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Get your application discovery and dependency mapping questions answered. Find clear explanations, best practices, and learn how to improve your understanding of your IT landscape. Application Discovery & Dependency Mapping Explained (FAQs) Introduction A network is the sum of its components, and if you want to ensure its functioning at the highest level, you need to be able to pinpoint every app that exists inside it. However, when the average company has 254 SaaS apps, identifying all the apps and dependencies that exist throughout an on-premise or cloud environment is easier said than done. Organizations cannot afford to rely on manual IP scanning to catalog or inventory each app their employees use every day; they need an AI-powered, automated, and scalable application discovery process. In this post we are going to examine what application discovery is, and how an automated dependency mapping tool can help. Schedule a Demo What is application discovery? Application discovery is the process of identifying and creating an inventory of the apps installed and used throughout an environment. This not only includes apps used within on-premise servers, but also those in the cloud, in containers, and even on employees’ personal devices. Discovering applications is essential for IT administrators because it helps to set out a framework they can use to navigate the network and understand how different elements fit together. It also enables security teams to manage the performance and security of the business apps used by the organization. Schedule a Demo What is a dependency mapping tool? A dependency mapping tool is essentially a tool that automatically maps apps and dependencies. A typical dependency mapping tool automates the discovery of applications within a network and provides a visual map to which an IT administrator can refer. Dependency mapping tools are a popular choice among IT teams because manually identifying and inventorying apps is a time-consuming process. Schedule a Demo Key benefits of application dependency mapping Taking the time to map application dependencies, or investing in a tool that automates the process, pays dividends because it provides administrators with a heightened understanding of their organization’s IT environment. Greater visibility over how apps connect to each other reduces the amount of time it takes to conduct troubleshooting and root cause analysis, which means that disruptions can be resolved faster, limiting the overall operational impact of downtime. Dependency mapping also enhances change management, giving administrators the ability to identify the impact that changing the topology or composition of the network will have on critical services. At the same time, better knowledge of the IT environment makes it easier to spot inefficiencies and redundancies, giving insights into more cost-effective ways of structuring the network and decreasing resource consumption. As an added bonus, having a complete understanding of application topology decreases the risk of vulnerabilities in the network, and reduces the likelihood of data leakage and intrusions from unauthorized third parties. Organizations interested in mapping application dependencies at scale would be well-advised to incorporate an application dependency mapping tool so they do not have to manually poll apps from scratch. Schedule a Demo Application discovery in cloud environments AlgoSec AlgoSec is the industry-leading AI-powered application and connectivity management solution for mapping apps, security policies, and connectivity flows across on-premise, hybrid, and multi-cloud environments. As a solution, it is designed to enable network security operations teams to map and understand app and connectivity flows through their organization. This top-down, topological perspective allows users to identify business risks and remediate them ASAP. For example, an administrator can use the platform to identify obsolete traffic that could serve as a potential entry point for malicious traffic. At a high level, application discovery not only helps administrators keep up with topology changes in the network and reduce the risk of downtime, it also provides the visibility needed to simplify the management of firewall and SSL configurations. Features Discovery of applications and connectivity flows Real-time map of app connectivity requirements Impact assessment of topology changes on application connectivity , security and compliance Complete easy-to-use workflows for streamlining migration to a new data center or cloud environment Zero-touch change management and access rule recertification Use cases Create a real-time map of applications and connectivity flows to outline network topology. Use workflows to support users who migrate apps as part of the data center migration process. Before migration, assess and predict the impact of topology changes on application connectivity, performance and security. Automatically configure application security policies post-migration. Amazon Web Services (AWS) and the AWS application discovery service AWS application discovery service is a common choice for migrating apps to an AWS environment. The AWS discovery service can automatically discover on-premise applications, and integrates with AWS Migration Hub to help migrate multiple applications at the same time. While this approach is useful for identifying applications in on-premise environments, unlike AlgoSec, it does not offer deep visibility into connectivity flows. It also offers limited support for cloud migration, lacking automated change management capabilities and migration workflows. Features The AWS application discovery service is designed to enable organizations to identify applications across AWS-powered cloud environments. The service includes the following features: Encrypt data in transit and at rest Create a snapshot of your on-premise application inventory Integrate discovery data with other AWS services, such as AWS Migration Hub and SMS Plan migrations for servers that share applications Connect applications to servers Group servers to migrate Mix agentless and agent-based approaches Use cases The main use case for AWS Application Discovery is discovering and creating an inventory of on-premise Information you can gather includes hostnames, IP addresses, MAC addresses and more. Map connections between applications and servers to create a visual representation of your network environment. Ingest utilization data to plan for your migration to the AWS Migration Hub. Microsoft Azure Migrate: Discovery and assessment tool One of the next biggest alternatives to the AWS application discovery service is the Microsoft Azure Migrate: Discovery and assessment tool. This solution enables users to automatically create an inventory of on-premise databases software, web apps, and SQL or AWS server instances. The Microsoft Azure Migrate: Discovery and assessment tool also integrates with Azure Monitor ’s Application Insight, an application monitoring solution. Oracle Cloud Infrastructure Oracle Cloud also offers its own migration tool designed to migrate on-premise applications and virtual machines from on-premise environments to Oracle Cloud Infrastructure using automated migration and provisioning. Oracle Cloud’s migration tool also offers templates, workflow automation and connectors for popular workloads including SQL Server, MySQL, Java, etc. Like Azure, Oracle Cloud also offers Application performance Monitoring integration. Schedule a Demo Other cloud providers and SaaS solutions Besides the top three cloud vendors, there are a number of other cloud security and SaaS-vendors offering application discovery capabilities. Some of these are listed below: Datadog Feature summary: Automated application and dependency mapping in real-time, alerts, latency graphs, and performance anomaly detection. Pros and cons: Rapid app and dependency mapping but beyond that lacks functionality for supporting cloud migrations. ManageEngine applications manager Feature summary: Application Discovery and Dependency Mapping (ADDM) with IP range application discovery, scheduled discoveries, scan summary reports, and a dependency map view. Pros and cons: IP range based discovery offers a broad view of apps and dependencies but does not offer migration workflows and change management capabilities. SolarWinds server & application monitor Feature summary: Polling to create application and dependency maps, tracking the response time of services, creating custom alerts for network latency, packet loss, and uptime monitoring. Pros and cons: Designed for monitoring application performance in on-premise environments, but it too lacks migration support. Schedule a Demo Application discovery in on-premises environments One of the main challenges that organizations face when trying to discover applications in on-premise environments is reliance on outdated legacy monitoring tools. Manually discovering and mapping applications is inefficient, and offers limited visibility over configuration data and metrics across the environment. Application discovery tools such as AlgoSec’s tools enable