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A practical AWS security checklist will help you identify and address vulnerabilities quickly. In the process, ensure your cloud security... Cloud Security The Comprehensive 9-Point AWS Security Checklist Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/20/23 Published A practical AWS security checklist will help you identify and address vulnerabilities quickly. In the process, ensure your cloud security posture is up-to-date with industry standards. This post will walk you through an 8-point AWS security checklist. We’ll also share the AWS security best practices and how to implement them. The AWS shared responsibility model AWS shared responsibility model is a paradigm that describes how security duties are split between AWS and its clients. This approach considers AWS a provider of cloud security architecture. And customers still protect their individual programs, data, and other assets. AWS’s Responsibility According to this model, AWS maintains the safety of the cloud structures. This encompasses the network, the hypervisor, the virtualization layer, and the physical protection of data centers. AWS also offers clients a range of safety precautions and services. They include surveillance tools, a load balancer, access restrictions, and encryption. Customer Responsibility As a customer, you are responsible for setting up AWS security measures to suit your needs. You also do this to safeguard your information, systems, programs, and operating systems. Customer responsibility entails installing reasonable access restrictions and maintaining user profiles and credentials. You can also watch for security issues in your work setting. Let’s compare the security responsibilities of AWS and its customers in a table: Comprehensive 8-point AWS security checklist 1. Identity and access management (IAM) 2. Logical access control 3. Storage and S3 4. Asset management 5. Configuration management. 6. Release and deployment management 7. Disaster recovery and backup 8. Monitoring and incidence management Identity and access management (IAM) IAM is a web service that helps you manage your company’s AWS access and security. It allows you to control who has access to your resources or what they can do with your AWS assets. Here are several IAM best practices: Replace access keys with IAM roles. Use IAM roles to provide AWS services and apps with the necessary permissions. Ensure that users only have permission to use the resources they need. Do this by implementing the concept of least privilege . Whenever communicating between a client and an ELB, use secure SSL versions. Use IAM policies to specify rights for user groups and centralized access management. Use IAM password policies to impose strict password restrictions on all users. Logical access control Logical access control involves controlling who accesses your AWS resources. This step also entails deciding the types of actions that users can perform on the resources. You can do this by allowing or denying access to specific people based on their position, job function, or other criteria. Logical access control best practices include the following: Separate sensitive information from less-sensitive information in systems and data using network partitioning Confirm user identity and restrict the usage of shared user accounts. You can use robust authentication techniques, such as MFA and biometrics. Protect remote connectivity and keep offsite access to vital systems and data to a minimum by using VPNs. Track network traffic and spot shady behavior using the intrusion detection and prevention systems (IDS/IPS). Access remote systems over unsecured networks using the secure socket shell (SSH). Storage and S3 Amazon S3 is a scalable object storage service where data may be stored and retrieved. The following are some storage and S3 best practices: Classify the data to determine access limits depending on the data’s sensitivity. Establish object lifecycle controls and versioning to control data retention and destruction. Use the Amazon Elastic Block Store (Amazon EBS) for this process. Monitor the storage and audit accessibility to your S3 buckets using Amazon S3 access logging. Handle encryption keys and encrypt confidential information in S3 using the AWS Key Management Service (KMS). Create insights on the current state and metadata of the items stored in your S3 buckets using Amazon S3 Inventory. Use Amazon RDS to create a relational database for storing critical asset information. Asset management Asset management involves tracking physical and virtual assets to protect and maintain them. The following are some asset management best practices: Determine all assets and their locations by conducting routine inventory evaluations. Delegate ownership and accountability to ensure each item is cared for and kept safe. Deploy conventional and digital safety safeguards to stop illegal access or property theft. Don’t use expired SSL/TLS certificates. Define standard settings to guarantee that all assets are safe and functional. Monitor asset consumption and performance to see possible problems and possibilities for improvement. Configuration management. Configuration management involves monitoring and maintaining server configurations, software versions, and system settings. Some configuration management best practices are: Use version control systems to handle and monitor modifications. These systems can also help you avoid misconfiguration of documents and code . Automate configuration updates and deployments to decrease user error and boost consistency. Implement security measures, such as firewalls and intrusion sensing infrastructure. These security measures will help you monitor and safeguard setups. Use configuration baselines to design and implement standard configurations throughout all platforms. Conduct frequent vulnerability inspections and penetration testing. This will enable you to discover and patch configuration-related security vulnerabilities. Release and deployment management Release and deployment management involves ensuring the secure release of software and systems. Here are some best practices for managing releases and deployments: Use version control solutions to oversee and track modifications to software code and other IT resources. Conduct extensive screening and quality assurance (QA) processes. Do this before publishing and releasing new software or updates. Use automation technologies to organize and distribute software upgrades and releases. Implement security measures like firewalls and intrusion detection systems. Disaster recovery and backup Backup and disaster recovery are essential elements of every organization’s AWS environment. AWS provides a range of services to assist clients in protecting their data. The best practices for backup and disaster recovery on AWS include: Establish recovery point objectives (RPO) and recovery time objectives (RTO). This guarantees backup and recovery operations can fulfill the company’s needs. Archive and back up data using AWS products like Amazon S3, flow logs, Amazon CloudFront and Amazon Glacier. Use AWS solutions like AWS Backup and AWS Disaster Recovery to streamline backup and recovery. Use a backup retention policy to ensure that backups are stored for the proper amount of time. Frequently test backup and recovery procedures to ensure they work as intended. Redundancy across many regions ensures crucial data is accessible during a regional outage. Watch for problems that can affect backup and disaster recovery procedures. Document disaster recovery and backup procedures. This ensures you can perform them successfully in the case of an absolute disaster. Use encryption for backups to safeguard sensitive data. Automate backup and recovery procedures so human mistakes are less likely to occur. Monitoring and incidence management Monitoring and incident management enable you to track your AWS environment and respond to any issues. Amazon web services monitoring and incident management best practices include: Monitoring API traffic and looking for any security risks with AWS CloudTrail. Use AWS CloudWatch to track logs, performance, and resource usage. Set up modifications to AWS resources and monitor for compliance problems using AWS Config. Combine and rank security warnings from various AWS user accounts and services using AWS Security groups. Using AWS Lambda and other AWS services to implement automated incident response procedures. Establish a plan for responding to incidents that specify roles and obligations and define a clear escalation path. Exercising incident response procedures frequently to make sure the strategy works. Checking for flaws in third-party applications and