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Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. Atruvia (formerly Fiducia IT AG) Reduces Security Risks For Banks With Algosec Organization Atruvia Industry Technology Headquarters Karlsruhe, Deutschland Download case study Share Customer
success stories "AlgoSec’s Security Management Solution is incredibly powerful. Its intelligent process improvements have directly translated into the highest level of security and compliance for our customers’ networks" Background With over 45 years’ experience in the banking sector, Atruvia ( formerly Fiducia IT AG) is one of the top ten IT providers in Germany. Today, Atruvia manages the IT networks of nearly 1,100 banks, constituting more than 100,000 PC workstations, 6,600 servers and 25,000 self-service banking terminals. Responsible for ensuring the smooth and secure processing of more than 16 billion transactions per year for its customers, Atruvia’s risk mitigation and regulatory compliance strategies are of utmost importance. Challenge To protect its customer networks, Atruvia implemented a number of security solutions, including 60 Check Point and 20 Juniper firewall clusters. However, managing multiple firewalls in a multi-vendor environment proved challenging. “Performing vulnerability assessments for such a large and complex firewall environment was extremely time-consuming, labor-intensive and prone to human error,” says Lutz Bleyer, Atruvia’s Chief Information Security Officer. With multiple stakeholders at each of its client organizations, Atruvia required a structured change management process to prevent firewall policies from growing unmanageable and creating security risks. “We needed a proven firewall management and workflow solution to eliminate potential security risks while providing us with complete visibility into our customer networks, anytime, anywhere,” says Bleyer. Solution After an in-depth analysis, Atruvia chose the AlgoSec Security Management Solution to optimize its security, compliance and change management processes. “AlgoSec provided the most comprehensive, intelligent automation solution for our firewall operations, helping us increase efficiency while improving risk mitigation and compliance,” says Bleyer. Results AlgoSec’s topology-aware technology provides Atruvia with complete visibility into the security landscape of its customers’ networks. “AlgoSec’s in-depth visibility enables us to easily create a hierarchy profile and establish a competency baseline of operations for each networks’ firewalls, even when multiple vendor technologies are involved,” says Bleyer. Atruvia’s security consultants and auditors are now closely aligned with their customers’ IT teams, regardless of their location. “The level of visibility AlgoSec provides across our customers’ security networks, and the ability to perform coordinated tasks remotely with them, enables us to work hand-in-hand as a joint team,” says Bleyer. Atruvia also uses AlgoSec to automate policy change management across customers’ firewall environments, enabling the company to eliminate manual and inefficient processes associated with the security policy change lifecycle, save time and reduce the potential for human error. “AlgoSec has fundamentally changed how we manage sophisticated, multi-device, multi-vendor firewall environments. By automating our workflows, we’ve eliminated unnecessary policy changes and reduced the time required to process changes by half,” explains Bleyer. “Thanks to AlgoSec’s intelligent automation, we’ve gained valuable optimization capabilities enabling our teams to operate smarter and faster.” Another important AlgoSec feature is its automatic assessment and reporting capabilities, which help Atruvia ensure that it remains in continuous compliance with corporate governance rules and adheres to regulatory standards, including ISO 27001, ISO 27002 and Sarbanes-Oxley (SOX). Data and network security, particularly within the financial sector, requires incredible focus on risk management and mitigation. “With AlgoSec we can now analyze every change and its impact on the network before it is live, and focus on risk mitigation rather than crisis management.” In summary, Bleyer commented, “Not only does AlgoSec more than measure up from a technology perspective, but the integrity of the company and its employees has surpassed our expectations and raised the bar for what we look for in other partners.” Schedule time with one of our experts

Silos hurt security NetworkSecurity is the responsibility of both NetOps SecOps In this panel with Cisco, Conscia AlgoSec security experts, we’ll share how to bring the teams together Webinars Bridging NetOps and SecOps: An Experts’ Panel Silos hurt security. Your network and its security are not managed by just one team. It is the responsibility of both NetOps and SecOps, but these teams don’t always play well together. In this security experts’ panel, Doug Hurd from Cisco, Henrik Skovfoged from Conscia, Oren Amiram and Tsippi Dach from AlgoSec will share how you can bring NetOps and SecOps teams together with Cisco ACI, Cisco Secure Workload (formerly Cisco Tetration) and AlgoSec. Discover how NetOps and SecOps teams can: Bridge the NetOps/SecOps divide, improve communication, and break down the silos between network and security. Align network, security, and business application owners Improve the entire network security with Cisco Secure Workload and firewall management Automate tasks and gain network traffic visibility of networks and security controls for threat detection, analysis and response across Cisco ACI and the entire hybrid and multi-vendor network. March 16, 2021 Alex Hilton Chief Executive at Cloud Industry Forum (CIF) Tsippi Dach Director of marketing communications Relevant resources Cisco & AlgoSec achieving application-driven security across your hybrid network Keep Reading DevSecOps: Putting the Sec into the DevOps 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

Containers aren’t VMs. They’re a great lightweight deployment solution, but they’re only as secure as you make them. You need to keep... Cloud Security Best Practices for Docker Containers’ Security 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 7/27/20 Published Containers aren’t VMs. They’re a great lightweight deployment solution, but they’re only as secure as you make them. You need to keep them in processes with limited capabilities, granting them only what they need. A process that has unlimited power, or one that can escalate its way there, can do unlimited damage if it’s compromised. Sound security practices will reduce the consequences of security incidents. Don’t grant absolute power It may seem too obvious to say, but never run a container as root. If your application must have quasi-root privileges, you can place the account within a user namespace , making it the root for the container but not the host machine. Also, don’t use the –privileged flag unless there’s a compelling reason. It’s one thing if the container does direct I/O on an embedded system, but normal application software should never need it. Containers should run under an owner that has access to its own resources but not to other accounts. If a third-party image requires the –privileged flag without an obvious reason, there’s a good chance it’s badly designed if not malicious. Avoid running a Docker socket in a container. It gives the process access to the Docker daemon, which is a useful but dangerous power. It includes the ability to control other containers, images, and volumes. If this kind of capability is necessary, it’s better to go through a proper API. Grant privileges as needed Applying the principle of least privilege minimizes container risks. A good approach is to drop all capabilities using –cap-drop=all and then enabling the ones that are needed with –cap-add . Each capability expands the attack surface between the container and its environment. Many workloads don’t need any added capabilities at all. The no-new-privileges flag under security-opt is another way to protect against privilege escalation. Dropping all capabilities does the same thing, so you don’t need both. Limiting the system resources which a container guards not only against runaway processes but against container-based DoS attacks. Beware of dubious images When possible, use official Docker images. They’re well documented and tested for security issues, and images are available for many common situations. Be wary of backdoored images . Someone put 17 malicious container images on Docker Hub, and they were downloaded over 5 million times before being removed. Some of them engaged in cryptomining on their hosts, wasting many processor cycles