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CASE STUDY NCR ACCELERATES TOWARDS ZERO-TRUST 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

Attacks on water treatment plants show just how vulnerable critical infrastructure is to hacking – here’s how these vital services should... Cyber Attacks & Incident Response Stop hackers from poisoning the well: Protecting critical infrastructure against cyber-attacks 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 3/31/21 Published Attacks on water treatment plants show just how vulnerable critical infrastructure is to hacking – here’s how these vital services should be protected. Criminals plotting to poison a city’s water supply is a recurring theme in TV and movie thrillers, such as 2005’s Batman Begins. But as we’ve seen recently, it’s more than just a plot device: it’s a cyber-threat which is all too real. During the past 12 months, there have been two high-profile attacks on water treatment systems that serve local populations, both with the aim of causing harm to citizens. The first was in April 2020, targeting a plant in Israel . Intelligence sources said that hackers gained access to the plant and tried altering the chlorine levels in drinking water – but luckily the attack was detected and stopped. And in early February, a hacker gained access to the water system of Oldsmar, Florida and tried to pump in a dangerous amount of sodium hydroxide. The hacker succeeded in starting to add the chemical, but luckily a worker spotted what was happening and reversed the action. But what could have happened if those timely interventions had not been made? These incidents are a clear reminder that critical national infrastructure is vulnerable to attacks – and that those attacks will keep on happening, with the potential to impact the lives of millions of people.  And of course, the Covid-19 pandemic has further highlighted how essential critical infrastructure is to our daily lives. So how can better security be built into critical infrastructure systems, to stop attackers being able to breach them and disrupt day-to-day operations?  It’s a huge challenge, because of the variety and complexity of the networks and systems in use across different industry sectors worldwide. Different systems but common security problems For example, in water and power utilities, there are large numbers of cyber-physical systems consisting of industrial equipment such as turbines, pumps and switches, which in turn are managed by a range of different industrial control systems (ICS). These were not designed with security in mind:  they are simply machines with computerized controllers that enact the instructions they receive from operators.  The communications between the operator and the controllers are done via IP-based networks – which, without proper network defenses, means they can be accessed over the Internet – which is the vector that hackers exploit. As such, irrespective of the differences between ICS controls, the security challenges for all critical infrastructure organizations are similar:  hackers must be stopped from being able to infiltrate networks; if they do succeed in breaching the organization’s defenses, they must be prevented from being able to move laterally across networks and gain access to critical systems. This means  network segmentation  is one of the core strategies for securing critical infrastructure, to keep operational systems separate from other networks in the organization and from the public Internet and surround them with security gateways so that they cannot be accessed by unauthorized people. In the attack examples we mentioned earlier, properly implemented segmentation would prevent a hacker from being able to access the PC which controls the water plant’s pumps and valves. With damaging ransomware attacks increasing over the past year, which also exploit internal network connections and pathways to spread rapidly and cause maximum disruption,  organizations should also employ security best-practices to block or limit the impact of ransomware attacks  on their critical systems. These best practices have not changed significantly since 2017’s massive WannaCry and NotPetya attacks, so organizations would be wise to check and ensure they are employing them on their own networks. Protecting critical infrastructure against cyber-attacks is a complex challenge because of the sheer diversity of systems in each sector.  However, the established security measures we’ve outlined here are extremely effective in protecting these vital systems – and in turn, protecting all of us. Schedule a demo Related Articles 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 Convergence didn’t fail, compliance did. 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