applying quick fixes. The use of proactive monitoring to find possible security problems before they become incidents. Train your staff on incident response best practices. This way, you ensure that they’ll respond effectively in case of an incident. Top challenges of AWS security DoS attacks A Distributed denial of service (DDoS) attack poses a huge security risk to AWS systems. It involves an attacker bombarding a network with traffic from several sources. In the process, straining its resources and rendering it inaccessible to authorized users. To minimize this sort of danger, your DevOps should have a thorough plan to mitigate this sort of danger. AWS offers tools and services, such as AWS Shield, to assist fight against DDoS assaults. Outsider AWS compromise. Hackers can use several strategies to get illegal access to your AWS account. For example, they may use psychological manipulation or exploit software flaws. Once outsiders gain access, they may use data outbound techniques to steal your data. They can also initiate attacks on other crucial systems. Insider threats Insiders with permission to access your AWS resources often pose a huge risk. They can damage the system by modifying or stealing data and intellectual property. Only grant access to authorized users and limit the access level for each user. Monitor the system and detect any suspicious activities in real-time. Root account access The root account has complete control over an AWS account and has the highest degree of access.Your security team should access the root account only when necessary. Follow AWS best practices when assigning root access to IAM users and parties. This way, you can ensure that only those who should have root access can access the server. Security best practices when using AWS Set strong authentication policies. A key element of AWS security is a strict authentication policy. Implement password rules, demanding solid passwords and frequent password changes to increase security. Multi-factor authentication (MFA) is a recommended security measure for access control. It involves a user providing two or more factors, such as an ID, password, and token code, to gain access. Using MFA can improve the security of your account. It can also limit access to resources like Amazon Machine Images (AMIs). Differentiate security of cloud vs. in cloud Do you recall the AWS cloud shared responsibility model? The customer handles configuring and managing access to cloud services. On the other hand, AWS provides a secure cloud infrastructure. It provides physical security controls like firewalls, intrusion detection systems, and encryption. To secure your data and applications, follow the AWS shared responsibility model. For example, you can use IAM roles and policies to set up virtual private cloud VPCs. Keep compliance up to date AWS provides several compliance certifications for HIPAA, PCI DSS, and SOC 2. The certifications are essential for ensuring your organization’s compliance with industry standards. While NIST doesn’t offer certifications, it provides a framework to ensure your security posture is current. AWS data centers comply with NIST security guidelines. This allows customers to adhere to their standards. You must ensure that your AWS setup complies with all legal obligations as an AWS client. You do this by keeping up with changes to your industry’s compliance regulations. You should consider monitoring, auditing, and remedying your environment for compliance. You can use services offered by AWS, such as AWS Config and AWS CloudTrail log, to perform these tasks. You can also use Prevasio to identify and remediate non-compliance events quickly. It enables customers to ensure their compliance with industry and government standards. The final word on AWS security You need a credible AWS security checklist to ensure your environment is secure. Cloud Security Posture Management solutions produce AWS security checklists. They provide a comprehensive report to identify gaps in your security posture and processes for closing them. With a CSPM tool like Prevasio , you can audit your AWS environment. And identify misconfigurations that may lead to vulnerabilities. It comes with a vulnerability assessment and anti-malware scan that can help you detect malicious activities immediately. In the process, your AWS environment becomes secure and compliant with industry standards. Prevasio comes as cloud native application protection platform (CNAPP). It combines CSPM, CIEM and all the other important cloud security features into one tool. This way, you’ll get better visibility of your cloud security on one platform. Try Prevasio today ! Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... 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In the context of the Zero Trust vs. least privilege debate, this post explores the difference between Zero Trust and least privilege, how the Zero Trust security model and least privilege access control work together, and where each fits in a modern security program. Organizations need both Zero Trust and least privilege. These two fundamental security approaches verify all requests and restrict all permissions. This article explains the operation of each security method as well as their distinct approaches to defense. It also provides guidance on their combined use for enhanced security. Zero trust vs least privilege 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. Zero Trust vs. Least Privilege: What's the Difference and How Do They Work Together? In the context of the Zero Trust vs. least privilege debate, this post explores the difference between Zero Trust and least privilege, how the Zero Trust security model and least privilege access control work together, and where each fits in a modern security program. Organizations need both Zero Trust and least privilege. These two fundamental security approaches verify all requests and restrict all permissions. This article explains the operation of each security method as well as their distinct approaches to defense. It also provides guidance on their combined use for enhanced security. Zero Trust vs. Traditional Security Security operations previously focused on creating an unbreakable defensive boundary. The rule was: Trust the people and devices inside the network. Be suspicious of everything on the outside. This "castle-and-moat" security model proved effective when technology systems were run from restricted server rooms. But cloud computing, SaaS solutions, and hybrid work environments have resulted in traditional system perimeters dissolving. Cloud, SaaS, and remote endpoints now make up a fragmented and complex “frontline,” with inconsistent controls that create gaps attackers can exploit. Malicious actors know that if they find one unlocked door—usually a stolen password—they can often wander freely through the entire network. This is precisely what the Zero Trust security model was designed to prevent. What Is the Zero Trust Security Model? The Zero Trust security model follows a single core belief surrounding verification. The new rule is: All users and systems must require verification before being granted access. Under this model, there is no free pass. Every single time someone or something tries to access a resource, they must authenticate their identity and prove they have access rights to the resources they seek. What Are the Building Blocks of Zero Trust Access Management? Making a Zero Trust architecture work requires a few key components: Policy decision point (PDP): The PDP operates as the central regulatory system of the entire network. It's where you define and store all the rules about who has access to what. Policy enforcement point (PEP): This is your security guard. The system functions as a security checkpoint that protects all resources while implementing the policies defined by the PDP. Trust algorithm: This evaluates various real-time indicators (e.g., user identity, device health status, location data, and data sensitivity) to generate a trust score for each request. Zero Trust Architecture in Practice Implementing Zero Trust requires organizations to establish ongoing verification processes for all identity and device access, as well as network, workload, and data security: Devices: Companies must verify the security posture of all laptops and phones through software updates and security tool verification. The testing process identifies non-compliant devices, which are placed in a digital waiting area until they achieve safety standards. Networks: Micro-segmentation is the main player here. By dividing your network into tiny, isolated zones, you prevent an intruder from moving around freely. All traffic between servers (east-west) needs to be encrypted