while generating $90,000 in Monero for the images’ creator. Other images may leak confidential data to an outside server. Many containerized environments are undoubtedly still running them. You should treat Docker images with the same caution you’d treat code libraries, CMS plugins, and other supporting software, Use only code that comes from a trustworthy source and is delivered through a reputable channel. Other considerations It should go without saying, but you need to rebuild your images regularly. The libraries and dependencies that they use get security patches from time to time, and you need to make sure your containers have them applied. On Linux, you can gain additional protection from security profiles such as secomp and AppArmor . These modules, used with the security-opt settings, let you set policies that will be automatically enforced. Container security presents its distinctive challenges. Experience with traditional application security helps in many ways, but Docker requires an additional set of practices. Still, the basics apply as much as ever. Start with trusted code. Don’t give it the power to do more than it needs to do. Use the available OS and Docker features for enhancing security. Monitor your systems for anomalous behavior. If you take all these steps, you’ll ward off the large majority of threats to your Docker environment. 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

Update : Next two parts of the analysis are available here and here . As earlier reported by FireEye, the actors behind a global... Cloud Security Sunburst Backdoor: A Deeper Look Into The SolarWinds’ Supply Chain Malware 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 12/15/20 Published Update : Next two parts of the analysis are available here and here . As earlier reported by FireEye, the actors behind a global intrusion campaign have managed to trojanise SolarWinds Orion business software updates in order to distribute malware. The original FireEye write-up already provides a detailed description of this malware. Nevertheless, as the malicious update SolarWinds-Core-v2019.4.5220-Hotfix5.msp was still available for download for hours since the FireEye’s post, it makes sense to have another look into the details of its operation. The purpose of this write-up is to provide new information, not covered in the original write-up. Any overlaps with the original description provided by FireEye are not intentional. For start, the malicious component SolarWinds.Orion.Core.BusinessLayer.dll inside the MSP package is a non-obfuscated .NET assembly. It can easily be reconstructed with a .NET disassembler, such as ILSpy , and then fully reproduced in C# code, using Microsoft Visual Studio. Once reproduced, it can be debugged to better understand how it works. In a nutshell, the malicious DLL is a backdoor. It is loaded into the address space of the legitimate SolarWinds Orion process SolarWinds.BusinessLayerHost.exe or SolarWinds.BusinessLayerHostx64.exe . The critical strings inside the backdoor’s class SolarWinds.Orion.Core.BusinessLayer.OrionImprovementBusinessLayer are encoded with the DeflateStream Class of the .NET’s System.IO.Compression library, coupled with the standard base64 encoder. Initialisation Once loaded, the malware checks if its assembly file was created earlier than 12, 13, or 14 days ago. The exact number of hours it checks is a random number from 288 to 336. Next, it reads the application settings value ReportWatcherRetry . This value keeps the reporting status, and may be set to one of the states: New (4) Truncate (3) Append (5) When the malware runs the first time, its reporting status variable ReportWatcherRetry is set to New (4) . The reporting status is an internal state that drives the logic. For example, if the reporting status is set to Truncate , the malware will stop operating by first disabling its networking communications, and then disabling other security tools and antivirus products. In order to stay silent, the malware periodically falls asleep for a random period of time that varies between 30 minutes and 2 hours. At the start, the malware obtains the computer’s domain name . If the domain name is empty, the malware quits. It then generates a 8-byte User ID, which is derived from the system footprint. In particular, it is generated from MD5 hash of a string that consists from the 3 fields: the first or default operational (can transmit data packets) network interface’s physical address computer’s domain name UUID created by Windows during installation (machine’s unique ID) Even though it looks random, the User ID stays permanent as long as networking configuration and the Windows installation stay the same. Domain Generation Algorithm The malware relies on its own CryptoHelper class to generate a domain name. This class is instantiated from the 8-byte User ID and the computer’s domain name, encoded with a substitution table: “rq3gsalt6u1iyfzop572d49bnx8cvmkewhj” . For example, if the original domain name is “ domain “, its encoded form will look like: “ n2huov “. To generate a new domain, the malware first attempts to resolve domain name “ api.solarwinds.com “. If it fails to resolve it, it quits. The first part of the newly generated domain name is a random string, produced from the 8-byte User ID, a random seed value, and encoded with a custom base64 alphabet “ph2eifo3n5utg1j8d94qrvbmk0sal76c” . Because it is generated from a random seed value, the first part of the newly generated domain name is random. For example, it may look like “ fivu4vjamve5vfrt ” or “ k1sdhtslulgqoagy “. To produce the domain name, this string is then appended with the earlier encoded domain name (such as “ n2huov “) and a random string, selected from the following list: .appsync-api.eu-west-1[.]avsvmcloud[.]com .appsync-api.us-west-2[.]avsvmcloud[.]com .appsync-api.us-east-1[.]avsvmcloud[.]com .appsync-api.us-east-2[.]avsvmcloud[.]com For example, the final domain name may look like: fivu4vjamve5vfrtn2huov[.]appsync-api.us-west-2[.]avsvmcloud[.]com or k1sdhtslulgqoagyn2huov[.]appsync-api.us-east-1[.]avsvmcloud[.]com Next, the domain name is resolved to an IP address, or to a list of IP addresses. For example, it may resolve to 20.140.0.1 . The resolved domain name will be returned into IPAddress structure that will contain an AddressFamily field – a special field that specifies the addressing scheme. If the host name returned in the IPAddress structure is different to the queried domain name, the returned host name will be used as a C2 host name for the backdoor. Otherwise, the malware will check if the resolved IP address matches one of the patterns below, in order to return an ‘address family’: IP Address Subnet Mask ‘Address Family’ 10.0.0.0 255.0.0.0 Atm 172.16.0.0 255.240.0.0 Atm 192.168.0.0 255.255.0.0 Atm 224.0.0.0 240.0.0.0 Atm fc00:: fe00:: Atm fec0:: ffc0:: Atm ff00:: ff00:: Atm 41.84.159.0 255.255.255.0 Ipx 74.114.24.0 255.255.248.0 Ipx 154.118.140.0 255.255.255.0 Ipx 217.163.7.0 255.255.255.0 Ipx 20.140.0.0 255.254.0.0 ImpLink 96.31.172.0 255.255.255.0 ImpLink 131.228.12.0 255.255.252.0 ImpLink 144.86.226.0 255.255.255.0 ImpLink 8.18.144.0 255.255.254.0 NetBios 18.130.0.0 255.255.0.0 NetBios 71.152.53.0 255.255.255.0 NetBios 99.79.0.0 255.255.0.0 NetBios 87.238.80.0 255.255.248.0 NetBios 199.201.117.0 255.255.255.0 NetBios 184.72.0.0 255.254.0.0 NetBios For example, if the queried domain resolves to 20.140.0.1 , it will match the entry in the table 20.140.0.0 , for which the returned ‘address family’ will be ImpLink . The returned ‘address family’ invokes an additional logic in the malware. Disabling Security Tools and Antivirus Products If the returned ‘address family’ is ImpLink or Atm , the malware will enumerate all processes and for each process, it will check if its name matches one of the pre-defined hashes. Next, it repeats this processed for services and for the drivers installed in the system. If a process name or a full path of an installed driver matches one of the pre-defined hashes, the malware will disable it. For hashing, the malware relies on Fowler–Noll–Vo algorithm. For example, the core process of Windows Defender is MsMpEng.exe . The hash value of “ MsMpEng ” string is 5183687599225757871 . This value is specifically enlisted the malware’s source under a variable name timeStamps : timeStamps = new ulong[1] { 5183687599225757871uL } The service name of Windows Defender is windefend – the hash of this string ( 917638920165491138 ) is also present in the malware body. As a result, the malicioius DLL will attempt to stop the Windows Defender service. In order to disable various security tools and antivirus products, the malware first grants itself SeRestorePrivilege and SeTakeOwnershipPrivilege