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Explore top-rated alternatives to Nipper for vulnerability scanning and compliance. Discover their strengths, weaknesses, and choose the best fit for your security needs. Top 7 Nipper Alternatives and Competitors (Pros & Cons) Top 7 Nipper Alternatives and Competitors (Pros & Cons) Nipper is a popular solution that helps organizations secure network devices like firewalls, routers, and switches. It’s a configuration auditing tool designed to help security professionals close pathways that could allow threat actors to change network configurations. Although Nipper is designed to make audit scoping and configuration management easier, it’s not the only tool on the market that serves this need. It doesn’t support all operating systems and firewalls, and it’s not always clear what security standards Nipper is using when conducting vulnerability management analysis. These issues might lead you to consider some of the top Titania Nipper alternatives on the market. Learn how these Nipper competitors stack up in terms of features, prices, pros, cons and use cases. Schedule a Demo Top 7 Nipper competitors on the market right now: AlgoSec Tufin Skybox FireMon Palo Alto Networks Panorama Cisco Defense Orchestrator Tenable Vulnerability Management Schedule a Demo 1. AlgoSec AlgoSec automates network configuration changes and provides comprehensive simulation capabilities to security professionals. It’s designed to streamline application connectivity and policy deployment across the entire network. As a configuration management platform, it combines a rich set of features for managing the organization’s attack surface by testing and implementing data security policies. Key features: Firewall Analyzer : This solution maps out applications and security policies across the network and grants visibility into security configurations. AlgoSec FireFlow : This module grants security teams the ability to automate and enforce security policies. It provides visibility into network traffic while flagging potential security risks. FireFlow supports most software and on-premises network security devices, including popular solutions from well-known vendors like Cisco, Fortinet, and Check point. CloudFlow : AlgoSec’s cloud-enabled management solution is designed for provisioning and configuring cloud infrastructure. It enables organizations to protect cloud-based web applications while supporting security policy automation across cloud workloads. Pros: Installation: AlgoSec is easy to setup and configure, providing cybersecurity teams with a clear path to change management, vulnerability assessment, and automated policy enforcement. It supports feature access through web services and API automation as well. Ease of use: The dashboard is simple and intuitive, making it easy for experienced systems administrators and newcomers alike to jump in and start using the platform. It is compatible with all modern web browsers. Versatility: AlgoSec provides organizations with valuable features like firewall policy auditing and compliance reporting. These features make it useful for risk management, vulnerability scanning, and risk scoring while giving network administrators the tools they need to meet strict compliance standards like NIST, PCI-DSS, or ISO 27001. Simulated queries: Security professionals can use AlgoSec to run complex simulations of configuration changes before committing them. This makes it easy for organizations to verify how those changes might impact endpoint security, cloud platform authentication, and other aspects of the organization’s security posture. Cons: Customization: Some competing configuration management tools offer more in-depth dashboard customization options. This can make a difference for security leaders who need customized data visualizations to communicate their findings to stakeholders. Delayed hotfixes: Users have reported that patches and hotfixes sometimes take longer than expected to roll out. In the past, hotfixes have contained bugs that impact performance. Recommended Read: 10 Best Firewall Monitoring Software for Network Security Schedule a Demo 2. Tufin Tufin Orchestration Suite provides organizations with a network security management solution that includes change management and security policy automation across networks. It supports a wide range of vendors, devices, and operating systems, providing end-to-end network security designed for networks running on Microsoft Windows, Linux, Mac OS, and more. Key features: Tufin stands out for the variety of tools it offers for managing security configurations in enterprise environments. It allows security leaders to closely manage the policies that firewalls, VPNs, and other security tools use when addressing potential threats. This makes it easier to build remediation playbooks and carry out penetration testing, among other things. Pros: Pricing: Tufin is priced reasonably for the needs and budgets of enterprise organizations. It may not be the best choice for small and mid-sized businesses, however. Robustness: Tufin offers a complete set of security capabilities and works well with a variety of vendors and third-party SaaS apps. It integrates well with proprietary and open source security tools, granting security leaders the ability to view network threats and plan risk mitigation strategies accordingly. Scalability: This tool is designed to scale according to customer needs. Tufin customers can adjust their use of firewall configuration and change management resources relatively easily. Cons: User interface: The product could have a more user-friendly interface. It will take some time and effort for network security professionals to get used to using Tufin. Performance issues: Tufin’s software architecture doesn’t support running many processes at the same time. If you overload it with tasks, it will start to run slowly and unpredictably. Customization: Organizations that need sophisticated network management features may find themselves limited by Tufin’s capabilities. Schedule a Demo 3. Skybox Skybox security suite provides continuous exposure management to organizations that want to reduce data breach risks and improve their security ratings. Its suite of cybersecurity management solutions includes two policy management tools. One is designed for network security policy management , while the other covers vulnerability and threat management. Key features: Automated firewall management : Skybox lets security leaders automate the process of provisioning, configuring, and managing firewalls throughout their network. This makes it easier for organizations to develop consistent policies for detecting and mitigating the risks associated with malware and other threats. Network visibility and vulnerability control : This product includes solutions for detecting vulnerabilities in the network and prioritizing them according to severity. It relies on its own threat intelligence service to warn security teams of emerging threat vectors. Pros: Threat intelligence included: Skybox includes its own threat intelligence solution, providing in-depth information about new vulnerabilities and active exploits detected in the wild. Scalability: Both small businesses and large enterprises can benefit from Skybox. The vendor supports small organizations with a limited number of endpoint devices as well as large, complex hybrid networks. Easy integration: Integrating Skybox with other platforms and solutions is relatively simple. It supports a wide range of intrusion detection tools, vulnerability management platforms, and other security solutions. Cons: Complexity: Skybox is not the most user-friendly suite of tools to work with. Even experienced network security professionals may find there is a learning curve. Cost: Organizations with limited IT budgets may not be able to justify the high costs that come with Skybox. Inventory dependency: Skybox only works when the organization has an accurate inventory of devices and networks available. Improper asset discovery can lead to inaccurate data feeds and poor performance. Schedule a Demo 4. FireMon FireMon offers its customers a multi-vendor solution for provisioning, configuring, and managing network security policies through a centralized interface. It is a powerful solution for automating network security policies and enforcing rule changes in real-time. Key features: Network visibility: FireMon uses a distributed approach to alarm and response, giving security leaders visibility into their networks while supporting multi-vendor configurations and customized dashboards. Service level agreement (SLA) management: Organizations can rely on FireMon’s SLA management features to guarantee the network’s integrity and security. Automated analysis: Security practitioners can use FireMon’s automated analysis feature to reduce attack risks and discover network vulnerabilities without having to conduct manual queries. Pros: Real-time reporting : The solution includes out-of-the-box reporting tools capable of producing real-time reports on security configurations and their potential impacts. Simplified customization: Upgrading FireMon to meet new needs is simple, and the company provides a range of need-specific customization tools. Cloud-enabled support: This product supports both private and public cloud infrastructure, and is capable of managing hybrid networks. Cons: Accuracy issues: Some users claim that FireMon’s automated risk detection algorithm produces inaccurate results. Complicated report customization: While the platform does support custom reports and visualizations, the process of generating those reports is more complex than it needs to be. Expensive: FireMon may be out of reach for many organizations, especially if they are interested in the company’s need-specific customizations. Schedule a Demo 5. Palo Alto Networks Panorama Palo Alto Networks is one of the cybersecurity industry’s most prestigious names, and its firewall configuration and management solution lives up to the brand’s reputation. Panorama allows network administrators to manage complex fleets of next-generation firewalls through a single, unified interface that provides observability, governance, and control. Key features: Unified policy management: Palo Alto users can use the platform’s centralized configuration assessment tool to identify vulnerabilities and address them all at once. Next-generation observability: Panorama digs deep into the log data generated by Palo Alto next-generation firewalls and scrutinizes it for evidence of infected hosts and malicious behavior. For example, the platform can detect phishing attacks by alerting users when they send confidential login credentials to spoofed websites or social media channels. Pros: Ease of use: Palo Alto Networks Panorama features a sleek user interface with a minimal learning curve. Learning how to use it will present a few issues for network security professionals. Industry-leading capabilities: Some of Palo Alto Network’s capabilities go above and beyond what other security vendors are capable of. Panorama puts