and pass through a PEP checkpoint. Applications & workloads: Applications, together with services, require robust identity systems. This can be done using methods like mTLS to ensure services are securely talking to each other, and by enforcing strict authorization checks at the front door (gateways) of every application. Data : Are you fully aware of what your data cons ists of and its level of sensitivity? The process of classification and labeling enables organizations to develop smart policies that implement least privilege access controls, preventing sensitive information from leaving the organization. The Least Privilege Principle and Least Privilege Access Control Following the least privilege principle, least privilege access control requires that all users and non-human identities receive permissions that exactly match their required tasks and only remain active during the time needed to complete those tasks. Limiting permissions to specific times and tasks: Minimizes system vulnerabilities Restricts damage from compromised credentials Prevents unauthorized system access Makes audit processes easier and regulatory requirements more achievable Provides clear visibility into all access elevation activities Teams use three main operational controls to implement least privilege in their daily operations: RBAC/ABAC function together to restrict resource access based on job titles and user characteristics ; RBAC handles basic access control, while ABAC offers detailed context-based authorization checks. Just-in-time (JIT) allows a user to ask for special permissions for a short period to perform a specific task, with any rights granted terminated when the work is complete. Time-boxed tokens grant access credentials with an expiration date, so even if a token is stolen, exposure is short‑lived and any impact contain ed. How Do You Implement Least Privilege Access Control? The implementation of least privilege access control requires a methodical approach to provide each identity with the smallest set of permissions needed to perform its duties for a limited duration. These are the essential steps for successful implementation: Inventory and map privileges: You cannot protect what you do not even know is yours. This step demands complete identification of human and machine identities to establish their current permissions and necessary access permissions. Shrink service account scopes: After creating a map, you can begin to limit the permissions of accounts that have excessive access. Credential rotation and exceptions: Organizations need to adopt credential rotation and temporary identity systems for automated operations while also making just-in-time access their default security approach. The Difference Between Zero Trust and Least Privilege The discussion of Zero Trust vs. least privilege comes down to the two concepts dealing with different security issues. Zero Trust vs. Least Privilege The table below presents a clear comparison. Feature Zero Trust Least Privilege Scope & Purpose The overall game plan for securing the entire organization A core access‑management principle limiting each identity to the minimum permissions required for specific tasks/resources Decision Focus Evaluation of whether to trust the present request Stopping users from getting unintended and extra access Primary Goal To get rid of assumed trust and verify everything, always To limit the damage if an account or system gets compromised Ownership Usually driven by the security and platform architecture teams Put into practice by the people who own the data and applications Conclusion Zero Trust and least privilege security solutions deliver a major security improvement when deployed together, despite their distinct implementation methods. Their combination significantly reduces the potential damage from a breach, makes it much harder for attackers to move around, and delivers a crystal-clear record of who is accessing what and why. If you’re evaluating platforms to operationalize these practices, AlgoSec can help by: Modeling application connectivity Orchestrating network security policy changes Supporting micro-segmentation Maintaining continuous compliance across hybrid and multi‑cloud environments All these capabilities reinforce both Zero Trust and least privilege. Explore AlgoSec Cloud Enterprise for multi‑cloud and hybrid policy automation, see how our approach helps application owners model and secure application connectivity, and learn about our native integrations with AWS . Schedule 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

What to do if your network is infected by ransomware How to prepare a ransomware playbook, using the existing capabilities of network security policy management tools Webinars How to stop ransomware in its tracks Stop ransomware in its tracks. Yes, it’s possible. But the time to prepare is now — before it strikes. In this session, security expert Dania Ben Peretz will demonstrate what to do if your network is infected by ransomware. She will show how to prepare a ransomware playbook, using the existing capabilities of network security policy management tools, so you can handle a ransomware incident as it happens. Join us and learn: The dangers of ransomware How to prepare the playbook How to stop ransomware when it strikes March 31, 2021 Dania Ben Peretz Product Manager Relevant resources Reducing your risk of ransomware attacks Keep Reading Ransomware Attack: Best practices to help organizations proactively prevent, contain and respond Keep Reading Fighting Ransomware - CTO Roundtable Insights Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

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Firewalls are one of the most important cybersecurity solutions in the enterprise tech stack. They can also be the most demanding.... Firewall Change Management 20 Firewall Management Best Practices for Network Security Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/29/23 Published Firewalls are one of the most important cybersecurity solutions in the enterprise tech stack. They can also be the most demanding. Firewall management is one of the most time-consuming tasks that security teams and network administrators regularly perform. The more complex and time-consuming a task is, the easier it is for mistakes to creep in. Few organizations have established secure network workflows that include comprehensive firewall change management plans and standardized firewall best practices. This makes implementing policy changes and optimizing firewall performance riskier than it needs to be. According to the 2023 Verizon Data Breach Investigation Report, security misconfigurations are responsible for one out of every ten data breaches. ( * ) This includes everything from undetected exceptions in the firewall rule base to outright policy violations by IT security teams. It includes bad firewall configuration changes, routing issues, and non-compliance with access control policies. Security management leaders need to pay close attention to the way their teams update firewall rules, manipulate firewall logs, and establish audit trails. Organizations that clean up their firewall management policies will be better equipped to automate policy enforcement, troubleshooting, and firewall migration. 20 Firewall Management Best Practices Right Now 1. Understand how you arrived at your current firewall policies: Most security leaders inherit someone else’s cybersecurity tech stack the moment they accept the job. One of the first challenges is discovering the network and cataloging connected assets. Instead of simply mapping network architecture and cataloging assets, go deeper. Try to understand the reasoning behind the current rule set. What cyber threats and vulnerabilities was the organization’s previous security leader preparing for? What has changed since then? 2. Implement multiple firewall layers: Layer your defenses by using multiple types of firewalls to create a robust security posture. Configure firewalls to address specific malware risks and cyberattacks according to the risk profile of individual private networks and subnetworks in your environment. This might require adding new firewall solutions, or adding new rules to existing ones. You may need to deploy and manage perimeter, internal, and application-level firewalls separately, and centralize control over them using a firewall management tool. 3. Regularly update firewall rules: Review and update firewall rules regularly to ensure they align with your organization’s needs. Remove outdated or unnecessary rules to reduce potential attack surfaces. Pay special attention to areas where firewall rules may overlap. Certain apps and interfaces may be protected by multiple firewalls with conflicting rules. At best, this reduces the efficiency of your firewall fleet. At worst, it can introduce security vulnerabilities that enable attackers to bypass firewall rules. 