privileges, using the native AdjustTokenPrivileges() API. With these privileges enabled, the malware takes ownership of the service registry keys it intends to manipulate. The new owner of the keys is first attempted to be explicitly set to Administrator account. If such account is not present, the malware enumerates all user accounts, looking for a SID that represents the administrator account. The malware uses Windows Management Instrumentation query “ Select * From Win32_UserAccount ” to obtain the list of all users. For each enumerated user, it makes sure the account is local and then, when it obtains its SID, it makes sure the SID begins with S-1-5- and ends with -500 in order to locate the local administrator account. Once such account is found, it is used as a new owner for the registry keys, responsible for manipulation of the services of various security tools and antivirus products. With the new ownership set, the malware then disables these services by setting their Start value to 4 (Disabled): registryKey2.SetValue(“Start”), 4, RegistryValueKind.DWord); HTTP Backdoor If the returned ‘address family’ for the resolved domain name is NetBios , as specified in the lookup table above, the malware will initialise its HttpHelper class, which implements an HTTP backdoor. The backdoor commands are covered in the FireEye write-up, so let’s check only a couple of commands to see what output they produce. One of the backdoor commands is CollectSystemDescription . As its name suggests, it collects system information. By running the code reconstructed from the malware, here is an actual example of the data collected by the backdoor and delivered to the attacker’s C2 with a separate backdoor command UploadSystemDescription : 1. %DOMAIN_NAME% 2. S-1-5-21-298510922-2159258926-905146427 3. DESKTOP-VL39FPO 4. UserName 5. [E] Microsoft Windows NT 6.2.9200.0 6.2.9200.0 64 6. C:\WINDOWS\system32 7. 0 8. %PROXY_SERVER% Description: Killer Wireless-n/a/ac 1535 Wireless Network Adapter #2 MACAddress: 9C:B6:D0:F6:FF:5D DHCPEnabled: True DHCPServer: 192.168.20.1 DNSHostName: DESKTOP-VL39FPO DNSDomainSuffixSearchOrder: Home DNSServerSearchOrder: 8.8.8.8, 192.168.20.1 IPAddress: 192.168.20.30, fe80::8412:d7a8:57b9:5886 IPSubnet: 255.255.255.0, 64 DefaultIPGateway: 192.168.20.1, fe80::1af1:45ff:feec:a8eb NOTE: Field #7 specifies the number of days (0) since the last system reboot. GetProcessByDescription command will build a list of processes running on a system. This command accepts an optional argument, which is one of the custom process properties enlisted here . If the optional argument is not specified, the backdoor builds a process list that looks like: [ 1720] svchost [ 8184] chrome [ 4732] svchost If the optional argument is specified, the backdoor builds a process list that includes the specified process property in addition to parent process ID, username and domain for the process owner. For example, if the optional argument is specified as “ ExecutablePath “, the GetProcessByDescription command may return a list similar to: [ 3656] sihost.exe C:\WINDOWS\system32\sihost.exe 1720 DESKTOP-VL39FPO\UserName [ 3824] svchost.exe C:\WINDOWS\system32\svchost.exe 992 DESKTOP-VL39FPO\UserName [ 9428] chrome.exe C:\Program Files (x86)\Google\Chrome\Application\chrome.exe 4600 DESKTOP-VL39FPO\UserName Other backdoor commands enable deployment of the 2nd stage malware. For example, the WriteFile command will save the file: using (FileStream fileStream = new FileStream(path, FileMode.Append, FileAccess.Write)) { fileStream.Write(array, 0, array.Length); } The downloaded 2nd stage malware can then the executed with RunTask command: using (Process process = new Process()) { process.StartInfo = new ProcessStartInfo(fileName, arguments) { CreateNoWindow = false, UseShellExecute = false }; if (process.Start()) … Alternatively, it can be configured to be executed with the system restart, using registry manipulation commands, such as SetRegistryValue . Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. MIND Automates Firewall Management Operations and Improves The Quality of Service Organization MIND Industry Technology Headquarters Noida, Uttar Pradesh, India Download case study Share Customer
success stories "With AlgoSec, we can analyze the firewall policies more efficiently and spend less time on repetitive and error-prone manual tasks. This automation saves time and man hours by at least five hours per change" Global IT Consulting Company Improves Security and Increases Efficiency by Eliminating Error-prone Manual Firewall Management AlgoSec Business Impact Cut time to plan and implement firewall changes by 50% Network security reporting and audits available at the click of a button Improved risk assessment as part of firewall change process to ensure accuracy Enable existing team to spend more time on other security tasks Background MothersonSumi INfotech and Designs Limited (MIND) is a global provider of end-to-end IT solutions, serving organizations in 24 nations. MIND is certified for ISO 9001:2008, ISO/IEC 27001:2005 and CMM Level 5, and provides consultancy services and solutions for Application Development and Maintenance, IT Infrastructure Management Services, Product Development and Engineering Solutions and helps customers achieve their desired ISO level. Challenge MIND’s complex network consists of many remote locations and is secured with more than 40 firewalls from multiple vendors, including Check Point, Fortinet and Juniper as well as Blue Coat proxies. With hundreds of unnecessary rules in each of the firewalls under management, MIND’s Network Support team members were spending too much time cleaning up the policy rule base. “Cleaning up the policy rule base is a tedious, risky manually-intensive job,” said Santosh Sahoo, Assistant Project Manager at MIND. “Furthermore, we had to evaluate the risks based on best practices or our experience, which was time consuming. We also had to collect and organize this information into the proper reporting format for ISO 27001 requirements.” Additionally, manually planning and implementing firewall changes was a time-consuming and complex process, as was keeping track of all of the changes and updating records for auditing and/or rollback purposes. With all of these challenges, plus increasing network complexity, MIND realized they needed a more efficient method for centrally monitoring and managing all of their security devices and policies. Solution MIND selected the AlgoSec Security Management solution to automate firewall operations across the entire multivendor estate and reduce the resource strain. “There were many reasons why we chose AlgoSec over alternative options. It met all of our requirements by supporting a wider range of devices, providing a dashboard with immediate visibility and more robust policy analysis,” said Harvansh Sagar, GM of IT Infrastructure. Results Since implementing AlgoSec, the MIND team has significantly improved its firewall policy management change processes — from identifying any pre-existing rules in place, to risk assessment, to simulating the change. “AlgoSec has helped us make our our network more secure and has improved our ability to efficiency to manage more client devices with the same resources,” said Sagar. “We are now able to more efficiently analyze the firewall policies, spend less time on repetitive and error-prone manual tasks and perform a risk assessment before approving firewall changes. This automation saves time and man hours by at least five hours per change,” said Santosh. “AlgoSec’s firewall policy analysis has also improved the performance of the firewalls with features like policy tuning, identifying un-used policies and reordering policies.” With AlgoSec, MIND has a complete understanding of what is occurring with the policy across all of their firewalls. “We have a virtual server dedicated to AlgoSec as our management server for all of the firewalls in our environment. It monitors our security policy 24×7 and provides us with real-time alerting for details like ‘who added/modified/removed the rule, what time the policy was pushed,’ etc. Now we have full visibility of what’s going on with these devices,” said Santosh. Using AlgoSec, MIND has also been able to significantly reduce the time to perform audits and ensure compliance. “We can now run an audit report for ISO 27001 out-of-the-box and get a view of the network security policy status in just a click of button.” Schedule time with one of our experts