advanced threat prevention, sandboxing, and identity-based monitoring tools in the hands of network administrators. Cons: Vendor Exclusive: Panorama only supports Palo Alto Networks firewalls. You can’t use this platform with third-party solutions. Palo Alto Networks explicitly encourages customers to outfit their entire tech stack with its own products. Prohibitively expensive: Exclusively deploying Palo Alto Networks products in order to utilize Panorama is too expensive for all but the biggest and best-funded enterprise-level organizations. Schedule a Demo 6. Cisco Defense Orchestrator Cisco Defense Orchestrator is a cloud-delivered security policy management service provided by another industry leader. It allows security teams to unify their policies across multi-cloud networks, enabling comprehensive asset discovery and visibility for cloud infrastructure. Network administrators can use this platform to manage security configurations and assess their risk profile accurately. Key features: Centralized management: Cisco’s platform is designed to provide a single point of reference for managing and configuring Cisco security devices across the network. Cloud-delivered software: The platform is delivered as an SaaS product, making it easy for organizations to adopt and implement without upfront costs. Low-touch provisioning: Deploying advanced firewall features through Cisco’s policy management platform is simple and requires very little manual configuration. Pros: Easy Policy Automation: This product allows network administrators to automatically configure and deploy security policies to Cisco devices. It provides ample feedback on the impacts of new policies, giving security teams the opportunity to continuously improve security performance. Scalability and integration: Cisco designed its solution to integrate with the entire portfolio of Cisco products and services. This makes it easy to deploy the Cisco Identity Services Engine or additional Cisco Meraki devices while still having visibility and control over the organization’s security posture. Cons: Vendor exclusive: Like Palo Alto Networks Panorama, Cisco Defense Orchestrator only works with devices that run Cisco software. Rip-and-replace costs: If you don’t already use Cisco hardware in your network, you may need to replace your existing solution in order to use this platform. This can raise the price of adopting this solution considerably. Schedule a Demo 7. Tenable Vulnerability Management Tenable Vulnerability Management – formerly known as Tenable.io – is a software suite that provides real-time continuous vulnerability assessment and risk management services to organizations. It is powered by Tenable Nessus, the company’s primary vulnerability assessment solution, enabling organizations to find and close security gaps in their environment and secure cloud infrastructure from cyberattack. Key features: Risk-based approach: Tenable features built-in prioritization and threat intelligence, allowing the solution to provide real-time insight into the risk represented by specific vulnerabilities and threats. Web-based front end: The main difference between Tenable Vulnerability Management and Tenable Nessus is the web application format. The new front end provides a great deal of information to security teams without requiring additional connections or configuration. Pros: Unlimited visibility: Tenable’s risk-based approach to asset discovery and risk assessment allows network administrators to see threats as they evolve in real-time. Security teams have practically unlimited visibility into their security posture, even in complex cloud-enabled networks with hybrid workforces. Proactive capabilities: Tenable helps security teams be more proactive about hunting and mitigating threats. It provides extensive coverage of emerging threat identifiers and prioritizes them so that security professionals know exactly where to look. Cons: Slow support: Many customers complain that getting knowledgeable support from Tenable takes too long, leaving their organizations exposed to unknown threats in the meantime. Complex implementations: Implementing Tenable can involve multiple stakeholders, and any complications can cause delays in the process. If customers have to go through customer support, the delays may extend even further. Schedule a Demo Select a size Top 7 Nipper Alternatives and Competitors (Pros & Cons) Top 7 Nipper competitors on the market right now: 1. AlgoSec 2. Tufin 3. Skybox 4. FireMon 5. Palo Alto Networks Panorama 6. Cisco Defense Orchestrator 7. Tenable Vulnerability Management Get the latest insights from the experts Use these six best practices to simplify compliance and risk White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure Solution overview See how this customer improved compliance readiness and risk Case study Choose a better way to manage your network

Security Policy Management with Professor Wool Firewall Management 201 Firewall Management with Professor Wool is a whiteboard-style series of lessons that examine the challenges of and provide technical tips for managing security policies in evolving enterprise networks and data centers. Lesson 1 In this lesson, Professor Wool discusses his research on different firewall misconfigurations and provides tips for preventing the most common risks. Examining the Most Common Firewall Misconfigurations Watch Lesson 2 In this lesson, Professor Wool examines the challenges of managing firewall change requests and provides tips on how to automate the entire workflow. Automating the Firewall Change Control Process Watch Lesson 3 In this lesson, Professor Wool offers some recommendations for simplifying firewall management overhead by defining and enforcing object naming conventions. Using Object Naming Conventions to Reduce Firewall Management Overhead Watch Lesson 4 In this lesson, Professor Wool examines some tips for including firewall rule recertification as part of your change management process, including questions you should be asking and be able to answer as well as guidance on how to effectively recertify firewall rules Tips for Firewall Rule Recertification Watch Lesson 5 In this lesson, Professor Wool examines how virtualization, outsourcing of data centers, worker mobility and the consumerization of IT have all played a role in dissolving the network perimeter and what you can do to regain control. Managing Firewall Policies in a Disappearing Network Perimeter Watch Lesson 6 In this lesson, Professor Wool examines some of the challenges when it comes to managing routers and access control lists (ACLs) and provides recommendations for including routers as part of your overall security policy with tips on change management, auditing and ACL optimization. Analyzing Routers as Part of Your Security Policy Watch Lesson 7 In this lesson, Professor Wool examines the complex challenges of accurately simulating network routing, specifically drilling into three options for extracting the routing information from your network: SNMP, SSH and HSRP or VRPP. Examining the Challenges of Accurately Simulating Network Routing Watch Lesson 8 In this lesson, Professor Wool examines the complex challenges of accurately simulating network routing, specifically drilling into three options for extracting the routing information from your network: SNMP, SSH and HSRP or VRPP. NAT Considerations When Managing Your Security Policy Watch Lesson 9 In this lesson, Professor Wool explains how you can create templates - using network objects - for different types of services and network access which are reused by many different servers in your data center. Using this technique will save you from writing new firewall rules each time you provision or change a server, reduce errors, and allow you to provision and expand your server estate more quickly. How to Structure Network Objects to Plan for Future Policy Growth Watch Lesson 10 In this lesson, Professor Wool examines the challenges of migrating business applications and physical data centers to a private cloud and offers tips to conduct these migrations without the risk of outages. Tips to Simplify Migrations to a Virtual Data Center Watch Lesson 11 In this lesson, Professor Wool provides the example of a virtualized private cloud which uses hypervisor technology to connect to the outside world via a firewall. If all worksloads within the private cloud share the same security requirements, this set up is adequate. But what happens if you want to run workloads with different security requirements within the cloud? Professor Wool explains the different options for filtering traffic within a private cloud, and discusses the challenges and solutions for managing them. Tips for Filtering Traffic within a Private Cloud Watch Lesson 12 In this lesson Professor Wool discusses ways to ensure that your security policy on your primary site and on your disaster recovery (DR) site are always sync. He presents multiple scenarios: where the DR and primary site use the exact same firewalls, where different vendor solutions or different models are used on the DR site, and where the IP address is or is not the same on the two sites. Managing Your Security Policy for Disaster Recovery Watch Lesson 13 In this lesson, Professor Wool highlights the challenges, benefits and trade-offs of utilizing zero-touch automation for security policy change management. He explains how, using conditional logic, its possible to significantly speed up security policy change management while maintaining control and ensuring accuracy throughout the process. Zero-Touch Change Management with Checks and Balances Watch Lesson 14 Many organizations have different types of firewalls from multiple vendors, which typically means there is no single source for naming and managing network objects. This ends up creating duplication, confusion, mistakes and network connectivity problems especially when a new change request is generated and you need to know which network object to refer to. In this lesson Profession Wool provides tips and best practices for how to synchronize network objects in a multi-vendor environment for both legacy scenarios, and greenfield scenarios. Synchronized Object Management in a Multi-Vendor Environment Watch Lesson 15 Many organizations have both a firewall management system as well as a CMDB, yet these systems do not communicate with each other and their data is not synchronized. This becomes a problem when making security policy change requests, and typically someone needs to manually translate the names used by in the firewall management system to the name in the CMDB, which is a slow and error-prone process, in order for the change request to work. In this lesson Professor Wool provides tips on how to use a network security policy management to coordinate between the two system, match the object names, and then automatically populate the change management process with the correct names and definitions. How to Synchronize Object Management with a CMDB Watch Lesson 16 Some companies use tools to automatically convert firewall rules from an old