4. Apply the principle of least privilege: Apply the principle of least privilege when creating firewall rules . Only grant access to resources that are necessary for specific roles or functions. Remember to remove access from users who no longer need it. This is difficult to achieve with simple firewall tools. You may need policies that can follow users and network assets even as their IP addresses change. Next-generation firewalls are capable of enforcing identity-based policies like this. If your organization’s firewall configuration is managed by an outside firm, that doesn’t mean it automatically applies this principle correctly. Take time to review your policies and ensure no users have unjustified access to critical network resources. . 5. Use network segmentation to build a multi-layered defense: Use network segmentation to isolate different parts of your network. This will make it easier to build and enforce policies that apply the principle of least privilege. If attackers compromise one segment of the network, you can easily isolate that segment and keep the rest secure. Pay close attention to the inbound and outbound traffic flows. Some network segments need to accept flows going in both directions, but many do not. Properly segmented networks deny network traffic traveling along unnecessary routes. You may even decide to build two entirely separate networks – one for normal operations and one for management purposes. If the networks are served by different ISPs, an attack against one may not lead to an attack against the other. Administrators may be able to use the other network to thwart an active cyberattack. 6. Log and monitor firewall activity: Enable firewall logging and regularly review logs for suspicious activities. Implement automated alerts for critical events. Make sure you store firewall logs in an accessible low-cost storage space while still retaining easy access to them when needed. You should be able to pull records like source IP addresses on an as-needed basis. Consider implementing a more comprehensive security information and event management (SIEM) platform. This allows you to capture and analyze log data from throughout your organization in a single place. Analysts can detect and respond to threats more effectively in a SIEM-enabled environment. Consider enabling logging on all permit/deny rules. This will provide you with evidence of network intrusion and help with troubleshooting. It also allows you to use automated tools to optimize firewall configuration based on historical traffic. 7. Regularly test and audit firewall performance: Conduct regular security assessments and penetration tests to identify vulnerabilities. Perform security audits to ensure firewall configurations are in compliance with your organization’s policies. Make sure to preview the results of any changes you plan on making to your organization’s firewall rules. This can be a very complex and time-consuming task. Growing organizations will quickly run out of time and resources to effectively test firewall configuration changes over time. Consider using a firewall change management platform to automate the process. 8. Patch and update firewall software frequently: Keep firewall firmware and software up to date with security patches. Vulnerabilities in outdated software can be exploited, and many hackers actively read update changelogs looking for new exploits. Even a few days’ delay can be enough for enterprising cybercriminals to launch an attack. Like most software updates, firewall updates may cause compatibility issues. Consider implementing a firewall management tool that allows you to preview changes and proactively troubleshoot compatibility issues before downloading updates. 9. Make sure you have a reliable backup configuration: Regularly backup firewall configurations. This ensures you can quickly restore settings in case of a failure or compromise. If attackers exploit a vulnerability that allows them to disable your firewall system, restoring an earlier version may be the fastest way to remediate the attack. When scheduling backups, pay special attention to Recovery Point Objectives (RPO) and Recovery Time Objectives (RTO). RPO is the amount of time you can afford to let pass between backups. RTO is the amount of time it takes to fully restore the compromised system. 10. Deploy a structured change management process: Implement a rigorous change management process for firewall rule modifications. Instead of allowing network administrators and IT security teams to enact ad-hoc changes, establish a proper approval process that includes documenting all changes implemented. This can slow down the process of implementing firewall policy changes and enforcing new rules. However, it makes it much easier to analyze firewall performance over time and generate audit trails after attacks occur. Organizations that automate the process can enjoy both well-documented changes and rapid implementation. 11. Implement intrusion detection and prevention systems (IDPS): Use IDPS in conjunction with firewalls to detect and prevent suspicious or malicious traffic. IDPS works in conjunction with properly configured firewalls to improve enterprise-wide security and enable security teams to detect malicious behavior. Some NGFW solutions include built-in intrusion and detection features as part of their advanced firewall technology. This gives security leaders the ability to leverage both prevention and detection-based security from a single device. 12. Invest in user training and awareness: Train employees on safe browsing habits and educate them about the importance of firewall security. Make sure they understand the cyber threats that firewalls are designed to keep out, and how firewall rules contribute to their own security and safety. Most firewalls can’t prevent attacks that exploit employee negligence. Use firewall training to cultivate a security-oriented office culture that keeps employees vigilant against identity theft , phishing attacks, social engineering, and other cyberattack vectors. Encourage employees to report unusual behavior to IT security team members even if they don’t suspect an attack is underway. 13. Configure firewalls for redundancy and high availability: Design your network with redundancy and failover mechanisms to ensure continuous protection in case of hardware or software failures. Multiple firewalls can work together to seamlessly take over when one goes offline, making it much harder for attackers to capitalize on firewall downtime. Designate high availability firewalls – or firewall clusters – to handle high volume traffic subject to a wide range of security threats. Public-facing servers handling high amounts of inbound traffic typically need extra protection compared to internal assets. Rule-based traffic counters can provide valuable insight into which rules activate the most often. This can help prioritize the most important rules in high-volume usage scenarios. 14. Develop a comprehensive incident response plan: Develop and regularly update an incident response plan that includes firewall-specific procedures for handling security incidents. Plan for multiple different scenarios and run drills to make sure your team is prepared to respond to the real thing when it comes. Consider using security orchestration, automation, and response (SOAR) solutions to create and run automatic incident response playbooks. These playbooks can execute with a single click, instantly engaging additional protections in response to security threats when detected. Be ready for employees and leaders to scrutinize firewall deployments when incidents occur. It’s not always clear whether the source of the issue was the firewall or not. Get ahead of the problem by using a packet analyzer to find out if firewall misconfiguration led to the incident or not early on. 15. Stay ahead of compliance and security regulations: Stay compliant with relevant industry regulations and standards, such as GDPR , HIPAA, or PCI DSS , which may have specific firewall requirements. Be aware of changes and updates to regulatory compliance needs. In an acquisition-oriented enterprise environment, managing compliance can be very difficult. Consider implementing a firewall management platform that provides a centralized view of your entire network environment so you can quickly identify underprotected networks. 