security teams to discover application dependencies and connections throughout the environment that could easily be overlooked by relying on manual approaches alone. Automation also opens the door for an organization to leverage virtualization technologies from providers like VMware and Hyper-V, which unlock new cloud-native capabilities that cannot necessarily be replicated on-premises. Schedule a Demo FAQs How does AlgoSec help with application discovery and asset management? AlgoSec can help you to discover, identify, and map applications across your on-premise and cloud environments in real-time using AI, so you can keep an up-to-date perspective of your entire network. How does AlgoSec help optimize traffic flows and improve firewall performance? Deploying AlgoSec enables an organization to scan traffic flows and match them to applications within the environment. Once you discovered traffic flows, you can start to automatically optimize application flows and the maximum number of flows per application in order to optimize your firewall throughput and performance for end users. How does AlgoSec help enforce security and compliance across the data center? Increased transparency of application, traffic and firewall flows makes it easier for IT security teams to assess the effectiveness of security policies in the environment, and creates an audit trail that can be used to manage potential compliance violations. Enhanced visibility makes it easier to maintain compliance and to ensure that security controls are effective at protecting your critical data assets from compromise or misuse. For example, administrators can automatically identify compliance gaps and generate compliance reports to document the state of firewalls and surrounding infrastructure to comply with PCI, HIPAA, SOX, and NERC. How does AlgoSec help with business continuity and disaster recovery? AlgoSec helps your organization to maintain business continuity not only through proactive network security policy management, but also by simplifying the process of migrating application connectivity flows and firewall policies to the cloud and ensuring compliance. Migrating your apps and data to a secondary site ensures that if your primary site is affected by a power outage or natural disaster, you will still be able to access critical information. Furthermore, according to an EMA survey, network security policy management also enhances business continuity by helping organizations to enforce more consistent security policies, conduct more proactive disaster recovery testing, and limit the number of change-related outages. How does AlgoSec help with data center migration? AlgoSec can help you to migrate your data center by discovering and mapping applications and connectivity flows, and connecting them to the relevant policies. Once these are discovered, the solution can migrate them to a new on-premise installation or cloud platform, while automatically identifying and removing obsolete and redundant firewall rules. This reduces the amount of overall manual processes associated with the migration. How does AlgoSec help with cloud cost optimization? AlgoSec’s application discovery and mapping capabilities help your organization to optimize costs in the cloud by giving you a reference point to conduct application performance monitoring and ensure that your cloud bandwidth is used efficiently. This ensures that you are getting the maximum throughput from your network infrastructure and are not being held back by outages or other application performance issues. What are ADDM solutions and their advantages? Application Discovery and Dependency Mapping (ADDM) is a category of software solutions that can map applications and dependencies to help human users understand how they connect together and interact. ADDM solutions are a popular choice for IT administrators because they enable users to identify and map dependencies automatically rather than spending a substantial amount of time locating them manually. How does application performance monitoring work? Application performance monitoring is where an organization monitors performance metrics from applications located throughout their environment. Monitoring application performance helps to generate insights into how to optimize system availability, performance and response time. It also helps to ensure that end users enjoy a solid user experience with minimal downtime. What are some common application discovery methods? There are a number of common application discovery methods that organizations can deploy. These include: Sweep and poll – A technique for discovering IT assets whereby a system pings IP addresses and identifies the devices that issue a response. Network monitoring – Monitoring real-time packet information to generate data on application dependencies. This can be done at the packet level by capturing packets or at the flow level with NetFlow. Agent on Server – A process for identifying applications that uses a software agent deployed to a server to conduct real-time monitoring of incoming and outgoing traffic in order to map dependencies. Orchestration-Level Discovery – Where an organization uses an orchestration platform like AlgoSec to discover applications and dependencies automatically without having to deploy agents to servers. What is the role of DevOps in application discovery? Application discovery plays an important role in the DevOps process because it enables development teams to work toward automated app deployment. Automating the discovery of apps and connectivity flows means that users do not need coding knowledge to understand the environment. Increased visibility also supports a DevSecOps strategy, offering security teams greater transparency over application components. For example, a security analyst can view apps and connected dependencies and get a clear perspective of the entire attack surface and potential vulnerabilities a hacker could exploit. What is the role of application discovery in cloud migration? Discovering applications and dependencies helps you to fast-track your cloud migration by identifying what components you need to move and allowing you to phase the deployment in steps. Schedule a Demo Take control of your network Gaining visibility over applications in your environment is a critical step on your journey toward enhancing your business agility and continuity and minimizing downtime. A better understanding of app topology helps administrators find risks and remediate them quickly to ensure ongoing compliance. If you cannot see how effectively your applications are being delivered, or how they perform, then there is no way to consistently optimize performance or enforce security policies. While manually developing an inventory of apps and dependencies is a time-consuming process, the AlgoSec platform can completely eliminate the need for this by discovering apps in real-time so you can see how these components connect to each other on-premise, and across the private or public cloud. Real-time visibility over apps gives you everything you need to manage performance, risk, and compliance challenges at enterprise pace. Schedule a Demo Select a size Introduction What is application discovery? What is a dependency mapping tool? Key benefits of application dependency mapping Application discovery in cloud environments Other cloud providers and SaaS solutions Application discovery in on-premises environments FAQs Take control of your network Get the latest insights from the experts Use these six best practices to simplify compliance and risk mitigation with the AlgoSec platform White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure Solution overview Learn how AlgoSec can help you pass PCI-DSS Audits and ensure Solution overview Choose a better way to manage your network

Gain in-depth application visibility with AlgoSec AppViz for Firewall Analyzer. Optimize security policies and uncover application risks across your network. AlgoSec AppViz – Application visibility for AlgoSec Firewall Analyzer ---- ------- Schedule a Demo Select a size ----- Get the latest insights from the experts Choose a better way to manage your network

State of cloud security: Concerns, challenges, and incidents Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

AlgoBot is an intelligent chatbot that answers your questions, in English Use this personal assistant for security policy change management processes AlgoBot Security bot for network security policy