firewall, due to be retired, to a new firewall. In this lesson, Professor Wool explains why this process can be risky and provides some specific technical examples. He then presents a more realistic way to manage the firewall rule migration process that involves stages and checks and balances to ensure a smooth, secure transition to the new firewall that maintains secure connectivity. How to Take Control of a Firewall Migration Project Watch Lesson 17 PCI-DSS 3.2 regulation requirement 6.1 mandates that organizations establish a process for identifying security vulnerabilities on the servers that are within the scope of PCI. In this new lesson, Professor Wool explains how to address this requirement by presenting vulnerability data by both the servers and the by business processes that rely on each server. He discusses why this method is important and how it allows companies to achieve compliance while ensuring ongoing business operations. PCI – Linking Vulnerabilities to Business Applications Watch Lesson 18 Collaboration tools such as Slack provide a convenient way to have group discussions and complete collaborative business tasks. Now, these automated chatbots can be used for answering questions and handling tasks for development, IT and infosecurity teams. For example, enterprises can use chatbots to automate information-sharing across silos, such as between IT and application owners. So rather than having to call somebody and ask them “Is that system up? What happened to my security change request?” and so on, tracking helpdesk issues and the status of help requests can become much more accessible and responsive. Chatbots also make access to siloed resources more democratic and more widely available across the organization (subject, of course to the necessary access rights). In this video, Prof. Wool discusses how automated chatbots can be used to help a wide range of users for their security policy management tasks – thereby improving service to stakeholders and helping to accelerate security policy change processes across the enterprise. Sharing Network Security Information with the Wider IT Community With Team Collaboration Tools Watch Have a Question for Professor Wool? Ask him now 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

All organizations eventually inherit outdated technology infrastructure. As new technology becomes available, old apps and services... Firewall Change Management The Application Migration Checklist Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/25/23 Published All organizations eventually inherit outdated technology infrastructure. As new technology becomes available, old apps and services become increasingly expensive to maintain. That expense can come in a variety of forms: Decreased productivity compared to competitors using more modern IT solutions. Greater difficulty scaling IT asset deployments and managing the device life cycle . Security and downtime risks coming from new vulnerabilities and emerging threats. Cloud computing is one of the most significant developments of the past decade. Organizations are increasingly moving their legacy IT assets to new environments hosted on cloud services like Amazon Web Services or Microsoft Azure. Cloud migration projects enable organizations to dramatically improve productivity, scalability, and security by transforming on-premises applications to cloud-hosted solutions. However, cloud migration projects are among the most complex undertakings an organization can attempt. Some reports state that nine out of ten migration projects experience failure or disruption at some point, and only one out of four meet their proposed deadlines. The better prepared you are for your application migration project , the more likely it is to succeed. Keep the following migration checklist handy while pursuing this kind of initiative at your company. Step 1: Assessing Your Applications The more you know about your legacy applications and their characteristics, the more comprehensive you can be with pre-migration planning. Start by identifying the legacy applications that you want to move to the cloud. Pay close attention to the dependencies that your legacy applications have. You will need to ensure the availability of those resources in an IT environment that is very different from the typical on-premises data center. You may need to configure cloud-hosted resources to meet specific needs that are unique to your organization and its network architecture. Evaluate the criticality of each legacy application you plan on migrating to the cloud. You will have to prioritize certain applications over others, minimizing disruption while ensuring the cloud-hosted infrastructure can support the workload you are moving to. There is no one-size-fits-all solution to application migration. The inventory assessment may bring new information to light and force you to change your initial approach. It’s best that you make these accommodations now rather than halfway through the application migration project. Step 2: Choosing the Right Migration Strategy Once you know what applications you want to move to the cloud and what additional dependencies must be addressed for them to work properly, you’re ready to select a migration strategy. These are generalized models that indicate how you’ll transition on-premises applications to cloud-hosted ones in the context of your specific IT environment. Some of the options you should gain familiarity with include: Lift and Shift (Rehosting). This option enables you to automate the migration process using tools like CloudEndure Migration, AWS VM Import/Export, and others. The lift and shift model is well-suited to organizations that need to migrate compatible large-scale enterprise applications without too many additional dependencies, or organizations that are new to the cloud. Replatforming. This is a modified version of the lift and shift model. Essentially, it introduces an additional step where you change the configuration of legacy apps to make them better-suited to the cloud environment. By adding a modernization phase to the process, you can leverage more of the cloud’s unique benefits and migrate more complex apps. Refactoring/Re-architecting. This strategy involves rewriting applications from scratch to make them cloud-native. This allows you to reap the full benefits of cloud technology. Your new applications will be scalable, efficient, and agile to the maximum degree possible. However, it’s a time-consuming, resource-intensive project that introduces significant business risk into the equation. Repurchasing. This is where the organization implements a fully mature cloud architecture as a managed service. It typically relies on a vendor offering cloud migration through the software-as-a-service (SaaS) model. You will need to pay licensing fees, but the technical details of the migration process will largely be the vendor’s responsibility. This is an easy way to add cloud functionality to existing business processes, but it also comes with the risk of vendor lock-in. Step 3: Building Your Migration Team The success of your project relies on creating and leading a migration team that can respond to the needs of the project at every step. There will be obstacles and unexpected issues along the way – a high-quality team with great leadership is crucial for handling those problems when they arise. Before going into the specifics of assembling a great migration team, you’ll need to identify the key stakeholders who have an interest in seeing the project through. This is extremely important because those stakeholders will want to see their interests represented at the team level. If you neglect to represent a major stakeholder at the team level, you run the risk of having major, expensive project milestones rejected later on. Not all stakeholders will have the same level of involvement, and few will share the same values and goals. Managing them effectively means prioritizing the values and goals they represent, and choosing team members accordingly. Your migration team will consist of systems administrators, technical experts, and security practitioners, and include input from many other departments. You’ll need to formalize a system of communicating inside the core team and messaging stakeholders outside of it. You may also wish to involve end users as a distinct part of your migration team and dedicate time to addressing their concerns throughout the process. Keep team members’ stakeholder alignments and interests in mind when assigning responsibilities. For example, if a particular configuration step requires approval from the finance department, you’ll want to make sure that someone representing that department is involved from the beginning. Step 4: Creating a Migration Plan It’s crucial that every migration project follows a comprehensive plan informed by the needs of the organization itself. Organizations pursue cloud migration for many different reasons – your plan should address the problems you expect cloud-hosted technology to solve. This might mean focusing on reducing costs, enabling entry into a new market, or increasing business agility – or all three. You may have additional reasons for pursuing an application migration plan. This plan should also include data mapping . Choosing the right application performance metrics now will help make the decision-making process much easier down the line. Some of the data points that cloud migration specialists recommend capturing include: Duration highlights the value of employee labor-hours as they perform tasks throughout the process. Operational duration metrics can tell you how much time project managers spend planning the migration process, or whether one phase is taking much longer than another, and why. Disruption metrics can help identify user experience issues that become obstacles to onboarding and full adoption. Collecting data about the availability of critical services and the number of service tickets generated throughout the process can help you gauge the overall success of the initiative from the user’s perspective. Cost includes more than data transfer rates. Application migration initiatives also require creating dependency mappings, changing applications to make them cloud-native, and significant administrative costs. Up to 50% of your migration’s costs pay for labor , and you’ll want to keep close tabs on those costs as the process goes on. Infrastructure metrics like CPU usage, memory usage, network latency, and load balancing are best captured both before and after the project takes place. This will let you understand and communicate the value of the project in its entirety using straightforward comparisons. Application performance metrics like availability figures, error rates, time-outs and throughput will help you calculate the value of the migration process as a whole. This is another post-cloud migration metric that can provide useful before-and-after data. You will also want to establish a series of cloud service-level agreements (SLAs) that ensure a predictable minimum level of service is maintained. This