Over nearly two decades, AlgoSec has undergone a remarkable evolution in both technology and offerings. Initially founded with the... Application Connectivity Management Evolving network security: AlgoSec’s technological journey and its critical role in application connectivity Nitin Rajput 2 min read Nitin Rajput 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 12/13/23 Published Over nearly two decades, AlgoSec has undergone a remarkable evolution in both technology and offerings. Initially founded with the mission of simplifying network security device management, the company has consistently adapted to the changing landscape of cybersecurity. Proactive Network Security In its early years, AlgoSec focused on providing a comprehensive view of network security configurations, emphasizing compliance, risk assessment, and optimization. Recognizing the limitations of a reactive approach, AlgoSec pivoted to develop a workflow-based ticketing system, enabling proactive assessment of traffic changes against risk and compliance. Cloud-Native Security As organizations transitioned to hybrid and cloud environments, AlgoSec expanded its capabilities to include cloud-native security controls. Today, AlgoSec seamlessly manages public cloud platforms such as Cisco ACI, NSX, AWS, GCP, and Azure, ensuring a unified security posture across diverse infrastructures. Application Connectivity Discovery A recent breakthrough for AlgoSec is its focus on helping customers navigate the challenges of migrating applications to public or private clouds. The emphasis lies in discovering and mapping application flows within the network infrastructure, addressing the crucial need for maintaining control and communication channels. This discovery process is facilitated by AlgoSec’s built-in solution or by importing data from third-party micro-segmentation solutions like Cisco Secure Workloads, Guardicore, or Illumio. Importance of Application Connectivity Why is discovering and mapping application connectivity crucial? Applications are the lifeblood of organizations, driving business functions and, from a technical standpoint, influencing decisions related to firewall rule decommissioning, cloud migration, micro-segmentation, and zero-trust frameworks. Compliance requirements further emphasize the necessity of maintaining a clear understanding of application connectivity flows. Enforcing Micro-Segmentation with AlgoSec Micro-segmentation, a vital network security approach, aims to secure workloads independently by creating security zones per machine. AlgoSec plays a pivotal role in enforcing micro-segmentation by providing a detailed understanding of application connectivity flows. Through its discovery modules, AlgoSec ingests data and translates it into access controls, simplifying the management of north-south and east-west traffic within SDN-based micro-segmentation solutions. Secure Application Connectivity Migration In the complex landscape of public cloud and application migration, AlgoSec emerges as a solution to ensure success. Recognizing the challenges organizations face, AlgoSec’s AutoDiscovery capabilities enable a smooth migration process. By automatically generating security policy change requests, AlgoSec simplifies a traditionally complex and risky process, ensuring business services remain uninterrupted while meeting compliance requirements. In conclusion, AlgoSec’s technological journey reflects a commitment to adaptability and innovation, addressing the ever-changing demands of network security. From its origins in network device management to its pivotal role in cloud security and application connectivity, AlgoSec continues to be a key player in shaping the future of cybersecurity. Schedule a demo Related Articles 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 Convergence didn’t fail, compliance did. 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

Micro-segmentation: From Strategy to Execution 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

Given the benefits of a micro segmentation strategy, it is worth understanding how to navigate these common challenges, and move towards a more consolidated, secure network Webinars Rescuing Your Network with Micro-Segmentation Cybersecurity has turned into a top priority as hackers grow more sophisticated. Micro-segmentation is a protective measure that allows you to put in gateways separating specific areas. This buffer can serve as a major deterrent keeping criminals from attacking sensitive data, and providing you with the ability to minimize the damage caused by unauthorized intrusions. It can also help with detection of weak points which expose your network to breaches. Join our panel of experts to learn how to plan and build your micro-segmentation strategy while avoiding common pitfalls along the way. In this session, we will discuss: The basics of micro-segmentation and it can help your network Why today’s environment has contributed to a greater need for micro-segmentation How to spot and avoid critical errors that can derail your micro-segmentation implementation July 5, 2021 Alex Hilton Chief Executive at Cloud Industry Forum (CIF) Prof. Avishai Wool CTO & Co Founder AlgoSec Relevant resources Building a Blueprint for a Successful Micro-segmentation Implementation Keep Reading Micro-Segmentation Implementation - Taking the Leap from Strategy to Execution Keep Reading Micro-segmentation – from strategy to execution 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

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

Business-driven Security Management For The Federal Governments 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