management tasks AlgoBot, is an intelligent chatbot that handles network security policy management tasks for you. AlgoBot answers your questions, submitted in plain English, and personally assists with security policy change management processes – without requiring manual inputs or additional research. Offload day-to-day tasks from firewall and network administrators to provide faster and more intuitive service to internal customers Reduce ticket resolution time by giving the Support team the tools to ask – and get immediate answers – to security connectivity questions Respond to security incidents faster and more effectively Give application owners visibility into their application’s network security connectivity Improve the quality and speed of application deployments by allowing DevOps to incorporate security management directly into their processes. With AlgoBot you can: You can communicate with AlgoBot in English or in French, via Slack or Skype for Business, from the comfort of a chatroom or a mobile app. Self-service security policy management AlgoBot offloads day-to-day tasks from firewall and network administrators, by automatically answering typical security policy management questions and handling maintenance tasks. Ideal for a wide range of stakeholders including security teams and cyber analysts, application owners and developers, help desk, support, network, server and IT teams, AlgoBot can, for example: Check if traffic is currently allowed between IP addresses, servers and applications Open change requests to allow network connectivity Check on the status of a change request Check if a business application has a network connectivity problem Identify all applications associated with a specific IP address Identify applications impacted by a security incident Easy and convenient access to the AlgoSec security management solution AlgoBot gives firewall and network administrators an easy and convenient way to access the AlgoSec Security Management Solution, to quickly take care of security policy management maintenance tasks. Using AlgoBot, firewall and network administrators can, for example: Troubleshoot network connectivity issues and security incidents Check the status of change requests and approve changes Identify business applications affected by routine server or firewall maintenance, or server migrations Identify all applications associated with a specific IP address, together with the relevant contact people for each application and other application-specific information Isolate a compromised server from the network in response to an ongoing security incident Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Review the top 5 alternatives to Tufin Ratings, features, price, pros cons, and top use cases Top 5 Tufin alternatives & competitors (ranked & rated) Select a size Which network Can AlgoSec be used for continuous compliance monitoring? Yes, AlgoSec supports continuous compliance monitoring. As organizations adapt their security policies to meet emerging threats and address new vulnerabilities, they must constantly verify these changes against the compliance frameworks they subscribe to. AlgoSec can generate risk assessment reports and conduct internal audits on-demand, allowing compliance officers to monitor compliance performance in real-time. Security professionals can also use AlgoSec to preview and simulate proposed changes to the organization’s security policies. This gives compliance officers a valuable degree of lead-time before planned changes impact regulatory guidelines and allows for continuous real-time monitoring. Looking for an alternative to Tufin? Is Tufin your best security policy automation option? Top Tufin Competitors at a Glance 5 Top Tufin alternatives & competitors for 2023 1. AlgoSec 2. FireMon 3. Skybox Security Solutions 4. Cisco defence orchestrator 5. RedSeal The bottom line on Tufin competitors Get the latest insights from the experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Top 10 cloud security tips and best practices for 2025 Select a size Which network Can AlgoSec be used for continuous compliance monitoring? Yes, AlgoSec supports continuous compliance monitoring. As organizations adapt their security policies to meet emerging threats and address new vulnerabilities, they must constantly verify these changes against the compliance frameworks they subscribe to. AlgoSec can generate risk assessment reports and conduct internal audits on-demand, allowing compliance officers to monitor compliance performance in real-time. Security professionals can also use AlgoSec to preview and simulate proposed changes to the organization’s security policies. This gives compliance officers a valuable degree of lead-time before planned changes impact regulatory guidelines and allows for continuous real-time monitoring. Top 10 cloud security tips & best practices for 2025 This year’s cloud security recommendations look slightly different from previous years. There are two key reasons for this: New technologies like GenAI and agentic apps have emerged. Attackers are using more sophisticated techniques to exploit cloud assets and evade detection. For example, what used to be basic, easy-to-spot phishing has now become extensive vishing and deep-fake campaigns that even technical experts fall for. To stay ahead of 2025’s threats, the following cloud security best practices are essential. Quick review: What is cloud security and why are cloud security best practices important? Cloud security consists of the controls, policies, and technologies implemented for protecting cloud environments from threats. This includes data, services, applications, configurations, and GenAI models in the cloud. As access to technology has democratized how threat actors launch attacks, cloud security has taken on new meaning and is no longer solely about defense. With cutting-edge tools that often rival many organizations’ defenses at attackers’ disposal, proactive prevention is a must. 10 tips for cloud security Implementing the following recommendations will increase the security of your cloud assets and enhance your overall security posture. 1. Understand the shared responsibility model Traditionally, CSPs (e.g., AWS, Azure, GCP) handle securing your underlying cloud infrastructure and managed services. You, as the customer, need to secure everything running in the cloud (data, applications, configurations, etc.). However, with the arrival of GenAI, companies now also have to worry about safeguarding AI data and AI models. Tips: Understand and embrace your roles as specified by your provider. Establish explicit agreements with providers and supply chain vendors to ensure the integrity of third-party assets. Facilitate shared accountability. 2. Prioritize AI security New technologies come with unknown risks, and adopting them without proper safeguards is an invitation to attack. Tips: Use software composition analysis (SCA) to detect and block vulnerable AI packages to eliminate backdoors that hackers could exploit to attack your cloud environment. Protect your AI training data, model tuning pipelines, and inference endpoints with encryption, strict access controls, and AI-specific guardrails (e.g., model drift detection). Verify provider-enforced tenant isolation to safeguard your AI workloads from multi-tenant risks like data leakage and unauthorized access. Continuously monitor model behavior to spot common AI risks such as model poisoning and compromised AI APIs. Implement input/output validation using dedicated filtering tools (e.g., NVIDIA NeMo Guardrails) to block prompt injection, data exfiltration, and similar attacks. 3. Adopt shift-left security Shift-left security is the practice of securing cloud-native applications and APIs from the development phase. This dramatically reduces your threat footprint and remediation costs. Tips: Embrace secure coding ; integrate automated security and compliance checks (triggered at every pull request or commit) into the CI pipeline; this instantly flags and resolves vulnerable or non-compliant code before it goes live. Use secure container images from trusted sources; scanning for vulnerabilities enhances runtime security and minimizes potential attacker entry points. Store secrets securely (e.g., in HashiCorp Vault) and embed secret detection into developer workflows to uncover hardcoded secrets; this prevents threat actors from gaining a foothold in your cloud environment via exposed secrets. Shield-right as you shift-left, e.g., by enforcing real-time monitoring to detect any blind spots early; this helps deter hackers, who thrive on missed vulnerabilities. 4. Manage identity and access with least privilege and zero trust Embrace centralized identity and access management (IAM), defining policies that govern who can access what. Tips: Implement least privilege (e.g., via RBAC and ABAC), ensuring only essential human and machine identities can access cloud and AI workloads. Adopt a zero trust architecture, segmenting workloads and continuously verifying access rights with MFA, within and outside your network perimeter. Regularly review access rights to revoke unnecessary permissions. 5. Harden configurations Cloud assets, AI workloads, networks, and identities are all pretty easy to misconfigure—making them top causes of breaches. Tips: Validate IaC templates to eliminate security risks before code is shipped. Continuously assess cloud configurations to resolve publicly exposed assets fast. Autonomously enforce security policies with PaC for consistent security and compliance across hybrid and multi-cloud workloads. Enforce timely patching with automated patch management tools to fix vulnerabilities before they become attack vectors. Regularly audit firewall rules to spot misconfigurations that could compromise your cloud resources and networks. 