16. Don’t forget about documentation: Maintain detailed documentation of firewall configurations, network diagrams, and security policies for reference and auditing purposes. Keep these documents up-to-date so that new and existing team members can use them for reference whenever they need to interact with the organization’s firewall solutions. Network administrators and IT security team members aren’t always the most conscientious documentation creators. Consider automating the process and designating a special role for maintaining and updating firewall documentation throughout the organization. 17. Regularly review and improve firewall performance: Continuously evaluate and improve your firewall management practices based on evolving threats and changing business needs. Formalize an approach to reviewing, updating, and enforcing new rules using data gathered by your current deployment. This process requires the ability to preview policy changes and create complex “what-if” scenarios. Without a powerful firewall change management platform in place, manually conducting this research may be very difficult. Consider using automation to optimize firewall performance over time. 18. Deploy comprehensive backup connectivity: In case of a network failure, ensure there’s a backup connectivity plan in place to maintain essential services. Make sure the plan includes business continuity solutions for mission-critical services as well as security controls that maintain compliance. Consider multiple disaster scenarios that could impact business continuity. Security professionals typically focus on cyberattacks, but power outages, floods, earthquakes, and other natural phenomena can just as easily lead to data loss. Opportunistic hackers may take advantage of these events to strike when they think the organization’s guard is down. 19. Make sure secure remote access is guaranteed: If remote access to your network is required, use secure methods like VPNs and multi-factor authentication (MFA) for added protection. Make sure your firewall policies reflect the organization’s remote-enabled capabilities, and provide a secure environment for remote users to operate in. Consider implementing NGFW solutions that can reliably identify and manage inbound VPN connections without triggering false positives. Be especially wary of firewall rules that automatically deny connections without conducting deeper analysis to find out whether it was for legitimate user access. 20. Use group objects to simplify firewall rules: Your firewall analyzer allows you to create general rules and apply them to group objects, applying the rule to any asset in the group. This allows you to use the same rule set for similar policies impacting different network segments. You can even create a global policy that applies to the whole network and then refine that policy further as you go through each subnetwork. Be careful about nesting object groups inside one another. This might look like clean firewall management, but it can also create problems when the organization grows, and it can complicate change management. You may end up enforcing contradictory rules if your documentation practices can’t keep up. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Unlock comprehensive cloud security with AlgoSec s Prevasio Network Security Safeguard your network with ease Discover more now Cloud network topology aware Schedule a demo Watch a video Watch a video Cloud network configuration and security policy across the multi-cloud estate AI Powered applications discovery Gain visibility into your cloud applications and their dependencies. Never miss a critical app or connection again. Learn more Reduce cloud-network security risks exposure Lock down your cloud with flexible security & powerful risk detection. Get 150+ checks for total network protection. Focus on the threats that matter most to your business. Watch video Central management of security policies Manage all your security groups, firewalls, and network policies across clouds, accounts, and regions from one place. Reduce errors and save time with consistent security policies that protect your entire infrastructure. Watch video Reduce cloud attack surface Clean up your network security policies for improved performance and stronger protection. Our solution helps you identify unnecessary rules, tighten access controls, and ensure your network is running at its best. Watch video Get the latest insights from the experts Unveiling best practices for a resilient cloud security strategy Read More Shaping tomorrow: Leading the way in cloud security Read blog CSPM importance for CISOs. What security issues can be prevented\defended with CSPM? Read blog Schedule time and secure your cloud Schedule time and secure your cloud Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

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Understand how to achieve and maintain firewall compliance with ISO/IEC 27001. Learn key requirements, best practices, and how to strengthen your overall security posture. Firewall ISO compliance: ISO/IEC 27001 explained Introductory prologue IT organizations and those dealing with digital assets often face many information security challenges. They must protect sensitive data from unauthorized access, as a crack in security can result in unimaginable losses. To keep information security risks minimal and optimize protection for organizations, ISO/IEC 27001 compliance was designed. What is ISO/IEC 27001 compliance? How does it work, and why does it matter? Read on to uncover answers to all your questions and more in this guide. Schedule a Demo What Is ISO/IEC 27001? ISO/IEC 27001 is an internationally accepted standard for data security. It is one of the standards jointly published by the ISO (International Standardization Organization) and IEC (International Electrotechnical Commission) in 2015. ISO/IEC 27001 aims to provide organizations with a framework for information security management, thereby protecting digital assets. Implementing the standard helps organizations minimize and effectively manage information security risks, such as hacks, data leaks or theft, and cyber attacks. Digital assets like intellectual property, software, employee information, and personal data are often a target for malicious actors. And that’s why asset management is crucial to companies and digital service providers. It demonstrates that the certified organization’s information security system is efficient as it follows the best practice. Any ISO/IEC 27001-certified organization can display its certification online (e.g., on its website, social media platforms, etc.) and offline. As a result, they get the trust and respect they deserve from partners, investors, customers, and other organizations. Schedule a Demo Evolution of ISO/IEC 27001 The International Standardization Organization (ISO) is a global federation of national standards bodies established in 1947. It is a leading organization that develops standards for ensuring the security of business systems. Since its emergence, ISO has published several standards, such as: ISO 27000 – Information Security Management Systems ISO 22301 – Business Continuity ISO 14000 – Environmental Management System ISO 45001 – Occupational Health and Safety ISO 9000 – Quality Management System etc. Although ISO/IEC 27001 was officially published in 2005, ISO had been providing measures for protecting digital systems and information before then. The rapid spread of the internet in the 1990s gave rise to the need for data security to prevent sensitive data from getting into the wrong hands. ISO 27001 was the first standard among the ISO 27000 series of standards for cybersecurity. Since its release, the standard has undergone revisions to tackle new and evolving cyber threats in the industry. The first revision took place in October 2013, when new controls were introduced, and the total controls numbered up to 114. This version is referred to as ISO/IEC 27001:2013 version. The second and latest revision of ISO/ICE 27001 was published in 2022 and enumerates 93 controls grouped into four sections. This revision was initially referred to as ISO/IEC 27001:2022 but is now known as ISO 27001. Another notable development in the latest version is the change in title. The new version’s complete title is – ISO 27001 (i.e., ISO/IEC 27001:2022) Information Security, Cybersecurity and Privacy Protection. Schedule a Demo Business Benefits of ISO/IEC 27001 Achieving ISO/IEC 27001 certification offers organizations several business benefits, especially for service providers handling people’s sensitive financial and personal data. Examples of such organizations are insurance companies, banks, health organizations, and financial institutions. Some of the business benefits of ISO 27001 are: 1. It prevents financial penalties and losses from data breaches Organizations that do not comply with the global