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Industry’s First Dynamic Analysis of 4 million Publicly Available Docker Hub Container Images Download PDF Download PDF Add a Title Add a Title Add a Title 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

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Learn how Microsoft Azure and AlgoSec solutions help companies improve visibility and identify risk in large complex hybrid networking environments Webinars Joint webinar with Microsoft Azure - Understanding Hybrid Network Security Learn how Microsoft Azure and AlgoSec solutions help companies improve visibility and identify risk in large complex hybrid networking environments In this joint webinar with Microsoft, we discuss the challenges in these hybrid networks and how Microsoft Azure and AlgoSec are helping companies leverage cloud technologies to add more capacity and business applications without increasing their exposure to security risk. During the webinar you will hear Yuval Pery, the Product Manager for Azure Network Security at Microsoft, review and discuss the security features and options available with Microsoft Azure. We also have Yoav Yam-Karnibad, the Product Manager for Cloud Network Security at AlgoSec, show the integrations that exist today between AlgoSec and Microsoft Azure that help improve visibility and identify and prioritize risk in today’s hybrid environments. September 14, 2023 Yoav Yam-Karnibad Product Manager, Cloud Network Security at AlgoSec Yuval Pery Product Manager, Azure Network Security at Microsoft Relevant resources Firewall Rule Recertification with Application Connectivity Keep Reading AlgoSec Cloud for Microsoft Azure Keep Reading Firewall management services
Proactive network security 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

AlgoSec Horizon ObjectFlow Download PDF Download PDF Add a Title Add a Title Add a Title 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

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Learn best practices to secure your cloud environment and deliver applications securely Webinars Master the Zero Trust strategy for improved cybersecurity Learn how to implement zero trust security into your business In today’s digital world, cyber threats are becoming more complex and sophisticated. Businesses must adopt a proactive approach to cybersecurity to protect their sensitive data and systems. This is where zero trust security comes in – a security model that requires every user, device, and application to be verified before granting access. If you’re looking to implement zero trust security in your business or want to know more about how it works, you’ll want to watch this webinar. AlgoSec co-Founder and CTO Avishai Wool will discuss the benefits of zero trust security and provide you with practical tips on how to implement this security model in your organization. March 15, 2023 Prof. Avishai Wool CTO & Co Founder AlgoSec Relevant resources Protecting Your Network’s Precious Jewels with Micro-Segmentation, Kyle Wickert, AlgoSec Watch Video Professor Wool - Introduction to Microsegmentation Watch Video Five Practical Steps to Implementing a Zero-Trust Network 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

Enable visibility across your hybrid network, optimize firewall rules, and prioritize risks. Unlock Proactive Network Security & Effortless Compliance with Horizon Security Analyzer Schedule A Personal Demo Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue Join Cisco, Ernst & Young, Nationwide, HCLTech, and AlgoSec, to learn about the top compliance challenges and how other companies are securely streamlining auditing and complex compliance processes with an application-centric approach. Introducing AlgoSec’s Horizon Security Analyzer Your comprehensive solution for proactive network security and simplified compliance Advanced Log Correlation Quickly identify security incidents by correlating logs from multiple firewalls Automated Compliance Checks Generate instant reports to demonstrate compliance with industry regulations Real-Time Threat Intelligence Receive immediate alerts on suspicious activities and potential threats Rule Risk Analysis Identify and mitigate risks associated with overly permissive or conflicting firewall rules Save your spot Schedule a demo Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue End-to-end security management Automation is only one piece of a robust security policy. See how our full solution suite completes the picture. Horizon ObjectFlow Automate and secure