6. Address shadow IT Shadow IT elements (e.g., unsanctioned VMs, data, APIs, and GPUs) are top security risks because they evade centralized governance and monitoring. Tips: Establish policies that balance security with productivity to eliminate the need to bypass centralized security. Automatically block unauthorized deployments from the source, using policies that require resources to be provisioned solely through approved templates. Continuously monitor data flows to discover and resolve shadow IT. 7. Embrace real-time monitoring, detection, and response Continuous monitoring spots threats and anomalies, such as unusual login patterns or configuration changes, before full-blown attacks occur. Tips: Track user behavior in real time to spot lateral movement, model misuse, and other early warning signs of attacks. Predict and prevent potential threats by using AI-powered analytics. Map external exposures to real-world attacker tactics, techniques, and procedures (TTPs) using frameworks like MITRE. 8. Encrypt data Encrypting data and storing encryption keys securely keeps data undecipherable in the event of a breach. However, with the rise of AI and edge computing, you need more than encryption in transit (TLS) and at rest (AES). Tips: Leverage confidential computing techniques like hardware-enforced trusted execution environments (TEEs) for encryption in use (during processing, e.g., for AI model training). Future-proof your data with quantum-resistant cryptography, like hash or code-based cryptography. 9. Automate compliance management Regulatory standards change frequently as technologies and security risks evolve. Companies must stay on top of their compliance posture . Tips: Use automated compliance management tools that keep up with evolving frameworks, including AI-specific standards like the NIST AI RMF and EU AI Act, as well as new policies from PCI DSS, NIST, etc. Maintain regular audit trails to provide audit-ready proof demonstrating your compliance with regulatory bodies and customers. 10. Incident management Having incident management procedures, including prevention and response playbooks, means teams are not left scrambling when incidents happen, i.e., when tensions are usually high and mistakes costly. Tips: Automate incident response with tools that offer autonomous context-based remediation and AI-augmented playbooks; this shortens the compromise-to-containment window. Educate teams on how to secure software development, safeguard third-party component usage, and deal with AI-powered phishing campaigns. Implementing cloud security best practices with AlgoSec Security breaches are costly, with the average figure now standing at $4.44 million , according to IBM’s 2025 Cost of a Data Breach Report. This number can go even higher due to outages, lawsuits, fines, and bad press. The cloud security best practices discussed in this post will help you stay ahead of 2025’s threat landscape and avoid unwanted impacts on your bottom line. AlgoSec can help. Designed to simplify robust cloud security in 2025 and beyond, it offers a suite of tools for cloud network security , cloud security and compliance , zero trust implementation , firewall management , incident response , and more. Get started on improving your cloud security. Sign up for a demo of AlgoSec today. Get the latest insights from the experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Looking to learn about cloud security compliance requirements and standards This article covers everything you need to know how AlgoSec can help your company Cloud compliance standards & security best practices ---- ------- Schedule a Demo Select a size ----- Get the latest insights from the experts Use these six best practices to simplify compliance and risk White paper Choose a better way to manage your network

Explore upcoming Algosec events to learn about the latest in network security, policy management, and compliance from industry experts Events Exhibition Frankfurt May 22, 2024 - May 23, 2024 Cloud and Cyber Expo – Frankfurt Messe Frankfurt Booth L070 Hall 8 Read More AlgoSec Events London June 05, 2024 Algocity London Good Hotel Western Gateway, Royal Victoria Dock London, E16 1FA 5th of June, 6PM. Read More Exhibition National Harbor, MD June 03, 2024 - June 05, 2024 Gartner Security & Risk Management Summit – US Gaylord National Resort & Convention Center, National Harbor, MD Read More Exhibition London June 04, 2024 - June 06, 2024 Infosec London Booth B69 Read More Exhibition Las Vegas June 02, 2024 - June 06, 2024 Cisco Live US 2024 Mandalay Bay Convention Center, Las Vegas, NV Booth 5960 in World of Solutions Read More Exhibition Philadelphia June 10-12, 2024 AWS re:Inforce Pennsylvania Convention Center, Philadelphia, PA AlgoSec Booth: 501 Read More Exhibit, Speaking Session Las Vegas August 27-29, 2024 Cisco GSX FY25 Mandalay Bay Hotel, Las Vegas, NV Booth number: 23 Read More Exhibition Bengaluru August 30th, 2024 Dine With DevOps Sheraton Grand Whitefield Hotel, Bengaluru Read More AlgoSec Event Riyadh September 3rd, 2024 AlgoCity Riyadh Voco, Riyadh Read More AlgoSec Event Dubai September 5th, 2024 AlgoCity Dubai Ritz Carlton, JBR, Dubai Read More Exhibition Atlanta, GA, US September 5, 2024 Mission Security 2024 The Westin Atlanta Perimeter North, Atlanta, GA, US Read More Exhibition Riyadh September 10th, 2024 MENA ISC with Amiviz 2024 Hilton Riyadh Hotel & Residences, Riyadh Booth number – P01 Booth: Pod 4 Read More Exhibition Toronto September 11, 2024 AWS Summit Toronto 2024 Metro Toronto Convention Centre, Toronto, Canada Booth number: 325 Read More Exhibition Montreal, QC, Canada September 11-12, 2024 GoSec 24 Palais des Congrès de Montréal, Montreal, QC, Canada Read More Exhibition Kansas City, MO, US September 18, 2024 2024 OptivCon Kansas City Arrowhead Stadium, Kansas City, MO, US Read More Exhibition Monaco 9th – 12th October, 2024 Les Assises Monaco Booth number: B08 Read More Exhibition Singapore October 15th -17th GovWare Singapore Sands Expo and Convention Centre Booth number – F20 | Booth E Read More Exhibition Dubai October 14th -18th Gitex Dubai World Trade Center Booth number – Hall 24 | A45 | Booth 7 Read More Exhibition Nurenberg Messe 22nd – 24th October , 2024 IT-SA 2024 Nurenberg Messe Booth number 7A-614 Read More Exhibition Melbourne, MCEC November 11th -14th Nov CISCO Live Melbourne Booth number – Stand S1 Read More Exhibition Malham | Saudi Arabia November 26th -28th Nov Black HAT MEA Booth number – Hall 1 | G 10 | Booth 7 Read More AlgoSec Event Washington, DC June 10th, 2025 Gartner Happy Hour Event Washington, DC Read More Exhibition San Diego, CA 8-12 June, 2025 Cisco Live San Diego, CA San Diego, CA Booth #2041 Read More Exhibition Ontario, CA June 13th, 2025 CXO Cyber Training Day & Dinner Ontario, CA Read More Exhibition Indiana, US July 31st, 2025 (IN) Nug Indianapolis Indiana, US Read More Exhibit Atlanta August 20th, 2025 Mission: Security’ 25 Westin Atlanta Perimeter North, Atlanta, GA Read More Exhibit, Speaking Session Las Vegas 26-28 of August, 2025 Cisco GSX FY26 Mandalay Bay Hotel Read More Exhibit Minneapolis September 10th, 2025 OptivCon Minneapolis US Bank Stadium Read More Exhibit, Speaking Session Mexico City, Mexico September 30 – October 1, 2025 Infosecurity Mexico Centro Banamex, Mexico City, Mexico Read More AlgoSec Event Nurenburg October 7th, 2025 ITSA EXPO Nurenburg Read More Exhibition Monaco 8-11 October, 2025 Les Assises Monaco Read More Exhibition Dubai 13-17 October, 2025 GITEX Dubai Read More Exhibition Orlando, FL 27-29 October, 2025 InfoSec World Orlando, FL Read More Exhibit Philadelphia October 29th, 2025 GPSEC Philadelphia Convene, Philadelphia, PA Read More Exhibit Phoenix October 30, 2025 OptivCon Phoenix Phoenix, AR Read More Exhibit Wastlake October 29-31, 2025 ISS+ Cleveland Wastlake, Ohio Read More Exhibition Melbourne 10-13 November, 2025 Cisco Live Melbourne Read More Exhibition Riyadh 24-26 November, 2025 Black Hat Riyadh Read More Exhibit Philadelphia December 5th, 2025 B Sides Philly 2025 Live Casino Hotel, 900 Packer Ave., Philadelphia, PA 19148 Read More Exhibit Las Vegas, NV March 9-13th, 2026 Fortinet Acceleter Mandalay Bay Convention Center Read More Exhibit San Francisco, CA March 23-26th, 2026 RSA Conference 2026 Moscone Center Read More Exhibit Las Vegas, NV May 31-June 4th, 2026 Cisco Live 2026 Mandalay Bay Convention Center Read More Region Event type Date No upcoming events. Visit us soon for new events 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