All organizations eventually inherit outdated technology infrastructure. As new technology becomes available, old apps and services... Firewall Change Management The Application Migration Checklist Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/25/23 Published All organizations eventually inherit outdated technology infrastructure. As new technology becomes available, old apps and services become increasingly expensive to maintain. That expense can come in a variety of forms: Decreased productivity compared to competitors using more modern IT solutions. Greater difficulty scaling IT asset deployments and managing the device life cycle . Security and downtime risks coming from new vulnerabilities and emerging threats. Cloud computing is one of the most significant developments of the past decade. Organizations are increasingly moving their legacy IT assets to new environments hosted on cloud services like Amazon Web Services or Microsoft Azure. Cloud migration projects enable organizations to dramatically improve productivity, scalability, and security by transforming on-premises applications to cloud-hosted solutions. However, cloud migration projects are among the most complex undertakings an organization can attempt. Some reports state that nine out of ten migration projects experience failure or disruption at some point, and only one out of four meet their proposed deadlines. The better prepared you are for your application migration project , the more likely it is to succeed. Keep the following migration checklist handy while pursuing this kind of initiative at your company. Step 1: Assessing Your Applications The more you know about your legacy applications and their characteristics, the more comprehensive you can be with pre-migration planning. Start by identifying the legacy applications that you want to move to the cloud. Pay close attention to the dependencies that your legacy applications have. You will need to ensure the availability of those resources in an IT environment that is very different from the typical on-premises data center. You may need to configure cloud-hosted resources to meet specific needs that are unique to your organization and its network architecture. Evaluate the criticality of each legacy application you plan on migrating to the cloud. You will have to prioritize certain applications over others, minimizing disruption while ensuring the cloud-hosted infrastructure can support the workload you are moving to. There is no one-size-fits-all solution to application migration. The inventory assessment may bring new information to light and force you to change your initial approach. It’s best that you make these accommodations now rather than halfway through the application migration project. Step 2: Choosing the Right Migration Strategy Once you know what applications you want to move to the cloud and what additional dependencies must be addressed for them to work properly, you’re ready to select a migration strategy. These are generalized models that indicate how you’ll transition on-premises applications to cloud-hosted ones in the context of your specific IT environment. Some of the options you should gain familiarity with include: Lift and Shift (Rehosting). This option enables you to automate the migration process using tools like CloudEndure Migration, AWS VM Import/Export, and others. The lift and shift model is well-suited to organizations that need to migrate compatible large-scale enterprise applications without too many additional dependencies, or organizations that are new to the cloud. Replatforming. This is a modified version of the lift and shift model. Essentially, it introduces an additional step where you change the configuration of legacy apps to make them better-suited to the cloud environment. By adding a modernization phase to the process, you can leverage more of the cloud’s unique benefits and migrate more complex apps. Refactoring/Re-architecting. This strategy involves rewriting applications from scratch to make them cloud-native. This allows you to reap the full benefits of cloud technology. Your new applications will be scalable, efficient, and agile to the maximum degree possible. However, it’s a time-consuming, resource-intensive project that introduces significant business risk into the equation. Repurchasing. This is where the organization implements a fully mature cloud architecture as a managed service. It typically relies on a vendor offering cloud migration through the software-as-a-service (SaaS) model. You will need to pay licensing fees, but the technical details of the migration process will largely be the vendor’s responsibility. This is an easy way to add cloud functionality to existing business processes, but it also comes with the risk of vendor lock-in. Step 3: Building Your Migration Team The success of your project relies on creating and leading a migration team that can respond to the needs of the project at every step. There will be obstacles and unexpected issues along the way – a high-quality team with great leadership is crucial for handling those problems when they arise. Before going into the specifics of assembling a great migration team, you’ll need to identify the key stakeholders who have an interest in seeing the project through. This is extremely important because those stakeholders will want to see their interests represented at the team level. If you neglect to represent a major stakeholder at the team level, you run the risk of having major, expensive project milestones rejected later on. Not all stakeholders will have the same level of involvement, and few will share the same values and goals. Managing them effectively means prioritizing the values and goals they represent, and choosing team members accordingly. Your migration team will consist of systems administrators, technical experts, and security practitioners, and include input from many other departments. You’ll need to formalize a system of communicating inside the core team and messaging stakeholders outside of it. You may also wish to involve end users as a distinct part of your migration team and dedicate time to addressing their concerns throughout the process. Keep team members’ stakeholder alignments and interests in mind when assigning responsibilities. For example, if a particular configuration step requires approval from the finance department, you’ll want to make sure that someone representing that department is involved from the beginning. Step 4: Creating a Migration Plan It’s crucial that every migration project follows a comprehensive plan informed by the needs of the organization itself. Organizations pursue cloud migration for many different reasons – your plan should address the problems you expect cloud-hosted technology to solve. This might mean focusing on reducing costs, enabling entry into a new market, or increasing business agility – or all three. You may have additional reasons for pursuing an application migration plan. This plan should also include data mapping . Choosing the right application performance metrics now will help make the decision-making process much easier down the line. Some of the data points that cloud migration specialists recommend capturing include: Duration highlights the value of employee labor-hours as they perform tasks throughout the process. Operational duration metrics can tell you how much time project managers spend planning the migration process, or whether one phase is taking much longer than another, and why. Disruption metrics can help identify user experience issues that become obstacles to onboarding and full adoption. Collecting data about the availability of critical services and the number of service tickets generated throughout the process can help you gauge the overall success of the initiative from the user’s perspective. Cost includes more than data transfer rates. Application migration initiatives also require creating dependency mappings, changing applications to make them cloud-native, and significant administrative costs. Up to 50% of your migration’s costs pay for labor , and you’ll want to keep close tabs on those costs as the process goes on. Infrastructure metrics like CPU usage, memory usage, network latency, and load balancing are best captured both before and after the project takes place. This will let you understand and communicate the value of the project in its entirety using straightforward comparisons. Application performance metrics like availability figures, error rates, time-outs and throughput will help you calculate the value of the migration process as a whole. This is another post-cloud migration metric that can provide useful before-and-after data. You will also want to establish a series of cloud service-level agreements (SLAs) that ensure a predictable minimum level of service is maintained. This is an important guarantee of the reliability and availability of the cloud-hosted resources you expect to use