Understand the Federal Information Security Management Act (FISMA). Learn key requirements, best practices, and how to achieve and maintain FISMA compliance. FISMA compliance defined: Requirements & best practices Everything You wanted to know about the Federal Information Security Management Act (FISMA) The Federal Information Security Management Act (FISMA) is a U.S. federal law that requires federal government agencies and their third-party partners to implement an information security program to protect their sensitive data. It provides a comprehensive security and risk management framework to implement effective controls for federal information systems. Introduced in 2002, FISMA is part of the E-Government Act of 2002 that’s aimed at improving the management of electronic government services and processes. Both these U.S. government regulations are implemented to uphold federal data security standards and protect sensitive data in government systems. FISMA 2002 was amended by the Federal Information Security Modernization Act of 2014 (FISMA 2014). Schedule a Demo What is FISMA compliance? FISMA compliance means adhering to a set of policies, standards, and guidelines to protect the personal or sensitive information contained in government systems. FISMA requires all government agencies and their vendors, service providers, and contractors to improve their information security controls based on these pre-defined requirements. Like FISMA, the Federal Risk and Authorization Management Program (FedRAMP) enables federal agencies and their vendors to protect government data, albeit for cloud services. FISMA is jointly overseen by the Department of Homeland Security (DHS) and the National Institute of Standards and Technology (NIST). NIST develops the FISMA standards and guidelines – including the minimum security requirements – that bolster the IT security and risk management practices of agencies and their contractors. The DHS administers these programs to help maximize federal information system security. FISMA non-compliance penalties FISMA non-compliance can result in many penalties, including reduced federal funding and censure by the U.S. Congress. Companies can also lose federal contracts and suffer damage to their reputation. Further, non-compliance indicates a poor cybersecurity infrastructure, which may result in costly cyberattacks or data breaches, which could then result in regulatory fines or legal penalties. Schedule a Demo Who must be FISMA-compliant? FISMA’s data protection rules were originally applicable only to U.S. federal agencies. While these standards are still applicable to all federal agencies without exception, they are now applicable to other organizations as well. Thus, any third-party contractor or other organization that provides services to a federal agency and handles sensitive information on behalf of the government must also comply with FISMA. Thus the list of organizations that must comply with FISMA includes: Public or private sector organizations having contractual agreements with federal agencies Public or private organizations that support a federal program or receive grants from federal agencies State agencies like Medicare and Medicaid Schedule a Demo What are the FISMA compliance requirements? The seven key requirements of FISMA compliance are: 1. Maintain an inventory of information systems All federal agencies and their contractors must maintain an updated list of their IT systems. They must also identify and track the integrations between these systems and any other systems in the network. The inventory should include systems that are not operated by or under their direct control. 2. Categorize information security risks Organizations must categorize their information and information systems in order of risk. Such categorizations can help them to focus their security efforts on high-risk areas and ensure that sensitive information is given the highest level of security. The NIST’s FIPS 199 standard provides risk categorization guidelines. It also defines a range of risk levels that organizations can assign to their information systems during risk categorization. 3. Implement security controls Since FISMA’s purpose is to protect the information in government systems, security controls that provide this protection are a mandatory requirement. Under FISMA, all government information systems must meet the minimum security requirements defined in FIPS 200. Organizations are not required to implement every single control. However, they must implement the controls that are relevant to them and their systems. They must also document the selected controls in their system security plan (SSP). NIST 800-53 (NIST special publication or SP) provides a list of suggested security controls for FISMA compliance. 4. Conduct risk assessments A risk assessment is a review of an organization’s security program to identify and assess potential risks. After identifying cyber threats and vulnerabilities, the organization should map them to the security controls that could mitigate them. Based on the likelihood and impact of a security incident, they must determine the risk of that threat. The final risk assessment includes risk calculations of all possible security events plus information about whether the organization will accept or mitigate each of these risks. NIST SP 800-30 provides guidance to conduct risk assessments for FISMA compliance. The NIST recommends identifying risks at three levels: organizational, business process, and information system. 5. Create a system security plan All federal agencies must implement an SSP to help with the implementation of security controls. They must also regularly maintain it and update it annually to ensure that they can implement the best and most up-to-date security solutions. The SSP should include information about the organization’s security policies and controls, and a timeline to introduce further controls. It can also include security best practices. The document is a major input in the agency’s (or third party’s) security certification and accreditation process. 