Efficiently improve network security and performance by cleaning up and optimizing your firewall rules Streamline operations and meet compliance requirements with ease Firewall rule cleanup & performance optimization tool Select a size Which network Can AlgoSec be used for continuous compliance monitoring? Yes, AlgoSec supports continuous compliance monitoring. As organizations adapt their security policies to meet emerging threats and address new vulnerabilities, they must constantly verify these changes against the compliance frameworks they subscribe to. AlgoSec can generate risk assessment reports and conduct internal audits on-demand, allowing compliance officers to monitor compliance performance in real-time. Security professionals can also use AlgoSec to preview and simulate proposed changes to the organization’s security policies. This gives compliance officers a valuable degree of lead-time before planned changes impact regulatory guidelines and allows for continuous real-time monitoring. Streamlining firewall policies: cleanup & optimization Dangers of outdated firewall rulesets How to audit your existing firewall policy How to properly perform a firewall cleanup Firewall optimization best practices Automate firewall configurations with AlgoSec Get the latest insights from the experts Use these six best practices to simplify compliance and risk mitigation with the AlgoSec Copy White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure Copy Solution overview See how this customer improved compliance readiness and risk Copy Case study Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Learn about the Center for Internet Security (CIS) Controls and how they enhance your cybersecurity posture. Discover how AlgoSec helps achieve and maintain CIS compliance. What is CIS Compliance? (and How to Apply CIS Benchmarks) What are CIS benchmarks? CIS provides best practices to help companies like yours improve their cloud security posture. You’ll protect your systems against various threats by complying with its benchmark standards. This post will walk you through CIS benchmarks, their development, and the kinds of systems they apply to. We will also discuss the significance of CIS compliance and how Prevasio may help you achieve it. CIS stands for Center for Internet Security . It’s a nonprofit organization that aims to improve companies’ cybersecurity readiness and response. Founded in 2000, the CIS comprises cybersecurity experts from diverse backgrounds. They have the common goal of enhancing cybersecurity resilience and reducing security threats. CIS compliance means adhering to the Center for Internet Security (CIS) benchmarks. CIS benchmarks are best practices and guidelines to help you build a robust cloud security strategy. These CIS benchmarks give a detailed road map for protecting a business’s IT infrastructure. They also encompass various platforms, such as web servers or cloud bases. The CIS benchmarks are frequently called industry standards. They are normally in line with other regulatory organizations, such as ISO, NIST, and HIPAA. Many firms adhere to CIS benchmarks to ensure they follow industry standards. They also do this to show their dedication to cybersecurity to clients and stakeholders. The CIS benchmarks and CIS controls are always tested through on-premises analysis by leading security firms. This ensures that CIS releases standards that are effective at mitigating cyber risks. Schedule a Demo How are the CIS benchmarks developed? A community of cybersecurity professionals around the world cooperatively develops CIS benchmarks. They exchange their knowledge, viewpoints, and experiences on a platform provided by CIS. The end result is consensus-based best practices that will protect various IT systems. The CIS benchmark development process typically involves the following steps: 1. Identify the technology: The first step is to identify the system or technology that has to be protected. This encompasses a range of applications. It can be an operating system, database, web server, or cloud environment. 2. Define the scope: The following stage is to specify the benchmark’s parameters. It involves defining what must be implemented for the technology to be successfully protected. They may include precise setups, guidelines, and safeguards. 3. Develop recommendations: Next, a community of cybersecurity experts will identify ideas for safeguarding the technology. These ideas are usually based on current best practices, norms, and guidelines. They may include the minimum security requirements and measures to be taken. 4. Expert consensus review: Thereafter, a broader group of experts and stakeholders assess the ideas. They will offer comments and suggestions for improvement. This level aims to achieve consensus on the appropriate technical safeguards. 5. Pilot testing: The benchmark is then tested in a real-world setting. At this point, CIS aims to determine its efficacy and spot any problems that need fixing. 6.Publication and maintenance: The CIS will publish the benchmark once it has been improved and verified. The benchmark will constantly be evaluated and updated to keep it current and useful for safeguarding IT systems. Schedule a Demo What are the CIS benchmark levels? CIS benchmarks are divided into three levels based on the complexity of an IT system. It’s up to you to choose the level you need based on the complexity of your IT environment. Each level of the benchmarks offers better security recommendations than the previous level. The following are the distinct categories that benchmarks are divided into: Level 1 This is the most basic level of CIS standards. It requires organizations to set basic security measures to reduce cyber threats. Some CIS guidelines at this level include password rules, system hardening, and risk management . The level 1 CIS benchmarks are ideal for small businesses with basic IT systems. Level 2 This is the intermediate level of the CIS benchmarks. It is suitable for small to medium businesses that have complex IT systems. The Level 2 CIS standards offer greater security recommendations to your cloud platform. It has guidelines for network segmentation, authentication, user permissions, logging, and monitoring. At this level, you’ll know where to focus your remediation efforts if you spot a vulnerability in your system. Level 2 also covers data protection topics like disaster recovery plans and encryption. Level 3 Level 3 is the most advanced level of the CIS benchmarks. It offers the highest security recommendations compared to the other two. Level 3 also offers the Security Technical Implementation Guide (STIG) profiles for companies. STIG are configuration guidelines developed by the Defense Information Systems Agency. These security standards help you meet US government requirements. This level is ideal for large organizations with the most sensitive and vital data. These are companies that must protect their IT systems from complex security threats. It offers guidelines for real-time security analytics, safe cloud environment setups, and enhanced threat detection. Schedule a Demo What types of systems do CIS benchmarks apply to? The CIS benchmarks are applicable to many IT systems used in a cloud environment. The following are examples of systems that CIS benchmarks can apply to: Operating systems: CIS benchmarks offer standard secure configurations for common operating systems, including Amazon Linux, Windows Servers, macOS, and Unix. They address network security, system hardening, and managing users and accounts. Cloud infrastructure: CIS benchmarks can help protect various cloud infrastructures, including public, private, and multi-cloud. They recommend guidelines that safeguard cloud systems by various cloud service providers. For example, network security, access restrictions, and data protection. The benchmarks cover cloud systems such as Amazon Web Services (AWS), Microsoft Azure, IBM, Oracle, and Google Cloud Platform. Server software: CIS benchmarks provide secure configuration baselines for various servers, including databases (SQL), DNS, Web, and authentication servers. The baselines cover system hardening, patch management, and access restrictions. Desktop software: Desktop apps such as music players, productivity programs, and web browsers can be weak points in your IT system. CIS benchmarks offer guidelines to help you protect your desktop software from vulnerabilities. They may include patch management, user and account management, and program setup. Mobile devices: The CIS benchmarks recommend safeguarding endpoints such as tablets and mobile devices. The standards include measures for data protection, account administration, and device configuration. Network devices: CIS benchmarks also involve network hardware, including switches, routers, and firewalls. Some standards for network devices include access restrictions, network segmentation, logging, and monitoring. Print devices: CIS benchmarks also cover print devices like printers and scanners. The CIS benchmark baselines include access restrictions, data protection, and firmware upgrades. Schedule a Demo Why is CIS compliance important? CIS compliance helps you maintain secure IT systems. It does this by helping you adhere to globally recognized cybersecurity standards. CIS benchmarks cover various IT systems and product categories, such as cloud infrastructures. So by ensuring CIS benchmark compliance, you reduce the risk of cyber threats to your IT systems. Achieving CIS compliance has several benefits: Your business will meet internationally accepted cybersecurity standards The CIS standards are developed through a consensus review process. This means they are founded on the most recent threat intelligence and best practices. So you can rely on the standards to build a solid foundation for securing your IT infrastructure. It can help you meet regulatory compliance requirements for other important cybersecurity frameworks CIS