policy changes Process security changes in a fraction of the time by automating the entire security policy change process. Horizon ObjectFlow solution AlgoSec Cloud Effortless cloud management Security management across the multi-cloud and multi-vendor estate AlgoSec Cloud solution Horizon AppViz Optimize the discovery of applications and services Leverage advanced AI to identify your business applications and their network connectivity accurately. Horizon AppViz solution FAQ AlgoSec’s Horizon Security Analyzer enables you to instantly visualize your entire hybrid, by pulling pulls information from a wide range of devices and providing you network security topology. Horizon Security Analyzer helps you assess the impact of network security policies on traffic, troubleshoot connectivity issues, plan changes and perform “what-if” traffic queries. Horizon Security Analyzer seamlessly integrates with all leading brands of traditional and next generation firewalls and cloud security controls as well as routers, load balancers and web proxies. What is Horizon Security Analyzer? Horizon Security Analyzer rule management enables the process of optimizing firewall rules by identifying and removing redundant firewall rules, aligning firewall rule policies with government and industry regulations and preventing inappropriate firewall rule modifications. Horizon Security Analyzer discovers and prioritizes all risks  and their associated rules and associated applications in your network security policy. Can I analyze my firewall rules? Horizon Security Analyzer provides pre-populated, audit-ready compliance reports with an overview of events and changes associated with a firewall. Horizon Security Analyzer automatically analyzes the existing device rule base to identify unused, duplicate or expired rules and then provides recommendations to remove, reorder or consolidate similar rules. Horizon Security Analyzer optimizes firewall rulesets. Does Horizon Security Analyzer work with Cisco? The main use of a firewall monitoring tool is to ensure full network visibility. Horizon Security Analyzer provides you a unified view of all the applications, services and their connectivity flows within an enterprise computer network. What are the main uses of a firewall monitoring tool? Horizon Security Analyzer includes firewall analysis tools to help you to identify enterprise applications, services and connectivity flows to track events and policy changes in order to clean up and optimize firewall configuration and maintain compliance standards. Can I analyze my firewall’s configuration? Horizon Security Analyzer provides pre-populated, audit-ready compliance reports with an overview of events and changes associated with a firewall. Horizon Security Analyzer automatically analyzes the existing device rule base to identify unused, duplicate or expired rules and then provides recommendations to remove, reorder or consolidate similar rules. Horizon Security Analyzer optimizes firewall rulesets. Can I monitor my firewall changes?

Master the full vulnerability management lifecycle by learning how to prioritize risks to harden your infrastructure against modern threats, and how to choose the ideal vulnerability management tool. Vulnerability management 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. What is vulnerability management? Vulnerability management (VM) is the continuous, systematic process of identifying, evaluating, reporting, and remediating vulnerabilities existing in cyber assets, processes, endpoints, and systems. Adversaries are constantly scanning for exploitable gaps, making vulnerability management an ongoing discipline that helps organizations recognize and fix these gaps before adversaries find and weaponize them. The global average cost of a data breach stands at $4.44 million , per IBM’s 2025 report. This includes disruptions, loss of customer trust, and regulatory fines, making proper vulnerability management critical. Vulnerability management vs. patch management: Are they the same? No. Patch management involves the deployment of a solution, such as a software update, to fix a vulnerability. Vulnerability management , on the other hand, encompasses the broader process of identifying, assessing, and addressing all categories of vulnerabilities through diverse strategies. The strategic benefits of vulnerability management Effective vulnerability management brings numerous benefits: Improved asset visibility. Unified visibility across business applications and endpoints creates a baseline for capacity planning, license management, and technology refresh cycles. Fewer security risks. VM also directly reduces the probability of successful cyberattacks by systematically identifying and addressing exploitable weaknesses. Enhanced operational efficiency. Mature vulnerability management programs establish structured processes for security remediation, replacing ad hoc firefighting with systematic resolution workflows. Prevention of business disruption. The financial hit of a breach doesn’t stop at ransom payments. Operational disruption, reputational damage, customer attrition, and regulatory penalties often dwarf the costs of immediate incident response (IR). Support for compliance and audit requirements. From PCI-DSS to HIPAA, regulatory requirements mandate regular vulnerability assessments, including documented vulnerability management processes and evidence of continuous improvement. What are the types of managed vulnerabilities? Vulnerabilities manifest across diverse technical domains, with multiple types requiring specialized assessment approaches and remediation strategies: Software vulnerabilities : These bugs in application