security standard are at great risk of a data breach. Data breaches often attract financial penalties and cause companies to lose significant amounts. By implementing the best network security practices, organizations can prevent unnecessary financial losses and record more significant revenue in the long run. 2. It protects and enhances a company’s reputation. Partners, investors, and customers often prefer companies with a good reputation for handling data. In fact, the World Economic Forum states that reputation affects a quarter of a company’s market value. ISO/IEC 27001 certification can help businesses with an existing reputation to preserve their image. Companies with a previous record of security challenges can enhance their reputation and earn the trust and respect of others by becoming certified too. 3. Wins new business and sharpens competitive edge Certified companies stand a better chance of winning new businesses and recording more sales and profits than their competitors. That’s because clients want to feel safe knowing their data enjoy maximum protection. Also, certain organizations must attain other certifications like GDPR, HIPAA, NIST, etc., before commencing operation. And having ISO certification makes it easier to achieve such requirements. One major indicator that an organization can be trusted for security management is acquiring a worldwide certification. It sharpens its competitive advantage and propels the brand way ahead of others. 4. Improves structure and focus As businesses expand, new responsibilities arise, and it can be challenging to determine who should be responsible for what. But with ISO 27001 compliance, companies will have a clear structure to mirror. From authentication to network traffic management, the standard has an outlined structure that companies can apply to establish robust operations security. As a result, they can tackle rising needs while staying focused and productive. 5. It reduces the need for frequent audits. Organizations usually spend heavily performing frequent internal and external audits to generate valuable data about the state of their security. The data is deployed to improve cybersecurity so that threat intelligence and other security aspects are optimized. And even though it costs more and wastes more time, it doesn’t guarantee as much protection as implementing ISO 27001 standard. By becoming a certified name, companies can rest assured that the best cybersecurity practices protect them against attacks. Plus, frequent audits won’t be needed, thus saving cost and time. Schedule a Demo ISO/IEC 27001 Compliance Organizations looking to achieve ISO/IEC 27001 compliance must ensure the following: 1. Clearly Outline the Risk Assessment Process Develop your risk assessment process to detect vulnerabilities. State the categories of risks your organization is facing Outline your approach to tackle vulnerabilities. 2. Make Sure Executives Set the Tone Top management must be involved in the information security program. They should show financial support and be available to make strategic decisions that will help build robust security. Senior management should also conduct frequent assessments of the company’s ISMS to ensure it’s in sync with the globally agreed security standard. 3. Design an Information Security Policy (ISP) An ISP essentially functions to ensure that all the users and networks of your organization’s IT structure stick with the standard practices of digital data storage. You must design an effective ISP to achieve compliance as it governs information protection. Your ISP should encompass the A to Z of your organization’s IT security, including cloud security. You need to state who will be responsible for implementing the designed policy. 4. Write Out Your Statement of Applicability (SoA) Your SoA should carry core information about your ISMS. It should state the controls that your organization regards necessary to combat information security risks. It should document the controls that were not applied The SoA should only be shared with the certification body. 5. Create Your Risk Management Strategy Develop an effective risk management plan to address the possible risks of your chosen security controls. Ensure there’s an efficient security operations center (soc) to help detect cyber threats and forward notifications to the right systems. Design an information security incident management strategy to respond during threat detection. State who will implement specific security controls, how, and when they will deploy them. Schedule a Demo FAQs What does ISO/IEC 27001 stand for? ISO stands for International Standardization Organization, while IEC represents International Electrotechnical Commission. ISO/IEC 27001 is an internationally accepted standard for information security management, which ISO and IEC first created. What are the ISO 27001 Requirements? Every organization looking to apply for certification must prepare themselves and ensure to meet the requirements. These requirements are summarized in Clauses 4.1 to 10.2 below: 4.1 Understanding the organization and its context 4.2 Understanding the needs and expectations of interested parties 4.3 Determining the scope of the ISMS 4.4 Information security management system (ISMS) 5.1 Leadership and commitment 5.2 Information Security Policy 5.3 Organisational roles, responsibilities, and authorities 6.1 Actions to address risks and opportunities 6.2 Information security objectives and planning to achieve them 7.1 Resources 7.2 Competence 7.3 Awareness 7.4 Communication 7.5 Documented information 8.1 Operational planning and control 8.2 Information security risk assessment 8.3 Information security risk treatment 9.1 Monitoring, measurement, analysis, and evaluation 9.2 Internal audit 9.3 Management review 10.1 Nonconformity and corrective action 10.2 Continual improvement What are the ISO/IEC 27001 controls? The latest version of ISO 27001 Annex A enumerates 93 security controls divided into four sections or themes. The ISO 27001 controls are designed to simplify information security management such that digital assets get the best protection against security threats. These 4 sections are labelled A5 to A8 and are as follows: A.5 Organizational controls – containing 37 controls A.6 People controls – containing 8 controls A.7 Physical controls – containing 14 controls A.8 Technological controls – containing 34 controls How Does ISO/IEC 27001 ensure data protection? ISO/IEC 27001 ensures data protection by providing a framework through which companies can store sensitive data and have full access control. This standard can be adapted to suit each organization’s specific needs and structure, thereby offering optimized protection. ISO/IEC 27001 aims to ascertain that three core information security aspects are taken care of, which are: Confidentiality: this guarantees that only authorized individuals can access information. Also, because organizations deal with different categories of data, each employee must only be given the degree of access required to execute their tasks efficiently. Integrity: this ensures that only authorized individuals can change information on the system. So even in the event of a security breach, the risks are minimal. This is due to the change management plan that ensures unauthorized persons can not alter information. Availability: information security becomes a problem if the secured information isn’t accessible when needed. ISO 27001 enables authorized persons to have access to information whenever required to ensure that business operations are uninterrupted. By maintaining these guidelines, companies can put in place an effective information security system and risk management plan to prevent data leaks, theft, or hacks. How does my firewall management help with ISO 27001? Firewalls are the software in your organization’s IT structure managing the connection between different networks. Effective firewall management can help in designing the right Information Security Policy (ISP). In turn, your organization will be able to achieve ISO 27001 compliance. Thus, your firewall policies can help with ISO 27001 by enabling organizations to design an Information Security Policy that agrees with the standard required for compliance. What is the Importance of ISO 27001 Certification, and how can I gain it? ISO 27001 certification offers several advantages to businesses and organizations. It demonstrates to partners, investors, and customers that the certified business has a reliable information security management system, thus winning their trust. Also, it enhances communications security so that third parties do not interfere with your company’s operating system. You also get to reduce the risk of security