standards can help you prove that you comply with other industry regulations. This is especially true for companies that handle sensitive data or work in regulated sectors. CIS compliance is closely related to other regulatory compliances such as NIST, HIPAA, and PCI DSS. By implementing the CIS standards, you’ll conform to the applicable industry regulations. Achieving CIS continuous compliance can help you lower your exposure to cybersecurity risks In the process, safeguard your vital data and systems. This aids in preventing data breaches, malware infections, and other cyberattacks. Such incidents could seriously harm your company’s operations, image, and financial situation. A great example is the Scottish Oil giant, SSE. It had to pay €10M in penalties for failing to comply with a CIS standard in 2013. Abiding by the security measures set by CIS guidelines can help you achieve your goals faster as a business The guidelines cover the most important and frequently attacked areas of IT infrastructure. CIS compliance enhances your general security posture It also decreases the time and resources needed to maintain security. It does this by providing uniform security procedures across various platforms. Schedule a Demo How to achieve CIS compliance? Your organization can achieve CIS compliance by conforming to the guidelines of the CIS benchmarks and CIS controls. Each CIS benchmark usually includes a description of a recommended configuration. It also usually contains a justification for the implementation of the configuration. Finally, it offers step-by-step instructions on how to carry out the recommendation manually. While the standards may seem easy to implement manually, they may consume your time and increase the chances of human errors. That is why most security teams prefer using tools to automate achieving and maintaining CIS compliance. CIS-hardened images are great examples of CIS compliance automation tools. They are pre-configured images that contain all the necessary recommendations from CIS benchmarks. You can be assured of maintaining compliance by using these CIS-hardened images in your cloud environment. You can also use CSPM tools to automate achieving and maintaining CIS compliance. Cloud Security Posture Management tools automatically scan for vulnerabilities in your cloud. They then offer detailed instructions on how to fix those issues effectively. This way, your administrators don’t have to go through the pain of doing manual compliance checks. You save time and effort by working with a CSPM tool. Schedule a Demo Use Prevasio to monitor CIS compliance. Prevasio is a cloud-native application platform (CNAPP) that can help you achieve and maintain CIS compliance in various setups, including Azure, AWS, and GCP. A CNAPP is basically a CSPM tool on steroids. It combines the features of CSPM, CIEM, IAM, and CWPP tools into one solution. This means you’ll get clearer visibility of your cloud environment from one platform. Prevasio constantly assesses your system against the latest version of CIS benchmarks. It then generates reports showing areas that need adjustments to keep your cloud security cyber threat-proof. This saves you time as you won’t have to do the compliance checks manually. Prevasio also has a robust set of features to help you comply with standards from other regulatory bodies. So using this CSPM tool, you’ll automatically comply with HIPAA, PCI DSS, and GDPR. Prevasio offers strong vulnerability evaluation and management capabilities besides CIS compliance monitoring. It uses cutting-edge scanning algorithms to find known flaws, incorrect setups, and other security problems in IT settings. This can help you identify and fix vulnerabilities before fraudsters can exploit them. Schedule a Demo The bottom line on CIS compliance Achieving and maintaining CIS compliance is essential in today’s continually changing threat landscape . However, doing the compliance checks manually takes time. You may not also spot weaknesses in your cloud security in time. This means that you need to automate your CIS compliance. And what better solution than a cloud security posture management tool like Prevasio? Prevasio is the ideal option for observing compliance and preventing malware that attack surfaces in cloud assets. Prevasio offers a robust security platform to help you achieve CIS compliance and maintain a secure IT environment. This platform is agentless, meaning it doesn’t run on the cloud like most of its competitors. So you save a lot in costs every time Prevasio runs a scan. Prevaiso also conducts layer analysis. It helps you spot the exact line of code where the problem is rather than give a general area. In the process, saving you time spent identifying and solving critical threats. Schedule a Demo Select a size What are CIS benchmarks? How are the CIS benchmarks developed? What are the CIS benchmark levels? What types of systems do CIS benchmarks apply to? Why is CIS compliance important? How to achieve CIS compliance? Use Prevasio to monitor CIS compliance. The bottom line on CIS compliance Get the latest insights from the experts Cloud-Native Application Protection Platform (CNAPP) Read more Hybrid cloud management: All you need to know Learn more Prevasio CNAPP data-sheet Solution brochure Choose a better way to manage your network

Learn best practices for effective network firewall security management. Enhance your security posture with proper configuration, monitoring, and maintenance. Network firewall security management What are network firewalls? Network firewalls are the first round of defense against a wide range of external threats. Firewall policies filter incoming traffic to protect the network ecosystem from cyberattacks. Network traffic that doesn’t meet filter criteria gets blocked. Security teams continually optimize their organization’s firewall configuration to address new and emerging threats. Schedule a Demo Network firewall security challenges Network infrastructure is more complex than ever before. In the early days, your network firewall sat at the perimeter of your data center. Today, you may have a variety of firewalls operating on-premises, in public and private clouds, in a software-defined network, or a multi-cloud hybrid environment. Security leaders face four main challenges when implementing, maintaining and improving firewall performance: Complexity – The more individual firewall solutions your network relies on, the harder it is to analyze, configure, and scale firewall-related workflows. Visibility – The traffic flows over your network are complex. Lack of visibility over traffic flows makes managing firewall policies more difficult. Automation – Network firewalls have hundreds of security policies. Spread over multiple devices, manual management is difficult and time-consuming. Automation of network security management is the solution. Compliance – Proper configuration of your network security devices is a common regulatory requirement. Make sure you can demonstrate compliance. 1. Managing firewall configuration in a complex environment Since early networks were mostly on-premises, managing firewall configuration changes in real-time was simple. Once the cybersecurity team identified firewall changes they wanted to make, a single employee could upload those changes to the organization’s Cisco PIX device and call it a day. Today’s networks simply don’t work that way. They are designed to be scalable, supporting a wide range of endpoint devices and cloud-based applications with a much wider attack surface than ever before. Security teams must protect their networks against a more sophisticated set of attacks, including malware that leverages zero-day vulnerabilities and other unknown threats. At the same time, they must accommodate both users and attackers equipped with modern security tools like VPNs. The modern organization must deploy a wide range of firewalls, including hardware devices physically connected to local routers, software firewalls for hybrid cloud environments, and next-generation firewalls equipped with analyzers that can proactively detect unknown threats. Security leaders need to streamline visibility into firewall configuration, orchestration, and management through a single pane of glass. This ensures optimal firewall performance for both on-premises and cloud security solutions, while freeing team members to spend more time on higher impact strategic security goals. 2. Firewall deployments can compromise visibility into security processes Modern organizations with complex network configurations often don’t enjoy deep visibility into their security processes and event outcomes. Many third-party managed security vendors don’t offer in-depth data about their processes at all. Security leaders are often asked to simply trust that vendors provide enough value to justify premium pricing. But losing visibility into security processes makes it extremely challenging to improve those processes. It puts security leaders in the uncomfortable position of defending security outcomes they don’t have adequate data to explain. In the event of a negative outcome, it’s almost impossible to explain exactly what went wrong and why. If a particular firewall policy is ultimately responsible for that outcome, security leaders need to know. Effective firewall security management isn’t possible without deep visibility into firewall policies, and how those rules impact day-to-day business operations in real-time. Obtaining this kind of visibility in a complex network environment is not easy, but it’s vital to long-term success. 