on a daily basis. Step 5: Mapping Dependencies Mapping dependencies completely and accurately is critical to the success of any migration project. If you don’t have all the elements in your software ecosystem identified correctly, you won’t be able to guarantee that your applications will work in the new environment. Application dependency mapping will help you pinpoint which resources your apps need and allow you to make those resources available. You’ll need to discover and assess every workload your organization undertakes and map out the resources and services it relies on. This process can be automated, which will help large-scale enterprises create accurate maps of complex interdependent processes. In most cases, the mapping process will reveal clusters of applications and services that need to be migrated together. You will have to identify the appropriate windows of opportunity for performing these migrations without disrupting the workloads they process. This often means managing data transfer and database migration tasks and carrying them out in a carefully orchestrated sequence. You may also discover connectivity and VPN requirements that need to be addressed early on. For example, you may need to establish protocols for private access and delegate responsibility for managing connections to someone on your team. Project stakeholders may have additional connectivity needs, like VPN functionality for securing remote connections. These should be reflected in the application dependency mapping process. Multi-cloud compatibility is another issue that will demand your attention at this stage. If your organization plans on using multiple cloud providers and configuring them to run workloads specific to their platform, you will need to make sure that the results of these processes are communicated and stored in compatible formats. Step 6: Selecting a Cloud Provider Once you fully understand the scope and requirements of your application migration project, you can begin comparing cloud providers. Amazon, Microsoft, and Google make up the majority of all public cloud deployments, and the vast majority of organizations start their search with one of these three. Amazon AW S has the largest market share, thanks to starting its cloud infrastructure business several years before its major competitors did. Amazon’s head start makes finding specialist talent easier, since more potential candidates will have familiarity with AWS than with Azure or Google Cloud. Many different vendors offer services through AWS, making it a good choice for cloud deployments that rely on multiple services and third-party subscriptions. Microsoft Azure has a longer history serving enterprise customers, even though its cloud computing division is smaller and younger than Amazon’s. Azure offers a relatively easy transition path that helps enterprise organizations migrate to the cloud without adding a large number of additional vendors to the process. This can help streamline complex cloud deployments, but also increases your reliance on Microsoft as your primary vendor. Google Cloud is the third runner-up in terms of market share. It continues to invest in cloud technologies and is responsible for a few major innovations in the space – like the Kubernetes container orchestration system. Google integrates well with third-party applications and provides a robust set of APIs for high-impact processes like translation and speech recognition. Your organization’s needs will dictate which of the major cloud providers offers the best value. Each provider has a different pricing model, which will impact how your organization arrives at a cost-effective solution. Cloud pricing varies based on customer specifications, usage, and SLAs, which means no single provider is necessarily “the cheapest” or “the most expensive” – it depends on the context. Additional cost considerations you’ll want to take into account include scalability and uptime guarantees. As your organization grows, you will need to expand its cloud infrastructure to accommodate more resource-intensive tasks. This will impact the cost of your cloud subscription in the future. Similarly, your vendor’s uptime guarantee can be a strong indicator of how invested it is in your success. Given all vendors work on the shared responsibility model, it may be prudent to consider an enterprise data backup solution for peace of mind. Step 7: Application Refactoring If you choose to invest time and resources into refactoring applications for the cloud, you’ll need to consider how this impacts the overall project. Modifying existing software to take advantage of cloud-based technologies can dramatically improve the efficiency of your tech stack, but it will involve significant risk and up-front costs. Some of the advantages of refactoring include: Reduced long-term costs. Developers refactor apps with a specific context in mind. The refactored app can be configured to accommodate the resource requirements of the new environment in a very specific manner. This boosts the overall return of investing in application refactoring in the long term and makes the deployment more scalable overall. Greater adaptability when requirements change . If your organization frequently adapts to changing business requirements, refactored applications may provide a flexible platform for accommodating unexpected changes. This makes refactoring attractive for businesses in highly regulated industries, or in scenarios with heightened uncertainty. Improved application resilience . Your cloud-native applications will be decoupled from their original infrastructure. This means that they can take full advantage of the benefits that cloud-hosted technology offers. Features like low-cost redundancy, high-availability, and security automation are much easier to implement with cloud-native apps. Some of the drawbacks you should be aware of include: Vendor lock-in risks . As your apps become cloud-native, they will naturally draw on cloud features that enhance their capabilities. They will end up tightly coupled to the cloud platform you use. You may reach a point where withdrawing those apps and migrating them to a different provider becomes infeasible, or impossible. Time and talent requirements . This process takes a great deal of time and specialist expertise. If your organization doesn’t have ample amounts of both, the process may end up taking too long and costing too much to be feasible. Errors and vulnerabilities . Refactoring involves making major changes to the way applications work. If errors work their way in at this stage, it can deeply impact the usability and security of the workload itself. Organizations can use cloud-based templates to address some of these risks, but it will take comprehensive visibility into how applications interact with cloud security policies to close every gap. Step 8: Data Migration There are many factors to take into consideration when moving data from legacy applications to cloud-native apps. Some of the things you’ll need to plan for include: Selecting the appropriate data transfer method . This depends on how much time you have available for completing the migration, and how well you plan for potential disruptions during the process. If you are moving significant amounts of data through the public internet, sidelining your regular internet connection may be unwise. Offline transfer doesn’t come with this risk, but it will include additional costs. Ensuring data center compatibility. Whether transferring data online or offline, compatibility issues can lead to complex problems and expensive downtime if not properly addressed. Your migration strategy should include a data migration testing strategy that ensures all of your data is properly formatted and ready to use the moment it is introduced to the new environment. Utilizing migration tools for smooth data transfer . The three major cloud providers all offer cloud migration tools with multiple tiers and services. You may need to use these tools to guarantee a smooth transfer experience, or rely on a third-party partner for this step in the process. Step 9: Configuring the Cloud Environment By the time your data arrives in its new environment, you will need to have virtual machines and resources set up to seamlessly take over your application workloads and processes. At the same time, you’ll need a comprehensive set of security policies enforced by firewall rules that address the risks unique to cloud-hosted infrastructure. As with many other steps in this checklist, you’ll want to carefully assess, plan, and test your virtual machine deployments before deploying them in a live production environment. Gather information about your source and target environment