code, operating systems, firmware, or supporting libraries remain the most prevalent, particularly as complex application portfolios span legacy systems, commercial off-the-shelf products, and custom-developed code. Hardware vulnerabilities : These exist within the physical components and embedded firmware of computing devices and are especially relevant for on-premises infrastructure, which can be locally exploited. Network vulnerabilities: Arising from misconfigurations, design flaws, or network infrastructure and protocol weaknesses, network vulnerabilities often serve as force multipliers, allowing attackers who gain initial access to expand their presence across your entire environment. Process vulnerabilities : Weaknesses in operational procedures, change management practices, and organizational workflows are human and procedural gaps that can be as consequential as technical weaknesses. Control vulnerabilities: Encompassing weaknesses in security mechanisms themselves, i.e., the systems designed to prevent, detect, or respond to threats, this type of vulnerability includes: Inadequately tuned intrusion detection systems that generate false negatives Logging configurations that fail to capture security-relevant events Backup processes that cannot support timely recovery Incident response procedures that prove inadequate during actual crises Mixed vulnerabilities: These represent complex weaknesses that span multiple categories, requiring coordinated remediation across technical domains. How does vulnerability management work? An effective vulnerability management process has overlapping phases that feed insights from one stage into another. This cyclical approach helps ensure that the process matures over time by incorporating lessons learned from one stage into another. The five steps involved in the vulnerability management process are discovery, prioritization, resolution, verification, and reporting. Step 1: Discovery Discovery lays the foundation for effective vulnerability management. It encompasses the identification of vulnerable assets and data flows using scanners, agents, or pen tests: Vulnerability scanners: Scan infrastructure for vulnerabilities present in the CVE database; classified into what they scan and how they scan, i.e., network-based , host-based, or web-based Agent-based scans: Scan endpoints, servers, and workstations using lightweight software agents to identify vulnerabilities missed by external scanners, e.g., local privilege escalation, insecure configurations in applications that don't expose network services, and compliance violations in endpoint security controls Penetration tests: Employ white-hat hackers to identify vulnerabilities; more resource-intensive than agents but can uncover complex weaknesses scanners miss, plus validate the exploitability of found vulnerabilities The next phase involves making sure the right vulnerabilities receive attention first. Step 2: Prioritization A common vulnerability prioritization approach uses the Common Vulnerability Scoring System (CVSS). CVSS provides severity ratings based on technical characteristics, for example, potential impact, attack complexity, or privileges needed. A CVSS score of zero indicates the lowest possible severity, while 10 is the highest. However, CVSS scores don't account for asset criticality and threat context, making these scores alone insufficient for business risk prioritization. For this, the Exploit Prediction Scoring System (EPSS) helps by augmenting CVSS with an assessment of how likely a vulnerability will be exploited within the next 30 days. Still, effective vulnerability prioritization extends beyond scoring systems. The business context is also important. So, instead of solely prioritizing vulnerabilities based on their severity scores or the likelihood of exploitation, organizations must pause and ask: Is my business at risk? If yes, what applications are at risk, and how will their exploitation affect business operations? Of course, there is then the task of successfully resolving vulnerabilities found. Step 3: Resolution Vulnerability resolution can follow three possible paths: remediation, mitigation, or containment. And sometimes, a mix of all three. Remediation Remediation involves eliminating a vulnerability from the source via patch application, version upgrades, or configuration corrections. Although this is the ideal resolution approach, it isn't always immediately feasible. Why? An organization’s legacy systems may lack vendor support, while critical applications may also require extensive testing before patching. Mitigation Mitigation reduces risk exposure in the event of actual exploitation. Example techniques for this approach to vulnerability resolution include network segmentation, firewalls that filter exploit attempts, and enhanced monitoring to provide early warning of exploitation attempts. Containment Containment isolates vulnerable systems from healthy ones while remediation measures are developed and deployed. This approach proves particularly valuable when actively exploited vulnerabilities affect critical systems that cannot