failure, saving you from financial losses and penalties. Once you’ve met the compliance requirements, you may gain an ISO 27001 certification by registering with an accredited certification body Schedule a Demo How can AlgoSec Help with ISO 27001 Compliance? Organizations must regularly conduct audits and prepare compliance reports to attain and maintain ISO 27001 certification. The data generated from event logs are equally helpful in enhancing threat intelligence and overall operations security. This process is often time-consuming and cost-demanding, and that’s where AlgoSec comes in. Being an ISO 27001-certified vendor, AlgoSec understands the challenges of ISO 27001 compliance and is dedicated to providing affordable and effective solutions. AlgoSec automatically generates pre-populated, audit-ready compliance reports for ISO 27001 and other leading industry regulations like SOX, BASEL II, GLBA, PCI DSS, and FISMA. This technique helps companies reduce audit preparation efforts and costs and uncovers loopholes in their ISMS. As a result, businesses can take proper measures to ensure full ISO 27001 compliance, thus becoming worthy of the certification. Schedule a Demo Select a size Introductory prologue What Is ISO/IEC 27001? Evolution of ISO/IEC 27001 Business Benefits of ISO/IEC 27001 ISO/IEC 27001 Compliance FAQs How can AlgoSec Help with ISO 27001 Compliance? 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 continuous compliance Solution overview See how this customer improved compliance readiness and risk management with AlgoSec Case study Choose a better way to manage your network

AlgoSec Horizon platform empowers organizations to seamlessly secure applications across complex, converging cloud and on-premise network environments with AI-driven visibility, automation and risk mitigation AlgoSec Launches AlgoSec Horizon, its Most Advanced Application-Centric Security Platform for Converging Cloud and On-Premise Environments AlgoSec Horizon platform empowers organizations to seamlessly secure applications across complex, converging cloud and on-premise network environments with AI-driven visibility, automation and risk mitigation February 11, 2025 Speak to one of our experts RIDGEFIELD PARK, NJ, February 11, 2025 – AlgoSec , a global cybersecurity leader, today announced the launch of AlgoSec Horizon , the industry's first and only application-centric security management and automation platform designed for hybrid networks. By applying an application-centric approach to security, the AlgoSec Horizon platform enables security teams to manage application connectivity and security policies consistently across both cloud and data center environments. Gartner predicts that by 2027 , 50% of critical enterprise applications will reside outside of centralized public cloud locations, underscoring the ongoing expansion, evolution and complexity of today’s network infrastructures. Yet, many businesses still have a segmented team that splits focus between development and security teams in an effort to ensure holistic protection. To combat these challenges, businesses are embracing unified platforms that converge cloud and data center security teams to align strategies, unify policy enforcement and ensure consistent security within hybrid environments. “Today's networks are 100x more complex as a result of the rapid acceleration of application deployment and network complexity, requiring organizations to embrace platformization to unify security operations, automate policies and enhance visibility across infrastructures,” said Eran Shiff , VP Product of AlgoSec. “With the launch of the AlgoSec Horizon Platform, organizations now have full visibility into their hybrid-cloud network, allowing for increased security without business productivity interference.” As the first and only application-centric security management and automation platform for the hybrid network, AlgoSec Horizon utilizes advanced AI capabilities to automatically discover and identify an organization’s business applications across multi-clouds and data centers, and remediate risks more effectively. The platform serves as a single source for visibility into security and compliance issues across hybrid network environments to ensure adherence to security standards and regulations. Through AlgoSec Horizon, organizations are able to: ● Visualize application connectivity: Utilize advanced AI modules to discover and identify running business applications within an organization’s network, including their connectivity, network zones, risks, vulnerabilities and resources, to reduce operational complexity and simplify management. ● Securely automate application connectivity changes: Ensure smooth business operations by intelligently automating security policy changes with a focus on business applications. AlgoSec’s intelligent automation minimizes misconfigurations and enhances operational resilience to accelerate application delivery from weeks to hours. ● Prioritize risk mitigation based on business context: Prioritize remediation efforts based on the criticality of affected applications and associated risks, to ensure resources are effectively allocated to protect vital business processes. AlgoSec helps prioritize security efforts based on the criticality of business applications, industry best practices, relevant regulations and specific security policies, to ensure the most severe vulnerabilities are addressed first. ● Maintain application-centric compliance: Streamline regulatory adherence, make audits faster and easier to manage, and ensure that organizations remain compliant with minimal effort and reduce the risk of non-compliance penalties across the entire hybrid environment. During Cisco Live 2025 Amsterdam , AlgoSec will invite attendees to experience and demo the Horizon Platform at stand C05. To request a media briefing with AlgoSec at the show, please email [email protected] . About AlgoSec AlgoSec, a global cybersecurity leader, empowers organizations to securely accelerate application delivery up to 10 times faster by automating application connectivity and security policy across the hybrid network environment. With two decades of expertise securing hybrid networks, over 2,200 of the world's most complex organizations trust AlgoSec to help secure their most critical workloads. AlgoSec Horizon platform utilizes advanced AI capabilities, enabling users to automatically discover and identify their business applications across multi-clouds and datacenters, and remediate risks more effectively. It serves as a single source for visibility into security and compliance issues across the hybrid network environment, to ensure ongoing adherence to internet security standards, industry, and internal regulations. Additionally, organizations can leverage intelligent change automation to streamline security change processes, thus improving security and agility. Learn how AlgoSec enables application owners, information security experts, SecOps and cloud security teams to deploy business applications faster while maintaining security at www.algosec.com . MEDIA CONTACT: Michelle Rand Alloy, on behalf of AlgoSec [email protected] 855-300-8209

As 2022 comes to a close, Professor Avishai Wool, AlgoSec Co-Founder and CTO, provides his top 5 issues organizations will need to be... IaC 2023 Cybersecurity Predictions and Best Practices Prof. Avishai Wool 2 min read Prof. Avishai Wool Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 12/6/22 Published As 2022 comes to a close, Professor Avishai Wool, AlgoSec Co-Founder and CTO, provides his top 5 issues organizations will need to be aware in 2023 that will also dominate the cyber community conversation. 1) Application centric approach to network security will supersede basic NSPM I think the market has matured to the point where the NSPM approach has reached a tipping point and I see the shift to an application perspective becoming the de facto approach in network security policy management as there are better and more robust technologies in the market that can help organizations get there faster. I see this shift becoming even more viable in 2023 based on recent market trends in which organizations are opting for downsizing and trying to do more with the smaller staff at the expense of losing tribal knowledge. As a result, I see organizations shifting more towards adopting a holistic approach to network security that are more application centric in which they can retain critical knowledge, such as application traffic intent and application policy rules, so that the new generations can step in and pick up where the previous predecessors left off. 2) Containerization will enhance layered security I expect container security to be increasingly popular in the future, as companies understand that their existing network security mechanisms are not enough for the communication networks of today. Containers are seen as a cost-effective light-weight solution for deployment – and deploying them introduces another inner layer where security policies can be applied: behind the perimeter filters, the internal zoning, and the micro-segmentation, organizations can now also consider nano-segmentation at the container level. Vulnerability testing is another dimension of the container platform especially within cloud applications and SaaS products. The common Kubernetes platform offers both opportunities and challenges for vulnerability scanners. Beyond 2023 , businesses will need to enhance both their visibility and management capabilities of security within their containerized applications 3) Security driven IaaS ecosystems to improve network security I expect the popularity of Infrastructure as a service (IaaS) to continue to soar, making it difficult for security teams to keep up with the associated risks and vulnerabilities. Pre-set security settings may not meet the needs of the organization and customizing these settings can prove to be difficult. The customizability of IaaS offers great potential for productivity, but it also makes it complicated to secure. The bottom line is that companies can no longer depend on their network perimeter to guard sensitive data. In response, I anticipate organizations that begin utilizing an “Always-on Security” approach such as Infrastructure as Code (IaC) which would permit them to construct personalized policies to control the development environments during each phase of the software development life cycle (SDLC) and recognize potential risks, security flaws, and compliance issues on a what-if basis, before deploying flawed settings into production. 4) Cloud-native security tools will reign supreme I expect that cloud-based security systems will become more commonplace: these security solutions offer a wide range of abilities, such as secure access, identity and access management, data loss prevention, application security, automation of security, detection and prevention of intrusions, security information and event management, and encryption. With companies transitioning more workloads to the cloud, they will want to make use of many of these features. These tools make it possible for remote teams to manage a greater public cloud presence: comfortably configuring services and automating processes, to identify and preemptively tackle any kind of threats. To bridge the gap in cloud data security, I anticipate the emergence of data safeguarding systems that are designed specifically for cloud usage and are able to link up with public cloud systems in an advanced, agentless manner. This has been classified in the market as Cloud Native Application Protection Platform (CNAPP) . These platforms must be able to detect where the data is stored and what sorts of data are stored in the cloud, so that corporations can prioritize on what is most important – defending their most sensitive data and cloud-based applications without interfering with their normal operations. 5) Expect ransomware not to go away and get even more sophisticated Organizations in 2022 saw no let-up from ransomware threats, some of whom were attacked multiple times and I do not see any reason why this trend will change in 2023. Cyber criminals are getting more resourceful and savvier in their attempts to stay ahead of law enforcement, and I anticipate these attacks will only become more frequent as their perpetrators are proving more capable of infiltrating many organizations’ cyber defenses. In response, organizations will have to seek more technology solutions to protect data at the source. But that would not suffice. I think organizations will need to look beyond technological solutions and apply better preparedness strategies. Whether it be Zero Trust or something less overarching but more practical for an organization’s business needs, such as Micro-segmentation , it would ensure that threat-actors would not be able to access the data residing inside the security perimeter. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

AlgoSec extends Cisco ACI’s policy-based automation to security devices in the Data Center AlgoSec’s Network Security Management Solution Now on Cisco’s Global Price List AlgoSec extends Cisco ACI’s policy-based automation to security devices in the Data Center November 26, 2019 Speak to one of our experts Ridgefield Park, NJ, USA (November 26, 2019) – AlgoSec, a leading provider of business-driven network security management solutions, today announced the availability of its integrated solution for Cisco ACI and security devices on Cisco’s Global Price List. This enables Cisco’s direct and channel sales network to offer AlgoSec’s solutions to customers through Cisco’s SolutionsPlus program. Cisco ACI, the industry’s leading software-defined networking solution, facilitates application agility and Data Center automation. ACI enables scalable multi-cloud networks with a consistent policy model and provides the flexibility to move applications seamlessly to any location or any cloud while maintaining security and high availability. AlgoSec integrates with Cisco ACI to extend ACI’s policy-based automation to multi-vendor security devices across the Data Center, on its edges and in the cloud. AlgoSec Security Management Solution for ACI enables customers to better ensure continuous compliance and automates the provisioning of security policies across ACI fabric and multi-vendor security devices connected to the ACI fabric, helping customers build more secure Data Centers. “AlgoSec and Cisco ACI share an application-centric approach to network security management, allowing customers to realize the full potential of intent-based Data Centers. We are delighted to be a part of Cisco’s Solutions Plus program and get listed on Global Price List,” said Avishai Wool, CTO and co-founder at AlgoSec. “Extending Cisco ACI’s policy driven automation to security devices, closely aligns with AlgoSec’s strategies and will deliver powerful benefits to our mutual customers. It enables customers to build truly automated IT environments that are flexible, secure and responsive to their business needs,” added Bruno Weinberger, VP, Strategic Alliances at AlgoSec. “Networking teams are increasingly adopting application-centric, policy-driven approach to meet rapidly changing requirements from IT teams and application owners,” said Ranga Rao, Senior Director of Product Management and Solutions, Cisco Data Center Networking. “AlgoSec security management solution extends ACI’s policy model and automation capabilities to security devices, allowing customers and partners to build agile and more secure data centers.” Cisco and AlgoSec’s channel partners share an equal level of enthusiasm about this initiative. “This collaboration between Cisco and AlgoSec is a great news for Conscia. As a Cisco Gold Partner and AlgoSec’s strategic partner, we hope to enable customers to realize the potential of application driven security automation, help ensure continuous compliance and reduce the attack surface in their Data Centers” said Henrik Skovfoged, System Engineering Director, Conscia A/S. About Cisco DevNet SolutionsPlus Program DevNet Solutions Plus 2.0 places a select set of “Cisco Compatible” products on the Cisco Systems price list, making it faster for customers to order non-Cisco products from Cisco sales teams and channel partners. Products in Cisco DevNet Solutions Plus 2.0 complement and augment Cisco’s advanced technology products. Cisco DevNet Solutions Plus 2.0 vendors are also part of the Cisco® Solution Partner Program. About AlgoSec The leading provider of business-driven network security management solutions, AlgoSec helps the world’s largest organizations align security with their mission-critical business processes. With AlgoSec, users can discover, map and migrate business application connectivity, proactively analyze risk from the business perspective, tie cyber-attacks to business processes and intelligently automate network security changes with zero touch – across their cloud, SDN and on-premise networks. Over 1,800 enterprises , including 20 of the Fortune 50, have utilized AlgoSec’s solutions to make their organizations more agile, more secure and more compliant – all the time. Since 2005, AlgoSec has shown its commitment to customer satisfaction with the industry’s only money-back guarantee .All product and company names herein may be trademarks of their registered owners. Media Contacts: Tsippi [email protected] Craig CowardContext Public [email protected] +44 (0)1625 511 966