is an important guarantee of the reliability and availability of the cloud-hosted resources you expect to use on a daily basis. Step 5: Mapping Dependencies Mapping dependencies completely and accurately is critical to the success of any migration project. If you don’t have all the elements in your software ecosystem identified correctly, you won’t be able to guarantee that your applications will work in the new environment. Application dependency mapping will help you pinpoint which resources your apps need and allow you to make those resources available. You’ll need to discover and assess every workload your organization undertakes and map out the resources and services it relies on. This process can be automated, which will help large-scale enterprises create accurate maps of complex interdependent processes. In most cases, the mapping process will reveal clusters of applications and services that need to be migrated together. You will have to identify the appropriate windows of opportunity for performing these migrations without disrupting the workloads they process. This often means managing data transfer and database migration tasks and carrying them out in a carefully orchestrated sequence. You may also discover connectivity and VPN requirements that need to be addressed early on. For example, you may need to establish protocols for private access and delegate responsibility for managing connections to someone on your team. Project stakeholders may have additional connectivity needs, like VPN functionality for securing remote connections. These should be reflected in the application dependency mapping process. Multi-cloud compatibility is another issue that will demand your attention at this stage. If your organization plans on using multiple cloud providers and configuring them to run workloads specific to their platform, you will need to make sure that the results of these processes are communicated and stored in compatible formats. Step 6: Selecting a Cloud Provider Once you fully understand the scope and requirements of your application migration project, you can begin comparing cloud providers. Amazon, Microsoft, and Google make up the majority of all public cloud deployments, and the vast majority of organizations start their search with one of these three. Amazon AW S has the largest market share, thanks to starting its cloud infrastructure business several years before its major competitors did. Amazon’s head start makes finding specialist talent easier, since more potential candidates will have familiarity with AWS than with Azure or Google Cloud. Many different vendors offer services through AWS, making it a good choice for cloud deployments that rely on multiple services and third-party subscriptions. Microsoft Azure has a longer history serving enterprise customers, even though its cloud computing division is smaller and younger than Amazon’s. Azure offers a relatively easy transition path that helps enterprise organizations migrate to the cloud without adding a large number of additional vendors to the process. This can help streamline complex cloud deployments, but also increases your reliance on Microsoft as your primary vendor. Google Cloud is the third runner-up in terms of market share. It continues to invest in cloud technologies and is responsible for a few major innovations in the space – like the Kubernetes container orchestration system. Google integrates well with third-party applications and provides a robust set of APIs for high-impact processes like translation and speech recognition. Your organization’s needs will dictate which of the major cloud providers offers the best value. Each provider has a different pricing model, which will impact how your organization arrives at a cost-effective solution. Cloud pricing varies based on customer specifications, usage, and SLAs, which means no single provider is necessarily “the cheapest” or “the most expensive” – it depends on the context. Additional cost considerations you’ll want to take into account include scalability and uptime guarantees. As your organization grows, you will need to expand its cloud infrastructure to accommodate more resource-intensive tasks. This will impact the cost of your cloud subscription in the future. Similarly, your vendor’s uptime guarantee can be a strong indicator of how invested it is in your success. Given all vendors work on the shared responsibility model, it may be prudent to consider an enterprise data backup solution for peace of mind. Step 7: Application Refactoring If you choose to invest time and resources into refactoring applications for the cloud, you’ll need to consider how this impacts the overall project. Modifying existing software to take advantage of cloud-based technologies can dramatically improve the efficiency of your tech stack, but it will involve significant risk and up-front costs. Some of the advantages of refactoring include: Reduced long-term costs. Developers refactor apps with a specific context in mind. The refactored app can be configured to accommodate the resource requirements of the new environment in a very specific manner. This boosts the overall return of investing in application refactoring in the long term and makes the deployment more scalable overall. Greater adaptability when requirements change . If your organization frequently adapts to changing business requirements, refactored applications may provide a flexible platform for accommodating unexpected changes. This makes refactoring attractive for businesses in highly regulated industries, or in scenarios with heightened uncertainty. Improved application resilience . Your cloud-native applications will be decoupled from their original infrastructure. This means that they can take full advantage of the benefits that cloud-hosted technology offers. Features like low-cost redundancy, high-availability, and security automation are much easier to implement with cloud-native apps. Some of the drawbacks you should be aware of include: Vendor lock-in risks . As your apps become cloud-native, they will naturally draw on cloud features that enhance their capabilities. They will end up tightly coupled to the cloud platform you use. You may reach a point where withdrawing those apps and migrating them to a different provider becomes infeasible, or impossible. Time and talent requirements . This process takes a great deal of time and specialist expertise. If your organization doesn’t have ample amounts of both, the process may end up taking too long and costing too much to be feasible. Errors and vulnerabilities . Refactoring involves making major changes to the way applications work. If errors work their way in at this stage, it can deeply impact the usability and security of the workload itself. Organizations can use cloud-based templates to address some of these risks, but it will take comprehensive visibility into how applications interact with cloud security policies to close every gap. Step 8: Data Migration There are many factors to take into consideration when moving data from legacy applications to cloud-native apps. Some of the things you’ll need to plan for include: Selecting the appropriate data transfer method . This depends on how much time you have available for completing the migration, and how well you plan for potential disruptions during the process. If you are moving significant amounts of data through the public internet, sidelining your regular internet connection may be unwise. Offline transfer doesn’t come with this risk, but it will include additional costs. Ensuring data center compatibility. Whether transferring data online or offline, compatibility issues can lead to complex problems and expensive downtime if not properly addressed. Your migration strategy should include a data migration testing strategy that ensures all of your data is properly formatted and ready to use the moment it is introduced to the new environment. Utilizing migration tools for smooth data transfer . The three major cloud providers all offer cloud migration tools with multiple tiers and services. You may need to use these tools to guarantee a smooth transfer experience, or rely on a third-party partner for this step in the process. Step 9: Configuring the Cloud Environment By the time your data arrives in its new environment, you will need to have virtual machines and resources set up to seamlessly take over your application workloads and processes. At the same time, you’ll need a comprehensive set of security policies enforced by firewall rules that address the risks unique to cloud-hosted infrastructure. As with many other steps in this checklist, you’ll want to carefully assess, plan, and test your virtual machine deployments before deploying them in a live production environment. Gather information about your source and target environment and document the workloads you wish to migrate. Set up a test environment you can use to make sure your new apps function as expected before clearing them for live production. Similarly, you may need to configure and change firewall rules frequently during the migration process. Make sure that your new deployments are secured with reliable, well-documented security policies. If you skip the documentation phase of building your firewall policy, you run the risk of introducing security vulnerabilities into the cloud environment, and it will be very difficult for you to identify and address them later on. You will also need to configure and deploy network interfaces that dictate where and when your cloud environment will interact with other networks, both inside and outside your organization. This is your chance to implement secure network segmentation that protects mission-critical assets from advanced and persistent cyberattacks. This is also the best time to implement disaster recovery mechanisms that you can rely on to provide business continuity even if mission-critical assets and apps experience unexpected downtime. Step 10: Automating Workflows Once your data and apps are fully deployed on secure cloud-hosted infrastructure, you can begin taking advantage of the suite of automation features your cloud provider offers. Depending on your choice of migration strategy, you may be able to automate repetitive tasks, streamline post-migration processes, or enhance the productivity of entire departments using sophisticated automation tools. In most cases, automating routine tasks will be your first priority. These automations are among the simplest to configure because they largely involve high-volume, low-impact tasks. Ideally, these tasks are also isolated from mission-critical decision-making processes. If you established a robust set of key performance indicators earlier on in the migration project, you can also automate post-migration processes that involve capturing and reporting these data points. Your apps will need to continue ingesting and processing data, making data validation another prime candidate for workflow automation. Cloud-native apps can ingest data from a wide range of sources, but they often need some form of validation and