be patched immediately. Step 4: Verification Verification confirms that your previous resolution efforts successfully addressed the identified vulnerabilities without introducing operational problems . This ensures CISOs and the rest of the C-suite that holes believed to be plugged are not, in fact, still leaking. A common way to verify resolution is to conduct post-remediation scans or even pen testing for vulnerabilities involving multiple systems. Verification also includes operational validation to check that security fixes haven't degraded system functionality or user experience. If this step reveals incomplete fixes or any new issues caused during resolution, the next step is a root cause analysis to identify gaps in scanning, remediation procedures, testing protocols, or change management processes. Step 5: Reporting CISOs rely on two metrics to reveal gaps in vulnerability management workflows and provide objective measures of program maturity: Mean time to detect (MTTD): Measures the speed of identification of new vulnerabilities Mean time to remediate (MTTR): Quantifies the average duration between vulnerability detection and successful resolution With the right tools, companies can typically achieve MTTD in hours and MTTR in days for critical vulnerabilities, instead of weeks or months. This highlights that an organization’s choice of solution is a key part of the vulnerability management process. What to look for in vulnerability management tools When evaluating vulnerability management solutions, prioritize tools with the following capabilities. Comprehensive visibility across hybrid environments The ideal tool should discover and assess your assets regardless of where they’re hosted—on-prem, multiple cloud platforms, remote endpoints, or containerized workloads. To check the tool’s ability to comprehensively discover assets, ask the following questions: Does the solution natively integrate with CSPs’ APIs? Does it support diverse operating systems? Can it assess both traditional and modern infra? Risk contextualization through embedded threat intelligence For the sake of your business, tools that use generic severity scores are inadequate. Opt for a solution that: Layers your business context onto technical risk Considers asset criticality within the context of your industry Understands the data sensitivity requirements of your organization The result of opting for such a solution is vulnerability prioritization that reflects genuine business risk rather than theoretical severity. Streamlined workflow integration The ideal vulnerability tool should naturally integrate with your existing operational workflows instead of creating parallel shadow processes. The integration should be smooth and easy, as integration difficulties can significantly reduce your ROI from vulnerability management. Actionable reporting for diverse audiences It’s a best practice to choose a solution that provides relevant, easy-to-understand, and easy-to-apply security reports. This allows your security team to immediately understand what steps to take next. Automated change management with rapid response The best solutions incorporate automation to accelerate every phase of the vulnerability management lifecycle. This shortens MTTD and MTTR, and improves your overall security posture. Manage your vulnerabilities with Horizon AppViz AlgoSec Horizon AppViz delivers business-specific value by prioritizing a detected vulnerability risk not only by severity but also by business criticality. This helps you: Focus on the most important vulnerabilities first Contextualize your risk reduction efforts within a business application perspective Also, in your on-prem and cloud environment, Horizon AppViz incorporates data about your exposure level into risky firewall rules and into the what-if risk check analysis report you'll get periodically. Ready to prioritize vulnerabilities based on your business operations and automate the isolation of infected servers? Schedule a demo of AlgoSec to see how. 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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

AlgoSec’s new product manages network objects in firewall, SDN and cloud platforms to securely accelerate connectivity changes Finally, a single source of truth for Network Security Objects with AlgoSec Horizon ObjectFlow AlgoSec’s new product manages network objects in firewall, SDN and cloud platforms to securely accelerate connectivity changes May 18, 2022 Speak to one of our experts RIDGEFIELD PARK, N.J., May 18, 2022 – AlgoSec, a global cybersecurity leader in securing application connectivity, has announced their new product, AlgoSec Horizon ObjectFlow, a network security object management solution for hybrid environments spanning cloud networks, SDNs and on-premises. According to Rik Turner, principal analyst at Omdia “in the complex environments that ensue from modern architectures such as SDN, as well as hybrid and multi-cloud environments, there is a very real risk of overlapping objects, making both their management from a security perspective a real headache. There is clearly the potential for automation to be applied to further streamline management.”  