and document the workloads you wish to migrate. Set up a test environment you can use to make sure your new apps function as expected before clearing them for live production. Similarly, you may need to configure and change firewall rules frequently during the migration process. Make sure that your new deployments are secured with reliable, well-documented security policies. If you skip the documentation phase of building your firewall policy, you run the risk of introducing security vulnerabilities into the cloud environment, and it will be very difficult for you to identify and address them later on. You will also need to configure and deploy network interfaces that dictate where and when your cloud environment will interact with other networks, both inside and outside your organization. This is your chance to implement secure network segmentation that protects mission-critical assets from advanced and persistent cyberattacks. This is also the best time to implement disaster recovery mechanisms that you can rely on to provide business continuity even if mission-critical assets and apps experience unexpected downtime. Step 10: Automating Workflows Once your data and apps are fully deployed on secure cloud-hosted infrastructure, you can begin taking advantage of the suite of automation features your cloud provider offers. Depending on your choice of migration strategy, you may be able to automate repetitive tasks, streamline post-migration processes, or enhance the productivity of entire departments using sophisticated automation tools. In most cases, automating routine tasks will be your first priority. These automations are among the simplest to configure because they largely involve high-volume, low-impact tasks. Ideally, these tasks are also isolated from mission-critical decision-making processes. If you established a robust set of key performance indicators earlier on in the migration project, you can also automate post-migration processes that involve capturing and reporting these data points. Your apps will need to continue ingesting and processing data, making data validation another prime candidate for workflow automation. Cloud-native apps can ingest data from a wide range of sources, but they often need some form of validation and normalization to produce predictable results. Ongoing testing and refinement will help you make the most of your migration project moving forward. How AlgoSec Enables Secure Application Migration Visibility and Di scovery : AlgoSec provide s comprehensive visibility into your existing on-premises network environment. It automatically discovers all network devices, applications, and their dependencies. This visibility is crucial when planning a secure migration, ensuring no critical elements get overlooked in the process. Application Dependency Mapping : AlgoSec’s application dependency mapping capabilities allow you to understand how different applications and services interact within your network. This knowledge is vital during migration to avoid disrupting critical dependencies. Risk Assessment : AlgoSec assesses the security and compliance risks associated with your migration plan. It identifies potential vulnerabilities, misconfigurations, and compliance violations that could impact the security of the migrated applications. Security Policy Analysis : Before migrating, AlgoSec helps you analyze your existing security policies and rules. It ensures that security policies are consistent and effective in the new cloud or data center environment. Misconfigurations and unnecessary rules can be eliminated, reducing the attack surface. Automated Rule Optimiz ation : AlgoSec automates the o ptimization of security rules. It identifies redundant rules, suggests rule consolidations, and ensures that only necessary traffic is allowed, helping you maintain a secure environment during migration. Change Management : During the migration process, changes to security policies and firewall rules are often necessary. AlgoSec facilitates change management by providing a streamlined process for requesting, reviewing, and implementing rule changes. This ensures that security remains intact throughout the migration. Compliance and Governance : AlgoSec helps maintain compliance with industry regulations and security best practices. It generates compliance reports, ensures rule consistency, and enforces security policies, even in the new cloud or data center environment. Continuous Monitoring and Auditing : Post-migration, AlgoSec continues to monitor and audit your security policies and network traffic. It alerts you to any anomalies or security breaches, ensuring the ongoing security of your migrated applications. Integration with Cloud Platforms : AlgoSec integrates seamlessly with various cloud platforms such as AWS , Microsoft Azure , and Google Cloud . This ensures that security policies are consistently applied in both on-premises and cloud environments, enabling a secure hybrid or multi-cloud setup. Operational Efficiency : AlgoSec’s automation capabilities reduce manual tasks, improving operational efficiency. This is essential during the migration process, where time is often of the essence. Real-time Visibility and Control : AlgoSec provides real-time visibility and control over your security policies, allowing you to adapt quickly to changing migration requirements and security threats. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

The firewall audit checklist: Six best practices for simplifying firewall compliance and risk mitigation 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

Top 5 misconfigurations to avoid for robust security Multi-cloud environments have become the backbone of modern enterprise IT, offering unparalleled flexibility, scalability, and access to a diverse array of innovative services. This distributed architecture empowers organizations to avoid vendor lock-in, optimize costs, and leverage specialized functionalities from different providers. However, this very strength introduces a significant challenge: increased complexity in security... Cloud Security 5 Multi-Cloud Environments Iris Stein 2 min read Iris Stein Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 6/23/25 Published Top 5 misconfigurations to avoid for robust security Multi-cloud environments have become the backbone of modern enterprise IT, offering unparalleled flexibility, scalability, and access to a diverse array of innovative services. This distributed architecture empowers organizations to avoid vendor lock-in, optimize costs, and leverage specialized functionalities from different providers. However, this very strength introduces a significant challenge: increased complexity in security management. The diverse security models, APIs, and configuration nuances of each cloud provider, when combined, create a fertile ground for misconfigurations. A single oversight can cascade into severe security vulnerabilities, lead to compliance violations, and even result in costly downtime and reputational damage. At AlgoSec, we have extensive experience in navigating the intricacies of multi-cloud security. Our observations reveal recurring patterns of misconfigurations that undermine even the most well-intentioned security strategies. To help you fortify your multi-cloud defences, we've compiled the top five multi-cloud misconfigurations that organizations absolutely must avoid. 1. Over-permissive policies: The gateway to unauthorized access One of the most pervasive and dangerous misconfigurations is the granting of overly broad or permissive access policies. In the rush to deploy applications or enable collaboration, it's common for organizations to assign excessive permissions to users, services, or applications. This "everyone can do everything" approach creates a vast attack surface, making it alarmingly easy for unauthorized individuals or compromised credentials to gain access to sensitive resources across your various cloud environments. The principle of least privilege (PoLP) is paramount here. Every user, application, and service should only be granted the minimum necessary permissions to perform its intended function. This includes granular control over network access, data manipulation, and resource management. Regularly review and audit your Identity and Access Management (IAM) policies across all your cloud providers. Tools that offer centralized visibility into entitlements and highlight deviations can be invaluable in identifying and rectifying these critical vulnerabilities before they are exploited. 