3. Manual configuration changes are costly and error-prone Increasing configuration errors are another knock-on consequence of the trend towards bigger and more complex networks. Where early network security professionals only had to update firewall rules for a handful of devices, now they must accommodate an entire stack of solutions made by different manufacturers, with complicated interdependencies between them. Most organizations rely on multiple providers for their full firewall stack. They may use Cisco hardware, Checkpoint next-generation firewalls, Tufin firewall management software, and Firemon asset management all at the same time. Managing and troubleshooting this kind of deployment without comprehensive firewall security management software is difficult and time-consuming. Security misconfigurations as a whole are responsible for more than one-third of all cyberattacks. This demonstrates the urgent need for security leaders to automate the process of configuring, updating, and validating firewall changes on complex networks. AlgoSec provides security leaders with a robust set of tools for automating network security policy updates and firewall changes without requiring organizations to dedicate additional employee-hours to time-consuming manual processes. 4. Don’t forget to document policy changes for compliance Security policy management is an important part of overall security compliance. Adhering to the latest security standards published by reputable organizations allows security leaders to meaningfully reduce cybersecurity risk. Documents like the NIST Cybersecurity Framework provide clear guidance into how organizations should address core functions in their security strategy, which includes deploying and updating firewalls. In particular, NIST Special Publication 800-41 describes the guidelines for firewall policies, requiring that they be based on comprehensive risk assessment for the organization in question. The guidelines also require that organizations with multiple firewalls sharing the same rules (or common subsets of rules) must have those rules synchronized across those firewalls. Importantly, all these changes must be documented. This requirement adds significant risk and complexity to network environments that rely on manual configuration processes. Even if you successfully implement changes the right way, reporting discrepancies can negatively impact your organization’s regulatory position. AlgoSec generates compliance reports for NIST SP 800-53 as a built-in feature, available right out of the box. Organizations that use AlgoSec to automate firewall security management and policy changes can ensure compliance with stringent security standards without having to commit valuable security resources to manually verifying reports. Schedule a Demo Firewall security management FAQs Understanding the network security devices in your network is crucial to maintaining your network’s security. What are some common network security devices? Network security devices include application and network firewalls, which are the most popular network security devices. However, your network may have other devices such as intrusion detection and protection systems, antivirus scanning devices, content filtering devices, as well as pen testing devices, and vulnerability assessment appliances. What is an application firewall? An application firewall controls access from an application or service, monitoring or blocking the system service calls that do not meet the firewall’s configured policy. The application firewall is typically built to control network traffic up to the application layer. What is a firewall device and how do firewalls work? A firewall is a network security device that monitors network traffic and decides whether to allow or deny traffic flows based on a defined set of security rules. Firewalls can be physical hardware devices, software, or both. What is network security management? Network security management lets network administrators manage their network, whether on-premises, in the cloud, or a hybrid network, consisting of physical and virtual single and multi-vendor firewalls. What are some challenges in network security management? Network administrators need to get clear and comprehensive visibility into network behavior, automate single and multi-vendor device configuration, enforce global network security policies, view network traffic, and generate audit-ready compliance reports across their entire network. Network administrators must continuously deploy security policies across the network. Yet, there may be thousands of firewall policies accumulated over the years. Frequently, they are cluttered, duplicated, outdated, or conflict with new rules. This can adversely affect the network’s security and performance. Schedule a Demo Additional firewall security features How AlgoSec Helps with Network Firewall Security: End-to-end network visibility Get visibility of the underlying security policies implemented on firewalls and other security devices across the network. Understand your network’s traffic flows. Gain insights into how they relate to critical business applications so you can associate your security policies to their business context. Find unused firewall rules Enabling unused rules to be included in a policy goes against best practices and may pose a risk to the organization. The AlgoSec platform makes it easy to find and identify unused rules within your firewall policy. Associate policy rules with business applications Firewall rules support applications or processes that require network connectivity to and from specific servers, users, and networks. The AlgoSec AppViz add-on automatically associates the relevant business application that each firewall rule supports, enabling you to review associated firewall rules quickly and easily. Manage multi-vendor devices across your entire hybrid network Each firewall vendor often has its own management console, but your network is made up of multiple devices from an assortment of vendors. Ensure continuous compliance Simplify and reduce audit preparation efforts and costs with out-of-the-box audit reports for major regulations including PCI DSS, HIPAA, SOX, NERC, and GDPR. Schedule a Demo Network firewall security tips Conduct a network security audit Periodically auditing your network security controls are critical. Network security audits help to identify weaknesses in your network security posture so you know where your security policies need to be adapted. Firewall audits also demonstrate that you have been doing your due diligence in reviewing security controls and policy controls. Consider micro-segmentation By building and implementing a micro-segmentation strategy , networks can be broken down into multiple segments and made safer against potential breaches by dangerous cybercriminals and hackers. Conduct periodic compliance checks Your network firewalls are a critical part of many regulatory requirements . Ensuring that your network firewalls comply with critical regulations is a core part of your network security posture. Periodically evaluate your firewall rules Following firewall rules best practices, you should periodically evaluate your firewall rules. Identify and consolidate duplicate rules, remove obsolete or unused firewall rules, and perform periodic firewall rule recertification . Schedule a Demo Select a size What are network firewalls? Network firewall security challenges Firewall security management FAQs Additional firewall security features Network firewall security tips Get the latest insights from the experts Firewall rule recertification - An application-centric approach Watch webinar Firewalls ablaze? Put out network security audit & compliance fires Watch webinar Firewall rule recertification Read document Choose a better way to manage your network