AlgoSec Horizon ObjectFlow offers the most comprehensive visibility and control of network objects across an entire hybrid environment. As a turnkey SaaS based solution, customers can leverage Horizon ObjectFlow’s advantages within minutes upon activation.  Professor Avishai Wool, AlgoSec CTO and co-founder states that Horizon ObjectFlow addresses a dire need in the market for optimal network object management as “most enterprise networks rely on a vast number of network objects that often refer to the same addresses in various forms, creating duplications and inconsistencies that can slow down changes to network connectivity and security policies. As a result, this leads to an increased risk of misconfigurations, outages and security breaches.”  Key benefits that Horizon ObjectFlow delivers to IT, network and security experts include:   Single source of truth   Horizon ObjectFlow is a central repository of all network objects used in security policies, allowing customers to maintain consistency of definitions across the multiple management systems used by various vendors. Object discovery and complete object visibility   Horizon ObjectFlow helps enterprises tap into SDNs and firewalls to discover all the objects on a network. Unique naming conventions can be created and organized based on individual needs and from multiple vendors. Automation of object changes   Horizon ObjectFlow makes automation of object changes possible from a central location. With official vendor API Integrations, manual labor is avoided, allowing for changes to be made within minutes instead of days.  Risk reduction   Horizon ObjectFlow provides full visibility and uniformity over network objects, breaking down organizational silos. With these processes in place, objects can be easily identifiable, allowing networks to be completely secure.  “Network security objects are the bread and butter of your network security posture,” said Eran Shiff, Vice President, Product of AlgoSec. “With Horizon ObjectFlow we give organizations a simple, effective way to manage their network security objects in a centralized object management solution. It helps IT teams to secure application connectivity and reduce the time spent by the security team, increasing efficiency across the board.”  To see how AlgoSec can help you better manage your network security objects with Horizon ObjectFlow, schedule your personal demo today. About AlgoSec   AlgoSec, a global cybersecurity leader, empowers organizations to secure application connectivity by automating connectivity flows and security policy, anywhere.  The AlgoSec platform enables the world’s most complex organizations to gain visibility, reduce risk and process changes at zero-touch across the hybrid network.   AlgoSec’s patented application-centric view of the hybrid network enables business owners, application owners, and information security professionals to talk the same language, so organizations can deliver business applications faster while achieving a heightened security posture.  Over 1,800 of the world’s leading organizations trust AlgoSec to help secure their most critical workloads across public cloud, private cloud, containers, and on-premises networks, while taking advantage of almost two decades of leadership in Network Security Policy Management.  See what securely accelerating your digital transformation, move-to-cloud, infrastructure modernization, or micro-segmentation initiatives looks like at www.algosec.com     Media Contacts:  Tsippi Dach  AlgoSec  [email protected]      Jenni Livesley  Context Public Relations  [email protected]   +44(0)300 124 6100 

Security Policy Management with Professor Wool Micro-Segmentation Implementing a micro-segmentation strategy in the data center blocks lateral movement and helps protect the organization from cyberthreats. Watch this whiteboard video series on micro-segmentation and learn why and how to segment the data center, how to future-proof your policies and about the ongoing maintenance of a micro-segmented data center. Lesson 1 In this video, Prof. Wool introduces micro-segmentation: reasons for segmenting the data center, challenges, required steps when deploying a micro-segmentation strategy, and how to future-proof your policies. Introduction to Micro-segmentation Watch Lesson 2 Watch Prof. Wool as he shares tips on how to prepare for network segmentation by identifying the segment borders. Micro-segmentation – Mapping Existing Applications Watch Lesson 3 Watch this Prof. Wool video to learn how to define logical segments within a micro-segmentation project. Micro-segmentation – Defining Logical Segments Watch Lesson 4 In this video, Prof. Wool demonstrates how to generate a filtering policy during a micro-segmentation project. Micro-segmentation – Generating a Filtering Policy Watch Lesson 5 Watch this Prof. Wool video to learn about the ongoing maintenance of your data center upon completion of a micro-segmentation project. Micro-segmentation Ongoing Maintenance 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