2. Inadequate network segmentation: Lateral movement made easy In a multi-cloud environment, a flat network architecture is an open invitation for attackers. Without proper network segmentation, a breach in one part of your cloud infrastructure can easily lead to lateral movement across your entire environment. Mixing production, development, and sensitive data workloads within the same network segment significantly increases the risk of an attacker pivoting from a less secure development environment to a critical production database. Effective network segmentation involves logically isolating different environments, applications, and data sets. This can be achieved through Virtual Private Clouds (VPCs), subnets, security groups, network access control lists (NACLs), and micro-segmentation techniques. The goal is to create granular perimeters around critical assets, limiting the blast radius of any potential breach. By restricting traffic flows between different segments and enforcing strict ingress and egress rules, you can significantly hinder an attacker's ability to move freely within your cloud estate. 3. Unsecured storage buckets: A goldmine for data breaches Cloud storage services, such as Amazon S3, Azure Blob Storage, and Google Cloud Storage, offer incredible scalability and accessibility. However, their misconfiguration remains a leading cause of data breaches. Publicly accessible storage buckets, often configured inadvertently, expose vast amounts of sensitive data to the internet. This includes customer information, proprietary code, intellectual property, and even internal credentials. It is imperative to always double-check and regularly audit the access controls and encryption settings of all your storage buckets across every cloud provider. Implement strong bucket policies, restrict public access by default, and enforce encryption at rest and in transit. Consider using multifactor authentication for access to storage, and leverage tools that continuously monitor for publicly exposed buckets and alert you to any misconfigurations. Regular data classification and tagging can also help in identifying and prioritizing the protection of highly sensitive data stored in the cloud. 4. Lack of centralized visibility: Flying blind in a complex landscape Managing security in a multi-cloud environment without a unified, centralized view of your security posture is akin to flying blind. The disparate dashboards, logs, and security tools provided by individual cloud providers make it incredibly challenging to gain a holistic understanding of your security landscape. This fragmented visibility makes it nearly impossible to identify widespread misconfigurations, enforce consistent security policies across different clouds, and respond effectively and swiftly to emerging threats. A centralized security management platform is crucial for multi-cloud environments. Such a platform should provide comprehensive discovery of all your cloud assets, enable continuous risk assessment, and offer unified policy management across your entire multi-cloud estate. This centralized view allows security teams to identify inconsistencies, track changes, and ensure that security policies are applied uniformly, regardless of the underlying cloud provider. Without this overarching perspective, organizations are perpetually playing catch-up, reacting to incidents rather than proactively preventing them. 5. Neglecting Shadow IT: The unseen security gaps Shadow IT refers to unsanctioned cloud deployments, applications, or services that are used within an organization without the knowledge or approval of the IT or security departments. While seemingly innocuous, shadow IT can introduce significant and often unmanaged security gaps. These unauthorized resources often lack proper security configurations, patching, and monitoring, making them easy targets for attackers. To mitigate the risks of shadow IT, organizations need robust discovery mechanisms that can identify all cloud resources, whether sanctioned or not. Once discovered, these resources must be brought under proper security governance, including regular monitoring, configuration management, and adherence to organizational security policies. Implementing cloud access security brokers (CASBs) and network traffic analysis tools can help in identifying and gaining control over shadow IT instances. Educating employees about the risks of unauthorized cloud usage is also a vital step in fostering a more secure multi-cloud environment. Proactive management with AlgoSec Cloud Enterprise Navigating the complex and ever-evolving multi-cloud landscape demands more than just awareness of these pitfalls; it requires deep visibility and proactive management. This is precisely where AlgoSec Cloud Enterprise excels. Our solution provides comprehensive discovery of all your cloud assets across various providers, offering a unified view of your entire multi-cloud estate. It enables continuous risk assessment by identifying misconfigurations, policy violations, and potential vulnerabilities. Furthermore, AlgoSec Cloud Enterprise empowers automated policy enforcement, ensuring consistent security postures and helping you eliminate misconfigurations before they can be exploited. By providing this robust framework for security management, AlgoSec helps organizations maintain a strong and resilient security posture in their multi-cloud journey. Stay secure out there! The multi-cloud journey offers immense opportunities, but only with diligent attention to security and proactive management can you truly unlock its full potential while safeguarding your critical assets. 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

Protect sensitive healthcare data with Algosec’s tailored network security solutions, ensuring compliance and risk reduction. Empowering secure connectivity for healthcare 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. Empowering secure connectivity for healthcare Compliance: Ensuring regulatory adherence Secure connectivity for your patient data & your applications M&A: Streamline integration of complex environments Zero trust: Strengthening security posture  Join our healthcare customers Why healthcare providers and insurers choose AlgoSec Get the latest insights from the experts AlgoSec and Zero-Trust for Healthcare Read more What are HIPAA network compliance requirements, rules, and violations? Read more Checking the cybersecurity pulse of medical devices Read more 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

Yitzy Tannenbaum, Product Marketing Manager at AlgoSec, discusses how AWS customers can leverage AlgoSec for AWS to easily migrate... Uncategorized Migrating to AWS in six simple steps Yitzy Tannenbaum 2 min read Yitzy Tannenbaum 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 12/1/20 Published Yitzy Tannenbaum, Product Marketing Manager at AlgoSec, discusses how AWS customers can leverage AlgoSec for AWS to easily migrate applications Public cloud platforms bring a host of benefits to organizations but managing security and compliance can prove complex. These challenges are exacerbated when organizations are required to manage and maintain security across all controls that make up the security network including on-premise, SDN and in the public cloud. According to a Gartner study , 81% of organizations are concerned about security, and 57% about maintaining regulatory compliance in the public cloud. AlgoSec’s partnership with AWS helps organizations overcome these challenges by making the most of AWS’ capabilities and providing solutions that complement the AWS offering, particularly in terms of security and operational excellence. And to make things even easier, AlgoSec is now available in AWS Marketplace. Accelerating complex application migration with AlgoSec Many organizations choose to migrate workloads to AWS because it provides unparalleled opportunities for scalability, flexibility, and the ability to spin-up new servers within a few minutes. However, moving to AWS while still maintaining high-level security and avoiding application outages can be challenging, especially if you are trying to do the migration manually, which can create opportunities for human error. We help simplify the migration to AWS with a six-step automated process, which takes away manual processes and reduces the risk of error: Step 1 – AlgoSec automatically discovers and maps network flows to the relevant business applications. Step 2- AlgoSec assesses the changes in the application connectivity required to migrate it to AWS. Step 3- AlgoSec analyzes, simulates and computes the necessary changes, across the entire hybrid network (over firewalls, routers, security groups etc.), including providing a what-if risk analysis and compliance report. Step 4- AlgoSec automatically migrates the connectivity flows to the new AWS environment. Step 5 – AlgoSec securely decommissions