normalization to produce predictable results. Ongoing testing and refinement will help you make the most of your migration project moving forward. How AlgoSec Enables Secure Application Migration Visibility and Di scovery : AlgoSec provide s comprehensive visibility into your existing on-premises network environment. It automatically discovers all network devices, applications, and their dependencies. This visibility is crucial when planning a secure migration, ensuring no critical elements get overlooked in the process. Application Dependency Mapping : AlgoSec’s application dependency mapping capabilities allow you to understand how different applications and services interact within your network. This knowledge is vital during migration to avoid disrupting critical dependencies. Risk Assessment : AlgoSec assesses the security and compliance risks associated with your migration plan. It identifies potential vulnerabilities, misconfigurations, and compliance violations that could impact the security of the migrated applications. Security Policy Analysis : Before migrating, AlgoSec helps you analyze your existing security policies and rules. It ensures that security policies are consistent and effective in the new cloud or data center environment. Misconfigurations and unnecessary rules can be eliminated, reducing the attack surface. Automated Rule Optimiz ation : AlgoSec automates the o ptimization of security rules. It identifies redundant rules, suggests rule consolidations, and ensures that only necessary traffic is allowed, helping you maintain a secure environment during migration. Change Management : During the migration process, changes to security policies and firewall rules are often necessary. AlgoSec facilitates change management by providing a streamlined process for requesting, reviewing, and implementing rule changes. This ensures that security remains intact throughout the migration. Compliance and Governance : AlgoSec helps maintain compliance with industry regulations and security best practices. It generates compliance reports, ensures rule consistency, and enforces security policies, even in the new cloud or data center environment. Continuous Monitoring and Auditing : Post-migration, AlgoSec continues to monitor and audit your security policies and network traffic. It alerts you to any anomalies or security breaches, ensuring the ongoing security of your migrated applications. Integration with Cloud Platforms : AlgoSec integrates seamlessly with various cloud platforms such as AWS , Microsoft Azure , and Google Cloud . This ensures that security policies are consistently applied in both on-premises and cloud environments, enabling a secure hybrid or multi-cloud setup. Operational Efficiency : AlgoSec’s automation capabilities reduce manual tasks, improving operational efficiency. This is essential during the migration process, where time is often of the essence. Real-time Visibility and Control : AlgoSec provides real-time visibility and control over your security policies, allowing you to adapt quickly to changing migration requirements and security threats. Schedule a demo Related Articles 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

Prof. Avishai Wool, AlgoSec co-founder and CTO, stresses the importance of getting the often-overlooked function of managing network... Professor Wool Bridging Network Security Gaps with Better Network Object Management 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 4/13/22 Published Prof. Avishai Wool, AlgoSec co-founder and CTO, stresses the importance of getting the often-overlooked function of managing network objects right, particularly in hybrid or multi-vendor environments Using network traffic filtering solutions from multiple vendors makes network object management much more challenging. Each vendor has its own management platform, which often forces network security admins to define objects multiple times, resulting in a counter effect. First and foremost, this can be an inefficient use of valuable resources from a workload bottlenecking perspective. Secondly, it creates a lack of naming consistency and introduces a myriad of unexpected errors, leading to security flaws and connectivity problems. This can be particularly applicable when a new change request is made. With these unique challenges at play, it begs the question: Are businesses doing enough to ensure their network objects are synchronized in both legacy and greenfield environments? What is network object management? At its most basic, the management of network objects refers to how we name and define “objects” within a network. These objects can be servers, IP addresses, or groups of simpler objects. Since these objects are subsequently used in network security policies, it is imperative to simultaneously apply a given rule to an object or object group. On its own, that’s a relatively straightforward method of organizing the security policy. But over time, as organizations reach scale, they often end up with large quantities of network objects in the tens of thousands, which typically lead to critical mistakes. Hybrid or multi-vendor networks Let’s take name duplication as an example. Duplication on its own is bad enough due to the wasted resource, but what’s worse is when two copies of the same name have two distinctly different definitions. Let’s say we have a group of database servers in Environment X containing three IP addresses. This group is allocated a name, say “DBs”. That name is then used to define a group of database servers in Environment Y containing only two IP addresses because someone forgot to add in the third. In this example, the security policy rule using the name DBs would look absolutely fine to even a well-trained eye, because the names and definitions it contained would seem identical. But the problem lies in what appears below the surface: one of these groups would only apply to two IP addresses rather than three. As in this case, minor discrepancies are commonplace and can quickly spiral into more significant security issues if not dealt with in the utmost time-sensitive manner. It’s important to remember that accuracy is the name in this game. If a business is 100% accurate in the way it handles network object management, then it has the potential to be 100% efficient. The Bottom Line The security and efficiency of hybrid multi-vendor environments depend on an organization’s digital hygiene and network housekeeping. The naming and management of network objects aren’t particularly glamorous tasks. Having said that, everything from compliance and automation to security and scalability will be far more seamless and risk averse if taken care of correctly. To learn more about network object management and why it’s arguably more important now than ever before, watch our webcast on the subject or read more in our resource hub . 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

Hospitals are increasingly becoming a favored target of cyber criminals. Yet if you think about medical equipment that is vulnerable to... Cyber Attacks & Incident Response Checking the cybersecurity pulse of medical devices 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 6/14/16 Published Hospitals are increasingly becoming a favored target of cyber criminals. Yet if you think about medical equipment that is vulnerable to being hacked at a hospital, you might not immediately think of high-end, critical equipment such as MRI and X-ray scanners, and nuclear medicine devices. After all, these devices go through rigorous approval processes by the US Food & Drug Administration (FDA) before they are approved for safe use on patients. Yet today many, if not most, medical devices, have computers embedded in them, are connected to the hospital network, and often to the internet as well, so they provide a potential attack vector for cyber criminals. In late 2015 security researchers found that thousands of medical devices were vulnerable to attack and exposed to the public Internet. Interestingly, these researchers also found that many of the devices in question were running Windows XP – which is no longer supported or updated by Microsoft – and did not run antivirus software to protect them against malware. This combination raises an obvious security red flag. Ironically, these security vulnerabilities were further exacerbated because of the very FDA approvals process that certifies the devices. The approval process is, quite rightly, extremely rigorous. It is also lengthy and expensive. And if a manufacturer or vendor makes a change to a device, it needed to be re-certified. Until very recently, a ‘change’ to a medical device meant any sort of change – including patching devices’ operating systems and firmware to close off potential network security vulnerabilities. You can see where this is going: making simple updates to medical equipment to improve its defenses against cyberattacks was made that much more difficult and complex for the device manufacturers, because of the need for FDA re-certification every time a change was made. And of course, this potential delay in patching vulnerabilities made it easy for a hacker to try and ‘update’ the device in his own way, for criminal purposes. Hackers are usually not too concerned about getting FDA approval for their work. Fortunately, the FDA released new guidelines last year that allowed equipment manufacturers to patch software as required without undergoing re-certification—provided the change or modification does not ‘significantly affect the safety or effectiveness of the medical device’. That’s good news – but it’s not quite the end of the story. The FDA’s guidelines are only a partial panacea to the overall problem. They overlook the fact that many medical devices are running obsolete operating systems like Windows XP. What’s more, the actual process of applying patches to the computers in medical devices can vary enormously from manufacturer to manufacturer, with some patches needing to be downloaded and applied manually, while others may be pushed automatically. In either case, there could still be a window of weeks, months or even years before the device’s vendor issues a patch for a given vulnerability – a window that a hacker could exploit before the hospital’s IT team becomes aware that the vulnerability exists. This means that hospitals need to take great care when it comes to structuring and segmenting their network . It is vital that connected medical devices – particularly those where the internal OS may be out of date – are placed within defined, segregated segments of the network, and robustly protected with next-generation firewalls, web proxies and other filters. While network segmentation and filtering will not protect unpatched or obsolete operating system, they will ensure that the hospital’s network is secured to the best of its ability . 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

