ongoing basis can prevent these problems. This includes identifying and eliminating or consolidating redundant and conflicting rules; tightening overly permissive rules; reordering rules; and recertifying expired ones. A clean, well-documented set of security rules helps to prevent business application outages, compliance violations, and security gaps and reduces management time and effort. Decommission Every business application eventually reaches the end of its life: but when they are decommissioned, its security policies are often left in place, either by oversight or from fear that removing policies could negatively affect active business applications. These obsolete or redundant security policies increase the enterprise’s attack surface and add bloat to the firewall ruleset. The lifecycle approach reduces these risks. It provides a structured and automated process for identifying and safely removing redundant rules as soon as applications are decommissioned while verifying that their removal will not impact active applications or create compliance violations. We recently published a white paper that explains the five stages of the security policy management lifecycle in detail. It’s a great primer for any organization looking to move away from a reactive, fire-fighting response to security challenges, to an approach that addresses the challenges of balancing security and risk with business agility. Download your copy here . Schedule a demo Related Articles 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 Convergence didn’t fail, compliance did. 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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Modernize your network with Cisco Nexus and ACI solutions for enhanced performance, scalability, and security in your data center and cloud environments. Modernize your network with Cisco Nexus & ACI Introduction If you still have Cisco Nexus 7000 devices in your environment, surely you have been inundated with end-of-life warnings and next-gen messaging touting the benefits of upgrading to Nexus 9000. Cisco Nexus 9000 offers cloud-scale technology, open and extensible programming with robust APIs, real-time analytics and telemetry, advanced centralized management, and full-stack automation and security with Cisco ACI and AlgoSec. There are clear benefits to modernizing your network, embracing digital transformation, and taking advantage of the full power of Cisco Nexus and Cisco ACI, and now you could add a whole new dimension to these and realize a higher ROI by also managing your network security. Cisco has partnered with AlgoSec to help companies modernize their network and take advantage of the full capabilities of Cisco Nexus and Cisco ACI, so customers can realize their ROI by addressing their applications network security needs when migrating from Nexus 7000 to Nexus 9000. Schedule a Demo Cover security while modernizing your network Modernizing your network using Nexus 9000 and the AlgoSec Security Management Suite empowers a secure digital transformation so you can cover your entire networking needs. The solution unlocks Cisco ACI’s potential by providing full visibility, automation, compliance, and microsegmentation capabilities from AlgoSec. With the joint solution, companies gain software-defined security for their software-defined network and entire multi-vendor hybrid network. Schedule a Demo Application-centric security With AlgoSec your application’s secure networking configurations can be migrated from Nexus to Cisco ACI in application centric mode — providing improved agility and manageability, along with new capabilities for risk and compliance. The integration of Cisco ACI with the AlgoSec Security Management Suite is a complete solution, enabling your organization with full visibility, visualization, and automation for the connected security of your entire network — including advanced change management, and detailed reporting capabilities. Schedule a Demo Enterprise-wide visibility & automation AlgoSec complements and expands Nexus 9000’s capabilities, offering full visibility into your entire hybrid multi-vendor network, network security policy automation, compliance, and security policy enforcement. Security policy changes can be implemented automatically on your network with zero-touch automation. The intelligent automation workflow automatically pushes security policy changes to your entire network and enables automated deployment of contracts, EPGs, and filters on Cisco ACI. Connectivity can also be deployed at the business application level. This allows companies to use a single process to deploy security policies across their entire data center. Gain native visibility into your Cisco ACI network topology while tying the ACI fabric into the rest of the data center. AlgoSec provides a complete network topology map for your entire network. Users can search across multi-site Cisco ACI estates for tenants, endpoints, contracts, EPGs, and more. Schedule a Demo Proactive & continuous compliance Get a complete picture of your compliance posture so that you can be confident in your network’s compliance. AlgoSec generates automatic audit-ready compliance reports on your entire hybrid network, including Cisco ACI tenants, for major regulations, flags issues upon changes, uncovers gaps, and even remediates problems, ensuring continuous compliance over your entire network. Schedule a Demo Enforce micro-segmentation policies over your entire network Enforce Cisco Secure Workload-enforced micro-segmentation policies beyond the native software and hardware sensors, extending segmentation policies to all supported on-premises, cloud, and SDN technologies. In cases where Cisco Secure Workload alone cannot enforce micro-segmentation policies on workloads, AlgoSec can orchestrate the micro-segmentation policies as firewall rules. Therefore, you can maintain unified security policies across your entire network environment. Schedule a Demo See it in action Convinced that it is time to harness the full power of migrating to Nexus 9000? Schedule a personal demo to see how AlgoSec makes the transition flawless. Schedule a Demo Select a size Introduction Cover security while modernizing your network Application-centric security Enterprise-wide visibility & automation Proactive & continuous compliance Enforce micro-segmentation policies over your entire network See it in action Get the latest insights from the experts Choose a better way to manage your network