old connectivity. Step 6- The AlgoSec platform provides ongoing monitoring and visibility of the cloud estate to maintain security and operation of policy configurations or successful continuous operation of the application. Gain control of hybrid estates with AlgoSec Security automation is essential if organizations are to maintain security and compliance across their hybrid environments, as well as get the full benefit of AWS agility and scalability. AlgoSec allows organizations to seamlessly manage security control layers across the entire network from on-premise to cloud services by providing Zero-Touch automation in three key areas. First, visibility is important, since understanding the network we have in the cloud helps us to understand how to deploy and manage the policies across the security controls that make up the hybrid cloud estate. We provide instant visibility, risk assessment and compliance, as well as rule clean-up, under one unified umbrella. Organizations can gain instant network visibility and maintain a risk-free optimized rule set across the entire hybrid network – across all AWS accounts, regions and VPC combinations, as well as 3rd party firewalls deployed in the cloud and across the connection to the on-prem network. Secondly, changes to network security policies in all these diverse security controls can be managed from a single system, security policies can be applied consistently, efficiently, and with a full audit trail of every change. Finally, security automation dramatically accelerates change processes and enables better enforcement and auditing for regulatory compliance. It also helps organizations overcome skill gaps and staffing limitations. Why Purchase Through AWS Marketplace? AWS Marketplace is a digital catalog with thousands of software listings from independent software vendors (ISVs). It makes it easy for organizations to find, test, buy, and deploy software that runs on Amazon Web Services (AWS), giving them a further option to benefit from AlgoSec. The new listing also gives organizations the ability to apply their use of AlgoSec to their AWS Enterprise Discount Program (EDP) spend commitment. With the addition of AlgoSec in AWS Marketplace, customers can benefit from simplified sourcing and contracting as well as consolidated billing, ultimately resulting in cost savings. It offers organizations instant visibility and in-depth risk analysis and remediation, providing multiple unique capabilities such as cloud security group clean-ups, as well as central policy management. This strengthens enterprises’ cloud security postures and ensures continuous audit-readiness. Ready to Get Started? The addition of AlgoSec in AWS Marketplace is the latest development in the relationship between AlgoSec and AWS and is available for businesses with 500 or more users. Visit the AlgoSec AWS Marketplace listing for more information or contact us to discuss it further. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. State of Utah Network Security Management Breaks the Service Bottleneck Organization State of Utah Industry Government Headquarters Salt Lake City, Utah, United States Download case study Share Customer
success stories "With AlgoSec, I am able to get requests completed within minutes." State government rapidly accelerates security policy changes while increasing security and compliance Background Utah is home to over three million people. It is one of America’s fastest-growing states and the fastest-growing economy by job growth in the nation. The Department of Technology Services (DTS) is the technology service provider for the executive branch of the State of Utah, providing services to Utah’s citizens. DTS supports the computing infrastructure for the state government, including 22,000 telephones, 20,000 desktop computers, 2,400 servers, 1,300 online services, monitors over 4 million visits to Utah.gov per month, and secures against more than 500 million daily IT intrusion attempts. Challenge Over forty firewall pairs and hundreds of other devices help the Department of Technology Services serve and secure the Utah government.“Before AlgoSec, it was very challenging for us to manage firewalls,” stated the department’s Director of Information Technology. Some of the challenges included: Firewall rule requests took up 70% of employees’ daily time. Agencies and staff frequently complained about slow response times, impacting their productivity while staff worked through a lengthy manual process to fulfill requests. Human errors slowed down the processes, requiring extra layers of quality assurance. Large rule request projects took several months to complete. Employee onboarding took several months. New employees could not independently support firewall request changes for the first few months after joining the team. Solutions The State of Utah was searching for a solution that provided: Automation of firewall management Actionable reports to ease compliance requirements Ease of deployment Following an in-depth evaluation, the State of Utah selected AlgoSec’s security policy management solution.“We evaluated several other products but none of them really automated at the level that we wanted,” said the director of IT. “AlgoSec’s automation really stood out.” The State of Utah chose to start with AlgoSec Firewall Analyzer (AFA) and AlgoSec FireFlow (AFF), two of the flagship products in the AlgoSec suite.AlgoSec Firewall Analyzer delivers visibility and analysis of complex network security policies across on-premise, cloud, and hybrid networks. It automates and simplifies security operations including troubleshooting, auditing, and risk analysis. Using Firewall Analyzer, the State of Utah can optimize the configuration of firewalls, and network infrastructure to ensure security and compliance. AlgoSec FireFlow enables security staff to automate the entire security policy change process from design and submission to proactive risk analysis, implementation, validation, and auditing. Its intelligent, automated workflows save time and improve security by eliminating manual errors and reducing risk. Results By using the AlgoSec Security Management solution, the State of Utah was able to accelerate their security policy management, provide better and faster service to state agencies, accelerate employee onboarding, and enhance network segmentation.Some of the benefits gained include: Fast and easy deployment – they were up and running within a few weeks. Faster turnaround to firewall requests from staff supporting agencies and priority initiatives. Reduced time to implement large rule request for projects, such as deployments, migrations, and decommissions — from months to minutes. Better knowledge sharing – hosting staff and extended staff outside of network operations get more accurate insights into firewalls and infrastructure topologies and traffic flows. This sped up troubleshooting and reduced superfluous requests covered by existing rules. Elimination of human error and rework thanks to policy automation. Accelerated employee onboarding – employees joining our network operations team are now able to fulfill firewall change requests within two weeks of starting work – down from 3 months – an 80% reduction. “I’ve been able to jump in and use AlgoSec. It’s been really intuitive” , concluded the IT director. “I am very pleased with this product! ” Schedule time with one of our experts

Learn how automation can simplify the process of rule recertification and help determine which rules are still necessary Webinars Play by the rules: Automation for simplified rule recertification As time goes by, once effective firewall rules can become outdated. This results in bloated security policies which can slow down application delivery. Therefore, best practice and compliance requirements calls for rule recertification at least once per year. While rule recertification can be done manually by going through the comments fields of every rule, this is a tedious process which is also subject to the weaknesses of human error. Automation can simplify the process and help determine which rules are still necessary, if done right. Join security experts Asher Benbenisty and Tsippi Dach to learn about: Rule recertification as part of application delivery pipeline The importance of recertifying rules regularly Methods used for rule recertification The business application approach for rule recertification October 27, 2021 Tsippi Dach Director of marketing communications Asher Benbenisty Director of product marketing Relevant resources AlgoSec AppViz – Rule Recertification Watch Video Changing the rules without risk: mapping firewall rules to business applications 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