Omer Ganot, Cloud Security Product Manager at AlgoSec, outlines six key things that businesses should be doing to ensure their security... Hybrid Cloud Security Management Six best practices for managing security in the hybrid cloud Omer Ganot 2 min read Omer Ganot 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 8/5/21 Published Omer Ganot, Cloud Security Product Manager at AlgoSec, outlines six key things that businesses should be doing to ensure their security in a hybrid cloud environment Over the course of the past decade, we’ve seen cloud computing vastly transitioning from on-prem to the public cloud. Businesses know the value of the cloud all too well, and most of them are migrating their operations to the cloud as quickly as possible, particularly considering the pandemic and the push to remote working. However, there are major challenges associated with transitioning to the cloud, including the diversity and breadth of network and security controls and a dependency on legacy systems that can be difficult to shake. Public cloud allows organizations for better business continuity, easier scalability and paves the way for DevOps to provision resources and deploy projects quickly. But, what’s the security cost when looking at the full Gpicture of the entire hybrid network? Here I outline the six best practices for managing security in the hybrid cloud: 1. Use next-generation firewalls Did you know that almost half (49%) of businesses report running virtual editions of traditional firewalls in the cloud? It’s becoming increasingly clear that cloud providers’ native security controls are not enough, and that next-gen firewall solutions are needed. While a traditional stateful firewall is designed to monitor incoming and outgoing network traffic, a next-generation firewall (NGFW) includes features such as application awareness and control, integrated breach prevention and active threat intelligence. In other words, while a traditional firewall will allow for layer 1-2 protection, NGFWs allow for protection from levels 3 through 7. 2. Use dynamic objects On-premise security tends to be easier because subnets and IP addresses are typically static. In the cloud, however, workloads are dynamically provisioned and decommissioned, IP addresses change, so traditional firewalls simply cannot keep up. NGFW dynamic objects allow businesses to match a group of workloads using cloud-native categories, and then use these objects in policies to properly enforce traffic and avoid the need to frequently update the policies. 3. Gain 360-degree visibility As with any form of security, visibility is critical. Without that, even the best preventative or remedial strategies will fall flat. Security should be evaluated both in your cloud services and in the path from the internet and data center clients. Having one single view over the entire network estate is invaluable when it comes to hybrid cloud security. AlgoSec’s powerful AutoDiscovery capabilities help you understand the network flows in your organization. You can automatically connect the recognized traffic flows to the business applications that use them and seamlessly manage the network security policy across your entire hybrid estate. 4. Evaluate risk in its entirety Too many businesses are guilty of only focusing on cloud services when it comes to managing security. This leaves them inherently vulnerable on other network paths, such as the ones that run from the internet and data centers towards the services in the cloud. As well as gaining 360-degree visibility over the entire network estate, businesses also need to be sure to actively monitor those areas for risk with equal weighting in terms of priority. 5. Clean up cloud policies regularly The cloud security landscape changes at a faster rate than most businesses can realistically keep up with. For that reason, cloud security groups tend to change with the wind, constantly being adjusted to account for new applications. If a business doesn’t keep on top of its cloud policy ‘housekeeping’, they’ll soon become bloated, difficult to maintain and risky. Keep cloud security groups clean and tidy so they’re accurate, efficient and don’t expose risk. 6. Embrace DevSecOps The cloud might be perfect for DevOps in terms of easy and agile resource and security provisioning using Infrastructure-as-code tools, but the methodology is seldom used for risk analysis and remediation recommendations. Businesses that want to take control of their cloud security should pay close attention to this. Before a new risk is introduced, you should obtain an automatic what-if risk check as part of the code’s pull request, before pushing to production. From visibility and network management right through to risk evaluation and clean-up, staying secure in a hybrid cloud environment might sound like hard work, but by embracing these fundamental practices your organization can start putting together the pieces of its own security puzzle. The AlgoSec Security Management Suite (ASMS) makes it easy to support your cloud migration journey, ensuring that it does not block critical business services and meet compliance requirements. To learn more or ask for your personalized demo, click here . 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

Robert Bigman is uniquely equipped to share actionable tips for hardening your network security against vulnerabilities Don’t miss this opportunity to learn the latest threats and how to handle them Webinars Measures that actually DO reduce your hacking risk Learn from the best how to defeat hackers and ransomware As incidents of ransomware attacks become more common, the time has come to learn from the best how to defeat hackers. Join us as Robert Bigman, the former CISO of the CIA, presents his webinar Measures that Actually do Reduce your Hacking Risk. Robert Bigman is uniquely equipped to share actionable tips for hardening your network security against vulnerabilities. Don’t miss this opportunity to learn the latest threats and how to handle them. April 20, 2022 Robert Bigman Consultant; Former CISO of the CIA Relevant resources Ensuring critical applications stay available and secure while shifting to remote work Keep Reading Reducing risk of ransomware attacks - back to basics Keep Reading Ransomware Attack: Best practices to help organizations proactively prevent, contain and 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

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AlgoSec’s Integration with ServiceNow allows AlgoSec users to automate security change management and accelerate application deployments... Information Security AlgoSec and ServiceNow: Managing Network Security Policies and Processes Within ServiceNow Amir Erel 2 min read Amir Erel Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/3/20 Published AlgoSec’s Integration with ServiceNow allows AlgoSec users to automate security change management and accelerate application deployments within their existing ServiceNow platform It isn’t easy for organizations to get holistic visibility and management across their increasingly complex, hybrid network environments. Application owners need to make changes to existing applications or launch new ones quickly to drive the business. Meanwhile, IT and security teams must maintain security, reduce the risk of outages and misconfigurations, and meet audit and compliance demands. It’s a difficult balance to achieve. In our 2019 cloud security survey , a lack of visibility into their entire network estate and seamless management of cloud and on-prem environments were two of the biggest challenges cited by organizations. Over 40% also reported having a network or application outage, with the leading cause being operational or human errors in making changes. So robust network security management and automation of processes are increasingly mission-critical. To manage network security changes efficiently, application owners prefer to use the familiar tools and workflows that they already know, while security owners need to understand the business context of the policies to ensure that they are making the right decisions to protect the organization’s assets. AlgoSec’s integration with ServiceNow’s IT Service Management solution allows these different stakeholders to share a single management. This bridges the gap between application and security teams and gives them both a holistic view of security, risk and compliance across their entire network environment. This, in turn, accelerates application delivery and strengthens the organization’s security and compliance postures. By integrating the AlgoSec Security Management Suite with ServiceNow, organizations can automate and enrich security policy change management while remaining entirely within the tool their team is already using, with the added benefit of business context. The solution works seamlessly with existing processes and workflows, which helps accelerate the rate of adoption across entire networks. Automating change management processes Making a single change in a complex enterprise environment could take days or even weeks. Using intelligent, highly customizable workflows, AlgoSec automates the entire security policy change process – from planning and design through to submission, proactive risk analysis, implementation, validation and auditing – all with zero-touch, enabling organizations to reduce change request processing times to minutes. By working with the tools that your organization is already familiar with, you don’t need to learn new workflows and user interfaces. Your application and IT teams can continue to use the tools they already know, and encourage organizational buy-in for automated network security policy change management. For more information on AlgoSec’s integration with ServiceNow, download the datasheet or watch the demo . 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