Zero trust vs micro segmentation Select a size Which network Can AlgoSec be used for continuous compliance monitoring? Yes, AlgoSec supports continuous compliance monitoring. As organizations adapt their security policies to meet emerging threats and address new vulnerabilities, they must constantly verify these changes against the compliance frameworks they subscribe to. AlgoSec can generate risk assessment reports and conduct internal audits on-demand, allowing compliance officers to monitor compliance performance in real-time. Security professionals can also use AlgoSec to preview and simulate proposed changes to the organization’s security policies. This gives compliance officers a valuable degree of lead-time before planned changes impact regulatory guidelines and allows for continuous real-time monitoring. Microsegmentation Zero Trust: How Microsegmentation Drives Zero Trust Success Microsegmentation zero trust is the practice of enforcing zero trust principles through fine‑grained, application‑aware segmentation at the workload and service level. Companies today are turning to microsegmentation, a granular form of network segmentation, to contain attacks quickly, prove least‑privilege access, and simplify compliance across hybrid environments. Despite still having to spend an average of $4.4 million per breach, according to IBM's Cost of a Data Breach Report 2025 , this is 9% lower than 2024. That drop ties directly to faster identification and containment—outcomes microsegmentation accelerates by limiting lateral movement and shrinking the blast radius from the first indicator of compromise. In yet another study, Verizon’s 2025 Data Breach Investigations Report , more than 12,000 confirmed breaches demonstrated how multi-stage intrusions use lateral movement, which microsegmentation technology directly addresses. Meanwhile, the Payment Card Industry Data Security Standard (PCI DSS) requires network segmentation for system scope reduction, which leads to decreased audit work and better system isolation. Taken together, these findings underscore a simple point: Organizations need application‑aware controls—specifically microsegmentation—to stop attackers from moving between systems and to operationalize zero trust. This article discusses the zero trust vs. micro‑segmentation debate, explains how zero trust and microsegmentation in fact work together, and provides a path to design, enforce, and operate this approach. What Is Microsegmentation? Microsegmentation divides networks into small, secure domains that match workload requirements and user/service identities with explicit allow‑rules to stop lateral movement. Network security today benefits from application-based boundaries, i.e., policies applied where applications actually communicate—not just subnets and VLANS. In practice, that means protecting individual workloads and the communication between them across data centers, public clouds, containers, and endpoints—rather than vaguely “protecting components” or “locations.” What Is the Difference Between Traditional (Macro) and Micro-Segmentation This comparison comes down to a difference in approach: Macro-segmentation uses broad VLANs and subnets or DMZs to divide network tiers; while this provides limited east-west control, it is simpler to design. Micro-segmentation uses SDN and host agents, as well as cloud security groups; application-specific policies are enforced at the workload/service boundary, which is why they are the engine of microsegmentation zero trust. What Role Do Firewalls and Network Segmentation Layers Play in Microsegmentation? Your existing perimeter and internal firewalls provide north‑south control, compliance zones, and enforcement points that microsegmentation can orchestrate. In other words, microsegmentation complements firewalls and network segmentation layers—it does not replace them. Extending the point above: Microsegmentation orchestrates those firewall and segmentation layers to deploy least‑privilege across hybrid systems—specifically: Cloud security groups NACLs SDN fabrics Kubernetes policies Host-based controls Since these layers are complementary, they collectively shrink the blast radius. What Is Zero Trust? Zero trust is a security concept, not a product or service. The system uses identity-based dynamic authorization, which takes into account device health status and environmental context—instead of traditional static location-based access methods. Verification is continuous because environments and risk conditions evolve. Zero trust verifies every access decision—no implicit trust—and enforces least privilege Zero Trust vs. Micro‑Segmentation: Complementary Forces While zero trust operates as an operational framework, microsegmentation functions as an implementation methodology. While zero trust explains what needs protection and which aspects require protection, microsegmentation provides the how. The table below breaks down the two concepts across key parameters. Aspect Zero Trust (Strategy) Microsegmentation (Mechanism) Focus Identity, posture, continuous verification Allowed app/workload flows Scope Enterprise‑wide architecture App tiers, services, identities Enforcement Policies derived from context and risk SDN, host agents, security groups, firewalls Outcome Minimized implicit trust; provable least‑privilege Contained blast radius; fewer lateral‑movement paths What Is Microsegmentation Zero Trust? The combination of zero trust and microsegmentation forms microsegmentation zero trust—a strategy connected to enforcement. The three primary goals of this approach are: Risk reduction Lateral movement prevention Least privilege verification Microsegmentation zero trust applies zero trust principles—continuous verification and least privilege—by defining and enforcing explicit, application‑aware allow‑rules between identities, services, and workloads. Why Does Microsegmentation Zero Trust Matter? It matters because it measurably reduces lateral movement paths and speeds incident containment. Authorized paths are explicitly permitted communication flows (service A to service B on port X from an approved identity) that have been validated as necessary for the application to function. Pre‑defining and testing these authorized paths speeds deployment because changes ship with pre-validated, least‑privilege policies—reducing last‑minute firewall rework, minimizing approvals, and preventing rollback from unexpected blocks. Implementing Microsegmentation to Achieve Zero Trust Microsegmentation is a continuous process, consisting of multiple stages to successfully achieve zero trust. Asset & Dependency Discovery Start by analyzing the network traffic behavior of applications and workloads in traditional on-premises setups, public clouds, and container environments. This application-first view serves as the base for zero trust segmentation, which stops security gaps from occurring. Policy Creation Create allow‑lists for individual app components and identity groups based on observed application traffic flows (sources/destinations, ports, processes) and documented business requirements, then validate with “what‑if” simulations before production. Enforcement Implement the approved policy through current controls—cloud security groups, firewalls, SDN fabrics, host controls, and Kubernetes—to achieve uniform protection across hybrid and multi-cloud systems. Continuous Monitoring & Adaptive Policy Continuously monitor for drift, prune unused rules, and adjust policies using detection data—without re‑introducing broad implicit trust or “allow any” access. Challenges & Pitfalls to Avoid Security organizations that operate effectively still encounter various obstacles when implementing microsegmentation: Lack of visibility in application maps: When third-party or SaaS endpoints and ephemeral services (containers, serverless functions) are not properly documented, visibility suffers. The fix? Run continuous dependency discovery operations while keeping tags and labels up to date. Focusing solely on network-based controls: Ignoring workload and identity context can weaken your security measures. The fix? Use service accounts, workload identities, namespaces, and labels as the basis for policy connections whenever possible. Relying on a single technology: Depending only on firewalls or security groups can create gaps in your security posture. The fix? Implement security orchestration using a combination of firewalls, SDN security groups, and Kubernetes network policies. Manual exception handling: Human intervention creates delays, slowing down release cycles. The fix? Orchestrate a combination of controls—next‑gen firewalls, SDN fabrics, cloud security groups, and Kubernetes network policy—so each layer covers the others. AlgoSec's Microsegmentation‑Driven Zero Trust Platform In today's fast-paced digital landscape, the combination of speed and safety is not just important—it's imperative. Zero Trust security delivered by AlgoSec’s unified platform enables companies to successfully implement microsegmentation across data centers, clouds, and Kubernetes. The platform begins with an application-first method, allowing users to clearly see their workloads and intricate patterns. AlgoSec provides immediate connectivity between different environments—on-premises systems, public clouds, and containers—to detect lateral movement paths and compliance issues fast. Beyond basic observability, AlgoSec maps security policy to business applications and services so that teams can simulate proposed changes, quantify risk in business terms, and validate least‑privilege before anything reaches production.. This proactive method validates the least privilege principle, protecting against security breaches and outages. AlgoSec integrates with next-generation firewalls, SDN fabrics and cloud security groups, and Kubernetes to enforce the same intent everywhere, orchestrating changes so rules remain consistent across hybrid and multi‑cloud environments. To see microsegmentation zero trust in action with AlgoSec, schedule a demo today. Get the latest insights from the experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue