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In today’s digital world, is your data 100% secure? As more people and businesses use cloud services to handle their data,... Cloud Security Your Complete Guide to Cloud Security Architecture 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 7/4/23 Published In today’s digital world, is your data 100% secure? As more people and businesses use cloud services to handle their data, vulnerabilities multiply. Around six out of ten companies have moved to the cloud, according to Statista . So keeping data safe is now a crucial concern for most large companies – in 2022, the average data leak cost companies $4.35 million . This is where cloud security architecture comes in. Done well, it protects cloud-based data from hackers, leaks, and other online threats. To give you a thorough understanding of cloud security architecture, we’ll look at; What cloud security architecture is The top risks for your cloud How to build your cloud security How to choose a CPSM (Cloud Security Posture Management) tool Let’s jump in What is cloud security architecture? Let’s start with a definition: “Cloud security architecture is the umbrella term used to describe all hardware, software and infrastructure that protects the cloud environment and its components, such as data, workloads, containers, virtual machines and APIs.” ( source ) Cloud security architecture is a framework to protect data stored or used in the cloud. It includes ways to keep data safe, such as controlling access, encrypting sensitive information, and ensuring the network is secure. The framework has to be comprehensive because the cloud can be vulnerable to different types of attacks. Three key principles behind cloud security Although cloud security sounds complex, it can be broken down into three key ideas. These are known as the ‘CIA triad’, and they are; Confidentiality Integrity Availability ‘The CIA Triad’ Image source Confidentiality Confidentiality is concerned with data protection. If only the correct people can access important information, breaches will be reduced. There are many ways to do this, like encryption, access control, and user authentication. Integrity Integrity means making sure data stays accurate throughout its lifecycle. Organizations can use checksums and digital signatures to ensure that data doesn’t get changed or deleted. These protect against data corruption and make sure that information stays reliable. Availability Availability is about ensuring data and resources are available when people need them. To do this, you need a robust infrastructure and ways to switch to backup systems when required. Availability also means designing systems that can handle ‘dos attacks’ and will interrupt service. However, these three principles are just the start of a strong cloud infrastructure. The next step is for the cloud provider and customer to understand their security responsibilities. A model developed to do this is called the ‘Shared Responsibility Model.’ Understanding the Shared Responsibility Model Big companies like Amazon Web Services (AWS), Microsoft Azure, and Google Cloud Platform offer public cloud services. These companies have a culture of being security-minded , but security isn’t their responsibility alone. Companies that use these services also share responsibility for handling data. The division of responsibility depends on the service model a customer chooses. This division led Amazon AWS to create a ‘shared responsibility model’ that outlines these. Image Source There are three main kinds of cloud service models and associated duties: 1. Infrastructure as a Service (IaaS), 2. Platform as a Service (PaaS) 3. Software as a Service (SaaS). Each type gives different levels of control and flexibility. 1. Infrastructure as a Service (IaaS) With IaaS, the provider gives users virtual servers, storage, and networking resources. Users control operating systems, but the provider manages the basic infrastructure. Customers must have good security measures, like access controls and data encryption. They also need to handle software updates and security patches. 2. Platform as a Service (PaaS) PaaS lets users create and run apps without worrying about having hardware on-premises. The provider handles infrastructure like servers, storage, and networking. Customers still need to control access and keep data safe. 3. Software as a Service (SaaS) SaaS lets users access apps without having to manage any software themselves. The provider handles everything, like updates, security, and basic infrastructure. Users can access the software through their browser and start using it immediately. But customers still need to manage their data and ensure secure access. Top six cybersecurity risks As more companies move their data and apps to the cloud, there are more chances for security to occur. Although cybersecurity risks change over time , some common cloud security risks are: 1. Human error 99% of all cloud security incidents from now until 2025 are expected to result from human error. Errors can be minor, like using weak passwords or accidentally sharing sensitive information. They can also be bigger, like setting up security incorrectly. To lower the risk of human error, organizations can take several actions. For example, educating employees, using automation, and having good change management procedures. 2. Denial-of-service attacks DoS attacks stop a service from working by sending too many requests. This can make essential apps, data, and resources unavailable in the cloud. DDoS attacks are more advanced than DoS attacks, and can be very destructive. To protect against these attacks, organizations should use cloud-based DDoS protection. They can also install firewalls and intrusion prevention systems to secure cloud resources. 3. Hardware strength The strength of the physical hardware used for cloud services is critical. Companies should look carefully at their cloud service providers (CSPs) hardware offering. Users can also use special devices called hardware security modules (HSMs). These are used to protect encryption codes and ensure data security. 4. Insider attacks Insider attacks could be led by current or former employees, or key service providers. These are incredibly expensive, costing companies $15.38 million on average in 2021 . To stop these attacks, organizations should have strict access control policies. These could include checking access regularly and watching for strange user behavior. They should also only give users access to what they need for their job. 5. Shadow IT Shadow IT is when people use unauthorized apps, devices, or services. Easy-to-use cloud services are an obvious cause of shadow IT. This can lead to data breaches , compliance issues, and security problems. Organizations should have clear rules about using cloud services. All policies should be run through a centralized IT control to handle this. 6. Cloud edge When we process data closer to us, rather than in a data center, we refer to the data as being in the cloud edge. The issue? The cloud edge can be attacked more easily. There are simply more places to attack, and sensitive data might be stored in less secure spots. Companies should ensure security policies cover edge devices and networks. They should encrypt all data, and use the latest application security patches. Six steps to secure your cloud Now we know the biggest security risks, we can look at how to secure our cloud architecture against them. An important aspect of cloud security practices is managing access your cloud resources. Deciding who can access and what they can do can make a crucial difference to security. Identity and Access Management (IAM) security models can help with this. Companies can do this by controlling user access based on roles and responsibilities. Security requirements of IAM include: 1. Authentication Authentication is simply checking user identity when they access your data. At a superficial level, this means asking for a username and password. More advanced methods include multi-factor authentication for apps or user segmentation. Multi-factor authentication requires users to provide two or more types of proof. 2. Authorization Authorization means allowing access to resources based on user roles and permissions. This ensures that users can only use the data and services they need for their job. Limiting access reduces the risk of unauthorized users. Role-based access control (RBAC) is one way to do this in a cloud environment. This is where users are granted access based on their job roles. 3. Auditing Auditing involves monitoring and recording user activities in a cloud environment. This helps find possible security problems and keeps an access log. Organizations can identify unusual patterns or suspicious behavior by regularly reviewing access logs. 4. Encryption at rest and in transit Data at rest is data when it’s not being used, and data in transit is data being sent between devices or users. Encryption is a way to protect data from unauthorized access. This is done by converting it into a code that can only be read by someone with the right key to unlock it. When data is stored in the cloud, it’s important to encrypt it to protect it from prying eyes. Many cloud service providers have built-in encryption features for data at rest. For data in transit, encryption methods like SSL/TLS help prevent interception. This ensures that sensitive information remains secure as it moves across networks. 5. Network security and firewalls Good network security controls are essential for keeping a cloud environment safe. One of the key network security measures is using firewalls to control traffic. Firewalls are gatekeepers, blocking certain types of connections based on rules. Intrusion detection and prevention systems (IDPS) are another important network security tool. IDPS tools watch network traffic for signs of bad activity, like hacking or malware. They then can automatically block or alert administrators about potential threats. This helps organizations respond quickly to security incidents and minimize damage. 6. Versioning and logging Versioning is tracking different versions of cloud resources, like apps and data. This allows companies to roll back to a previous version in case of a security incident or data breach. By maintaining a version history, organizations can identify and address security vulnerabilities. How a CSPM can help protect your cloud security A Cloud Security Posture Management (CSPM) tool helpful to safeguard cloud security. These security tools monitor your cloud environment to find and fix potential problems. Selecting the right one is essential for maintaining the security of your cloud. A CSPM tool like Prevasio management service can help you and your cloud environment. It can provide alerts, notifying you of any concerns with security policies. This allows you to address problems quickly and efficiently. Here are some of the features that Prevasio offers: Agentless CSPM solution Secure multi-cloud environments within 3 minutes Coverage across multi-cloud, multi-accounts, cloud-native services, and cloud applications Prioritized risk list based on CIS benchmarks Uncover hidden backdoors in container environments Identify misconfigurations and security threats Dynamic behavior analysis for container security issues Static analysis for container vulnerabilities and malware All these allow you to fix information security issues quickly to avoid data loss. Investing in a reliable CSPM tool is a wise decision for any company that relies on cloud technology. Final Words As the cloud computing security landscape evolves, so must cloud security architects. All companies need to be proactive in addressing their data vulnerabilities. Advanced security tools such as Prevasio make protecting cloud environments easier. Having firm security policies avoids unnecessary financial and reputational risk. This combination of strict rules and effective tools is the best way to stay secure. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Multi-Cloud Security Network Policy and Configuration Management Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Learn how Google Cloud and AlgoSec solutions help companies improve visibility and reduce risk in large complex hybrid networking environments Webinars Hybrid Cloud Security with Google and AlgoSec Learn how Google Cloud and AlgoSec solutions help companies improve visibility and reduce risk in large complex hybrid networking environments Learn how Google Cloud and AlgoSec solutions help companies improve visibility and reduce risk in large complex hybrid networking environments November 15, 2023 Faye Feng Product Manager at Google Ava Chawla Global Head of Cloud Security Relevant resources Why misconfigurations continue to plague public cloud network services and how to avoid them? Keep Reading Security policy management for the hybrid cloud environment Read an Ebook 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

The certification demonstrates AlgoSec’s commitment to protecting its customers’ and partners’ data Data protection is a top priority for... Auditing and Compliance AlgoSec attains ISO 27001 Accreditation Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 1/27/20 Published The certification demonstrates AlgoSec’s commitment to protecting its customers’ and partners’ data Data protection is a top priority for AlgoSec, proven by the enhanced security management system we have put in place to protect our customers’ assets. This commitment has been recognized by the ISO, who has awarded AlgoSec the ISO/IEC 27001 certification . The ISO 27001 accreditation is a voluntary standard awarded to service providers who meet the criteria for data protection. It outlines the requirements for building, monitoring, and improving an information security management system (ISMS); a systematic approach to managing sensitive company information including people, processes and IT systems. The ISO 27001 standard is made up of ten detailed control categories detailing information security, security organization, personnel security, physical security, access control, continuity planning, and compliance. To achieve the ISO 27001 certification, organizations must demonstrate that they can protect and manage sensitive company and customer information and undergo an independent audit by an accredited agency. The benefits of working with an ISO 27001 supplier include: Risk management – Standards that govern who can access information. Information security – Standards that detail how data is handled and transmitted. Business continuity – In order to maintain compliance, an ISMS must be continuously tested and improved. Obtaining the ISO 27001 certification is a testament to our drive for excellence and offers reassurance to our customers that our security measures meet the criteria set out by a global defense standard. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Financial Institutions: Best Practices for Security & Compliance In the Era of Digital Transformation Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Assessing the Value of Network Segmentation from a Business Application Perspective Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

AlgoSec products are sold through our worldwide network of channel partners Request a quote, contact sales or locate a Partner How to buy Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Request a quote Contact Sales Locate a Partner Send us a note Work email* First name* Last name* Company* country* Select country... Short answer* Long answer Send message

Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow... Risk Management and Vulnerabilities Bridging the DevSecOps Application Connectivity Disconnect via IaC Anat Kleinmann 2 min read Anat Kleinmann 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 11/7/22 Published Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow teams to take a preventive approach to secure application connectivity . With customer demands changing at breakneck speed, organizations need to be agile to win in their digital markets. This requires fast and frequent application deployments, forcing DevOps teams to streamline their software development processes. However, without the right security tools placed in the early phase of the CI/CD pipeline, these processes can be counterproductive leading to costly human errors and prolonged application deployment backups. This is why organizations need to find the right preventive security approach and explore achieving this through Infrastructure-as-Code. Understanding Infrastructure as Code – what does it actually mean? Infrastructure-as-Code (Iac) is a software development method that describes the complete environment in which the software runs. It contains information about the hardware, networks, and software that are needed to run the application. IAC is also referred to as declarative provisioning or automated provisioning. In other words, IAC enables security teams to create an automated and repeatable process to build out an entire environment. This is helpful for eliminating human errors that can be associated with manual configuration. The purpose of IaC is to enable developers or operations teams to automatically manage, monitor and provision resources, rather than manually configure discrete hardware devices and operating systems. What does IaC mean in the context of running applications in a cloud environment When using IaC, network configuration files can contain your applications connectivity infrastructure connectivity specifications changes, which mkes it easier to edit, review and distribute. It also ensures that you provision the same environment every time and minimizes the downtime that can occur due to security breaches. Using Infrastructure as code (IaC) helps you to avoid undocumented, ad-hoc configuration changes and allows you to enforce security policies in advance before making the changes in your network. Top 5 challenges when not embracing a preventive security approach Counterintuitive communication channel – When reviewing the code manually, DevOps needs to provide access to a security manager to review it and rely on the security manager for feedback. This can create a lot of unnecessary back and forth communication between the teams which can be a highly counterintuitive process. Mismanagement of DevOps resources – Developers need to work on multiple platforms due to the nature of their work. This may include developing the code in one platform, checking the code in another, testing the code in a third platform and reviewing requests in a fourth platform. When this happens, developers often will not be alerted of any network risk or non-compliance issue as defined by the organization. Mismanagement of SecOps resources – At the same time, network security managers are also bombarded with security review requests and tasks. Yet, they are expected to be agile, which is impossible in case of manual risk detection. Inefficient workflow – Sometimes risk analysis process is skipped and only reviewed at the end of the CI/CD pipeline, which prolongs the delivery of the application. Time consuming review process – The risk analysis review itself can sometimes take more than 30 minutes long which can create unnecessary and costly bottlenecking, leading to missed rollout deadlines of critical applications Why it’s important to place security early in the development cycle Infrastructure-as-code (IaC) is a crucial part of DevSecOps practices. The current trend is based on the principle of shift-left, which places security early in the development cycle. This allows organizations to take a proactive, preventive approach rather than a reactive one. This approach solves the problem of developers leaving security checks and testing for the later stages of a project often as it nears completion and deployment. It is critical to take a proactive approach since late-stage security checks lead to two critical problems. Security flaws can go undetected and make it into the released software, and security issues detected at the end of the software development lifecycle demand considerably more time, resources and money to remediate than those identified early on. The Power of IaC Connectivity Risk Analysis and Key Benefits IaC connectivity risk analysis provides automatic and proactive connectivity risk analysis, enabling a frictionless workflow for DevOps with continuous customized risk analysis and remediation managed and controlled by the security managers. IaC Connectivity Risk Analysis enables organizations to use a single source of truth for managing the lifecycle of their applications. Furthermore, security engineers can use IaC to automate the design, deployment, and management of virtual assets across a hybrid cloud environment. With automated security tests, engineers can also continuously test their infrastructure for security issues early in the development phase. Key benefits Deliver business applications into production faster and more securely Enable a frictionless workflow with continuous risk analysis and remediation Reduce connectivity risks earlier in the CI/CD process Customizable risk policy to surface only the most critical risks The Takeaway Don’t get bogged down by security and compliance. When taking a preventive approach using a connectivity risk analysis via IaC, you can increase the speed of deployment, reduce misconfiguration and compliance errors, improve DevOps – SecOps relationship and lower costs Next Steps Let AlgoSec’s IaC Connectivity Risk Analysis can help you take a proactive, preventive security approach to get DevOps’ workflow early in the game, automatically identifying connectivity risks and providing ways to remediate them. Watch this video or visit us at GitHub to learn how. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

The Big Collection Of FIREWALL MANAGEMENT TIPS Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

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

Discover five essential tips for securing your network in 2021 with Algosec's network security experts. Webinars 5 power tips to keep your network secure in 2021 No one could have predicted how unpredictable 2020 would be, so we’re here to help you get prepared for whatever is in store in 2021. No matter what happens in the upcoming year – there are five things you can do now to keep your network secure in 2021. Join network security experts Jade Kahn and Asher Benbenisty, and learn how to: Never fly blind: Ensure visibility across your entire hybrid network Do more with less: Accelerate digital transformation & avoid misconfigurations with automation Stay continuously compliant Fight ransomware with micro-segmentation Accelerate in the cloud January 13, 2021 Jade Kahn CMO Asher Benbenisty Director of product marketing Relevant resources 5 Network Security Management Predictions for 2020 Watch Video 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’s latest product release provides organizations with enhanced application connectivity visibility, effective security, and continuous compliance with the most recent regulations across their multi-cloud environments. Ensure up to date compliance and tighten your hybrid network security posture with AlgoSec A32.60 AlgoSec’s latest product release provides organizations with enhanced application connectivity visibility, effective security, and continuous compliance with the most recent regulations across their multi-cloud environments. September 13, 2023 Speak to one of our experts RIDGEFIELD PARK, N.J., September 13, 2023 – AlgoSec, a global cybersecurity leader, introduces AlgoSec A32.60, the latest in application connectivity security and compliance. AlgoSec A32.60 provides an effective solution for organizations to secure application connectivity in their hybrid and multi-cloud estate. A32.60 integrates cloud security visibility into AlgoSec’s security management platform and enables organizations to ensure ongoing compliance with industry regulatory standards. The key benefits that AlgoSec A32.60 delivers to network and security experts include: Enhanced visibility and security of north-south network traffic: New integration with Palo Alto Prisma Access, now encompassing mobile user policies within the Prisma access fabric. New integration and support for SD-WAN Versa Networks, offering extended visibility into network connectivity and an intuitive topology map. Ensuring ongoing regulatory compliance: Enhanced ISO 27001 report with the latest 2022 standards, allowing organizations to ensure alignment with the most current regulations. Integration of a new ECB (European Central Bank) regulations report, allowing companies to confidently navigate evolving compliance requirements. Integrating cloud security visibility into network security policy management: Expanded integration with Microsoft Azure firewall enables centralized visibility across both cloud and traditional firewalls, all within a single, unified management solution. New automation support for Fully Qualified Domain Name (FQDN) objects in Palo Alto Panorama, Fortinet FortiManager, and Check Point. This allows users to efficiently manage and secure their network resources while embracing the flexibility of cloud environments. 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, achieve compliance at the application-level 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. See what securely accelerating your digital transformation, move-to-cloud, infrastructure modernization, or micro-segmentation initiatives looks like at www.algosec.com