So, you’ve dipped your toes into the cloud, chasing after that sweet combo of efficiency, scalability, and innovation. But, hold up –... Application Connectivity Management Unlocking the secrets of a rock-solid cloud security game plan Malynnda Littky-Porath 2 min read Malynnda Littky-Porath 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 12/13/23 Published So, you’ve dipped your toes into the cloud, chasing after that sweet combo of efficiency, scalability, and innovation. But, hold up – with great power comes great responsibility. It’s time to build up those digital defenses against all the lurking risks that come with the cloud craze. Since we’re all jumping headfirst into cloud computing, let’s talk about some killer moves and strategies that can turn your organization into a fortress of cloud security, ready to take on anything. Mastering the Cloud Security Playground Picture this: you’re in a race to grab the transformative benefits of the cloud, and every step forward is like leveling up. Sounds cool, right? But, before you go all in, you need to get the lowdown on the constantly changing world of cloud security. Picking Your Defender: What Cloud Providers Bring to the Table Choosing a cloud provider is like choosing your champion. Think AWS, GCP, Azure – these giants are committed to providing you with a secure playground. They’ve got this crazy mix of cutting-edge security tech and artificial intelligence that builds a solid foundation. And guess what? Diversifying your cloud playground can be a power move. Many smart organizations go for a multi-cloud setup, and tools like AlgoSec make it a breeze to manage security across all your cloud domains. The Hybrid Puzzle: Where Security Meets the Unknown Okay, let’s talk about the big debate – going all-in on the cloud versus having a foot in both worlds. It’s not just a tech decision; it’s like choosing your organization’s security philosophy. Keeping some stuff on-premises is like having a security safety net. To navigate this mixed-up world successfully, you need a security strategy that brings everything together. Imagine having a magic lens that gives you a clear view of everything – risks, compliance, and automated policies. That’s the compass guiding your ship through the hybrid storm. A Master Plan for Safe Cloud Travels In this digital universe where data and applications are buzzing around like crazy, moving to the cloud needs more than just a casual stroll. It needs a well-thought-out plan with security as the VIP guest. App Connections: The Soul of Cloud Migration Apps are like the lifeblood of your organization, and moving them around recklessly is a big no-no. Imagine teaming up with buddies like Cisco Secure Workload, Illumio, and Guardicore. Together, they map out your apps, reveal their relationships, and lay down policies. This means you can make smart moves that keep your apps happy and safe. The Perfect Move: Nailing the Application Switch When you’re moving apps , it’s all about precision – like conducting a symphony. Don’t get tangled up between the cloud and your old-school setup. The secret? Move the heavy-hitters together to keep everything smooth, just like a perfectly choreographed dance. Cleaning House: Getting Rid of Old Habits Before you let the cloud into your life, do a little Marie Kondo on your digital space. Toss out those old policies, declutter the legacy baggage, and create a clean slate. AlgoSec is all about minimizing risks – tune, optimize, and refine your policies for a fresh start. Think of it as a digital spring-cleaning that ensures your cloud journey is free from the ghosts of the past. The Cloud’s Secure Horizon As we venture deeper into the digital unknown, cloud security becomes a challenge and a golden opportunity. Every step towards a cloud-fueled future is a call to arms. It’s a call to weave security into the very fabric of our cloud adventures. Embrace the best practices, charge ahead with a kick-butt strategy, and make sure the cloud’s promise of a brighter tomorrow is backed up by an ironclad commitment to security. Now, that’s how you level up in the cloud game! 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

What is Firewall Traffic Analysis? Firewall traffic analysis (FTA) is a network security operation that grants visibility into the data... Firewall Policy Management Firewall Traffic Analysis: The Complete Guide 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 10/24/23 Published What is Firewall Traffic Analysis? Firewall traffic analysis (FTA) is a network security operation that grants visibility into the data packets that travel through your network’s firewalls. Cybersecurity professionals conduct firewall traffic analysis as part of wider network traffic analysis (NTA) workflows. The traffic monitoring data they gain provides deep visibility into how attacks can penetrate your network and what kind of damage threat actors can do once they succeed. NTA vs. FTA Explained NTA tools provide visibility into things like internal traffic inside the data center, inbound VPN traffic from external users, and bandwidth metrics from Internet of Things (iOT) endpoints. They inspect on-premises devices like routers and switches, usually through a unified, vendor-agnostic interface. Network traffic analyzers do inspect firewalls, but might stop short of firewall-specific network monitoring and management. FTA tools focus more exclusively on traffic patterns through the organization’s firewalls. They provide detailed information on how firewall rules interact with traffic from different sources. This kind of tool might tell you how a specific Cisco firewall conducts deep packet inspection on a certain IP address, and provide broader metrics on how your firewalls operate overall. It may also provide change management tools designed to help you optimize firewall rules and security policies . Firewall Rules Overview Your firewalls can only protect against security threats effectively when they are equipped with an optimized set of rules. These rules determine which users are allowed to access network assets and what kind of network activity is allowed. They play a major role in enforcing network segmentation and enabling efficient network management. Analyzing device policies for an enterprise network is a complex and time-consuming task. Minor mistakes can lead to critical risks remaining undetected and expose network devices to cyberattacks. For this reason, many security leaders use automated risk management solutions that include firewall traffic analysis. These tools perform a comprehensive analysis of firewall rules and communicate the risks of specific rules across every device on the network. This information is important because it will inform the choices you make during real-time traffic analysis. Having a comprehensive view of your security risk profile allows you to make meaningful changes to your security posture as you analyze firewall traffic. Performing Real-Time Traffic Analysis AlgoSec Firewall Analyzer captures information on the following traffic types: External IP addresses Internal IP addresses (public and private, including NAT addresses) Protocols (like TCP/IP, SMTP, HTTP, and others) Port numbers and applications for sources and destinations Incoming and outgoing traffic Potential intrusions The platform also supports real-time network traffic analysis and monitoring. When activated, it will periodically inspect network devices for changes to their policy rules, object definitions, audit logs, and more. You can view the changes detected for individual devices and groups, and filter the results to find specific network activities according to different parameters. For any detected change, Firewall Analyzer immediately aggregates the following data points: Device – The device where the changes happened. Date/Time – The exact time when the change was made. Changed by – Tells you which administrator performed the change. Summary – Lists the network assets impacted by the change. Many devices supported by Firewall Analyzer are actually systems of devices that work together. You can visualize the relationships between these assets using the device tree format. This presents every device as a node in the tree, giving you an easy way to manage and view data for individual nodes, parents nodes, and global categories. For example, Firewall Analyzer might discover a redundant rule copied across every firewall in your network. If its analysis shows that the rule triggers frequently, it might recommend moving to a higher node on the device tree. If it turns out the rule never triggers, it may recommend adjusting the rule or deleting it completely. If the rule doesn’t trigger because it conflicts with another firewall rule, it’s clear that some action is needed. Importance of Visualization and Reporting Open source network analysis tools typically work through a command-line interface or a very simple graphic user interface. Most of the data you can collect through these tools must be processed separately before being communicated to non-technical stakeholders. High-performance firewall analysis tools like AlgoSec Firewall Analyzer provide additional support for custom visualizations and reports directly through the platform. Visualization allows non-technical stakeholders to immediately grasp the importance of optimizing firewall policies, conducting netflow analysis, and improving the organization’s security posture against emerging threats. For security leaders reporting to board members and external stakeholders, this can dramatically transform the success of security initiatives. AlgoSec Firewall Analyzer includes a Visualize tab that allows users to create custom data visualizations. You can save these visualizations individually or combine them into a dashboard. Some of the data sources you can use to create visualizations include: Interactive searches Saved searches Other saved visualizations Traffic Analysis Metrics and Reports Custom visualizations enhance reports by enabling non-technical audiences to understand complex network traffic metrics without the need for additional interpretation. Metrics like speed, bandwidth usage, packet loss, and latency provide in-depth information about the reliability and security of the network. Analyzing these metrics allows network administrators to proactively address performance bottlenecks, network issues, and security misconfigurations. This helps the organization’s leaders understand the network’s capabilities and identify the areas that need improvement. For example, an organization that is planning to migrate to the cloud must know whether its current network infrastructure can support that migration. The only way to guarantee this is by carefully measuring network performance and proactively mitigating security risks. Network traffic analysis tools should do more than measure simple metrics like latency. They need to combine latency into complex performance indicators that show how much latency is occuring, and how network conditions impact those metrics. That might include measuring the variation in delay between individual data packets (jitter), Packet Delay Variation (PDV), and others. With the right automated firewall analysis tool, these metrics can help you identify and address security vulnerabilities as well. For example, you could automate the platform to trigger alerts when certain metrics fall outside safe operating parameters. Exploring AlgoSec’s Network Traffic Analysis Tool AlgoSec Firewall Analyzer provides a wide range of operations and optimizations to security teams operating in complex environments. It enables firewall performance improvements and produces custom reports with rich visualizations demonstrating the value of its optimizations. Some of the operations that Firewall Analyzer supports include: Device analysis and change tracking reports. Gain in-depth data on device policies, traffic, rules, and objects. It analyzes the routing table that produces a connectivity diagram illustrating changes from previous reports on every device covered. Traffic and routing queries. Run traffic simulations on specific devices and groups to find out how firewall rules interact in specific scenarios. Troubleshoot issues that emerge and use the data collected to prevent disruptions to real-world traffic. This allows for seamless server IP migration and security validation. Compliance verification and reporting. Explore the policy and change history of individual devices, groups, and