6. Conduct annual security reviews Under FISMA, all program officers, compliance officials, and agency heads must conduct and oversee annual security reviews to confirm that the implemented security controls are sufficient and information security risks are at a minimum level. Agency officials can also accredit their information systems. By doing this, they accept responsibility for the security of these systems and are accountable for any adverse impacts of security incidents. Accreditation is part of the four-phase FISMA certification process. Its other three phases are initiation and planning, certification, and continuous monitoring. 7. Continuously monitor information systems Organizations must monitor their implemented security controls and document system changes and modifications. If they make major changes, they should also conduct an updated risk assessment. They may also need to be recertified. Schedule a Demo What are the benefits of FISMA compliance? FISMA compliance benefits both government agencies and their contractors and vendors. By following its guidelines and implementing its requirements, they can: Adopt a robust risk management-centered approach to security planning and implementation Continually assess, monitor, and optimize their security ecosystem Increase org-wide awareness about the need to secure sensitive data Improve incident response and accelerate incident and risk remediation Benefits of FISMA compliance for federal agencies FISMA compliance increases the cybersecurity focus within federal agencies. By implementing its mandated security controls, it can protect its information and information systems, and also protect the privacy of individuals and national security. In addition, by continuously monitoring their controls, they can maintain a consistently strong security posture. They can also eliminate newly-discovered vulnerabilities quickly and cost-effectively. Benefits of FISMA compliance for other organizations FISMA-compliant organizations can strengthen their security postures by implementing its security best practices. They can better protect their data and the government’s data, prevent data breaches and improve incident response planning. Furthermore, they can demonstrate to federal agencies that they have implemented FISMA’s recommended security controls, which gives them an advantage when trying to get new business from these agencies. Schedule a Demo The three levels of FISMA compliance FISMA defines three compliance levels, which refer to the possible impact of a security breach on an organization. These three impact levels are: 1. Low impact Low impact means that the loss of confidentiality, integrity, or availability is likely to have a limited adverse effect on the organization’s operations, assets, or people. For this reason, the security controls for these systems or data types need only meet the low level of FISMA compliance. 2. Moderate impact A moderate impact incident is one in which the loss of confidentiality, integrity, or availability could have serious adverse consequences for the organization’s operations, assets, or people. For example, it may result in significant financial loss to the organization or significant harm to individuals. However, it is unlikely to cause severe damage or result in the loss of life. 3. High impact The compromise of a high-impact information system could have catastrophic consequences for the organization’s operations, assets, or people. For example, a breach may prevent the organization from performing its primary functions, resulting in major financial loss. It may also cause major damage to assets or result in severe harm to individuals (e.g., loss of life or life-threatening injuries). To prevent such consequences, these systems must be protected with the strongest controls. Schedule a Demo FISMA compliance best practices Following the best practices outlined below can ease the FISMA compliance effort and enable organizations to meet all applicable FISMA requirements: Identify the information that must be protected and classify it based on its sensitivity level as it is created Create a security plan to monitor data activity and detect threats Implement automatic encryption for sensitive data Conduct regular risk assessments to identify and fix vulnerabilities and outdated policies Regularly monitor information security systems Provide cybersecurity awareness training to employees Maintain evidence of FISMA compliance, including records of system inventories, risk categorization efforts, security controls, SSPs, certifications, and accreditations Stay updated on changes to FISMA standards, new NIST guidelines, and evolving security best practices Schedule a Demo How AlgoSec can help you with FISMA compliance? Using the AlgoSec platform , you can instantly and clearly see which applications expose you to FISMA compliance violations. You can also automatically generate pre-populated, audit-ready compliance reports to reduce your audit preparation efforts and costs and enhance your audit readiness. AlgoSec will also uncover gaps in your FISMA compliance posture and proactively check every change for possible compliance violations. Schedule a Demo Select a size Everything You wanted to know about the Federal Information Security Management Act (FISMA) What is FISMA compliance? Who must be FISMA-compliant? What are the FISMA compliance requirements? What are the benefits of FISMA compliance? The three levels of FISMA compliance FISMA compliance best practices How AlgoSec can help you with FISMA compliance? Get the latest insights from the experts Use these six best practices to simplify compliance and risk mitigation with the AlgoSec platform White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure continuous compliance Solution overview See how this customer improved compliance readiness and risk management with AlgoSec Case study Choose a better way to manage your network

AlgoSec Cloud Services Security Practices 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