global categories. Generate custom reports that meet the requirements of corporate regulatory standards like Sarbanes-Oxley, HIPAA, PCI DSS, and others. Rule cleanup and auditing. Identify firewall rules that are either unused, timed out, disabled, or redundant. Safely remove rules that fail to improve your security posture, improving the efficiency of your firewall devices. List unused rules, rules that don’t conform to company policy, and more. Firewall Analyzer can even re-order rules automatically, increasing device performance while retaining policy logic. User notifications and alerts. Discover when unexpected changes are made and find out how those changes were made. Monitor devices for rule changes and send emails to pre-assigned users with device analyses and reports. Network Traffic Analysis for Threat Detection and Response By monitoring and inspecting network traffic patterns, firewall analysis tools can help security teams quickly detect and respond to threats. Layer on additional technologies like Intrusion Detection Systems (IDS), Network Detection and Response (NDR), and Threat Intelligence feeds to transform network analysis into a proactive detection and response solution. IDS solutions can examine packet headers, usage statistics, and protocol data flows to find out when suspicious activity is taking place. Network sensors may monitor traffic that passes through specific routers or switches, or host-based intrusion detection systems may monitor traffic from within a host on the network. NDR solutions use a combination of analytical techniques to identify security threats without relying on known attack signatures. They continuously monitor and analyze network traffic data to establish a baseline of normal network activity. NDR tools alert security teams when new activity deviates too far from the baseline. Threat intelligence feeds provide live insight on the indicators associated with emerging threats. This allows security teams to associate observed network activities with known threats as they develop in real-time. The best threat intelligence feeds filter out the huge volume of superfluous threat data that doesn’t pertain to the organization in question. Firewall Traffic Analysis in Specific Environments On-Premises vs. Cloud-hosted Environments Firewall traffic analyzers exist in both on-premises and cloud-based forms. As more organizations migrate business-critical processes to the cloud, having a truly cloud-native network analysis tool is increasingly important. The best of these tools allow security teams to measure the performance of both on-premises and cloud-hosted network devices, gathering information from physical devices, software platforms, and the infrastructure that connects them. Securing the Internet of Things It’s also important that firewall traffic analysis tools take Internet of Things (IoT) devices in consideration. These should be grouped separately from other network assets and furnished with firewall rules that strictly segment them. Ideally, if threat actors compromise one or more IoT devices, network segmentation won’t allow the attack to spread to other parts of the network. Conducting firewall analysis and continuously auditing firewall rules ensures that the barriers between network segments remain viable even if peripheral assets (like IoT devices) are compromised. Microsoft Windows Environments Organizations that rely on extensive Microsoft Windows deployments need to augment the built-in security capabilities that Windows provides. On its own, Windows does not offer the kind of in-depth security or visibility that organizations need. Firewall traffic analysis can play a major role helping IT decision-makers deploy technologies that improve the security of their Windows-based systems. Troubleshooting and Forensic Analysis Firewall analysis can provide detailed information into the causes of network problems, enabling IT professionals to respond to network issues more quickly. There are a few ways network administrators can do this: Analyzing firewall logs. Log data provides a wealth of information on who connects to network assets. These logs can help network administrators identify performance bottlenecks and security vulnerabilities that would otherwise go unnoticed. Investigating cyberattacks. When threat actors successfully breach network assets, they can leave behind valuable data. Firewall analysis can help pinpoint the vulnerabilities they exploited, providing security teams with the data they need to prevent future attacks. Conducting forensic analysis on known threats. Network traffic analysis can help security teams track down ransomware and malware attacks. An organization can only commit resources to closing its security gaps after a security professional maps out the killchain used by threat actors to compromise network assets. Key Integrations Firewall analysis tools provide maximum value when integrated with other security tools into a coherent, unified platform. Security information and event management (SIEM) tools allow you to orchestrate network traffic analysis automations with machine learning-enabled workflows to enable near-instant detection and response. Deploying SIEM capabilities in this context allows you to correlate data from different sources and draw logs from devices across every corner of the organization – including its firewalls. By integrating this data into a unified, centrally managed system, security professionals can gain real-time information on security threats as they emerge. AlgoSec’s Firewall Analyzer integrates seamlessly with leading SIEM solutions, allowing security teams to monitor, share, and update firewall configurations while enriching security event data with insights gleaned from firewall logs. Firewall Analyzer uses a REST API to transmit and receive data from SIEM platforms, allowing organizations to program automation into their firewall workflows and manage their deployments from their SIEM. 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

Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. PORSCHE INFORMATIK SIMPLIFIES NETWORK OPERATIONS AND STRENGTHENS SECURITY Organization PORSCHE Industry Retail & Manufacturing Headquarters Austria Download case study Share Customer
success stories "We quickly saw a clear return on our investment with AlgoSec. It enabled us to significantly increase the efficiency of our firewall operations team without increasing head count. With AlgoSec, We can focus on what is most important to Porsche Informatik: our customers" Leading European Automobile Trading Enterprise Increases Security, Ensures Compliance, Optimizes Firewall Operations and Streamlines Productivity AlgoSec Business Impact • Increase IT productivity without adding headcount• Reduce time and resources required to implement firewall policy changes• Improve IT Governance and accountability over the network security policy• Improve security posture and gain visibility into the impact of proposed changes Background Porsche Informatik GmbH, a subsidiary of Porsche Holding, is one of the biggest private trading enterprises in Austria and the most successful automobile trade companies in Europe. The Company provides integrated software solutions for the automobile sector serving importers, retailers and financial service providers in over 21 countries. With its multi-vendor, multi-firewall infrastructure consisting of various Check Point clusters and firewalls, Porsche Informatik has been supporting some of the most successful automobile brands in the world including Volkswagen, Audi, Porsche, Seat and Skoda. Challenge As an enterprise serving the leading automobile brands, Porsche Informatik is committed to ensuring the integrity of its network and maintaining compliance with corporate security policies. Optimizing its operations is another top priority. With a large number of firewalls undergoing continuous rule changes, Porsche Informatik’s team had to manually confirm that all of the changes were correctly configured and adhered to corporate policy. To do this, Porsche Informatik needed to keep track of changes: when they were made, who made them and verify that they weren’t introducing clutter and subsequent risk into their environment. “As the rule base continued to grow, it became increasingly complex and harder to keep track of the details,” says Anton Spitzer, Infrastructure Services Manager at Porsche Informatik. “Monitoring and auditing of our firewalls and clusters has become a painstaking manual, time and labor intensive process and we needed to handle it more effectively.” Porsche Informatik looked for a solution that would allow them to automatically and comprehensively manage the entire change lifecycle of their heterogeneous firewall infrastructure to improve and optimize operations, bolster security and comply with the corporate security policy in an easier way. Solution Porsche Informatik selected the AlgoSec Security Management solution to provide automated, comprehensive firewall operations and security risk management.In particular, Porsche Informatik liked AlgoSec’s auditing capability as it tracks changes in real-time as well as provides analysis of the operational and security implications of those changes. Results With AlgoSec, Porsche Informatik can now intelligently automate manual, labor and time intensive tasks, optimize firewall operations and improve network security while enforcing corporate policies to provide improved IT Governance.“AlgoSec allows our team to quickly and easily understand the operational and security impact of rule changes on our corporate policy, while at the same time provides a detailed audit trail, which is crucial for us to maintain compliance,” says Spitzer. From an operations and risk perspective, AlgoSec enables Porsche Informatik to instantly know which rules and objects are obsolete, invalid and duplicate and where potential security holes exist. The ability to clean up the firewall policy has streamlined network operations and given Porsche Informatik better visibility into their firewall infrastructure. “We cleaned up our existing policy base and now utilize the “what if” analysis to prevent the introduction of clutter and risk into our environment,” explains Spitzer.Ultimately, with AlgoSec, Porsche Informatik can now easily determine the necessity of changes and their potential security implications which saves time and effort. As a result productivity has increased without adding headcount. “After several months of use, AlgoSec has made a quantifiable impact on our firewall operations and security risk management. We know exactly what changes are being made, by whom and the implications of those changes on our operations and security posture,” said Spitzer. “We now spend much less time analyzing and auditing our firewalls, allowing our IT personnel to work on additional projects. As a customer-centric company, optimized internal operations directly benefits our clients by allowing Porsche Informatik to focus wholly on their needs instead of on firewall management.” Schedule time with one of our experts