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Mobile Virtual Network Operator (MVNO) Market 2019

Global Mobile Virtual Network Operator (MVNO) Market with Information & Communications Technology category is expected to an extensive growth during the forecast period 2019-2024. an overview of the global market is provided with prime focus on factors boosting and hampering market. This will help investors get a clear understanding on which aspects to focus on and how to economically support the market globally. The impact of prevailing regulatory scenario on both regional and worldwide Mobile Virtual Network Operator (MVNO) market is provided in detail in the report.

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Server Hypervisors

Why Are Businesses Tilting Towards VDI for Remote Employees?

Article | May 18, 2023

Although remote working or working from home became popular during the COVID era, did you know that the technology that gives the best user experience (UX) for remote work was developed more than three decades ago? Citrix was founded in 1989 as one of the first software businesses to provide the ability to execute any program on any device over any connection. In 2006, VMware coined the term "virtual desktop infrastructure (VDI)" to designate their virtualization products. Many organizations created remote work arrangements in response to the COVID-19 pandemic, and the phenomenon will continue even in 2022. Organizations have used a variety of methods to facilitate remote work over the years. For businesses, VDI has been one of the most effective, allowing businesses to centralize their IT resources and give users remote access to a consolidated pool of computing capacity. Reasons Why Businesses Should Use VDI for their Remote Employees? Companies can find it difficult to scale their operations and grow while operating remotely. VDI, on the other hand, can assist in enhancing these efforts by eliminating some of the downsides of remote work. Device Agnostic As long as employees have sufficient internet connectivity, virtual desktops can accompany them across the world. They can use a tablet, phone, laptop, client side, or Mac to access the virtual desktop. Reduced Support Costs Since VDI setups can often be handled by a smaller IT workforce than traditional PC settings, support expenses automatically go down. Enhanced Security Data security is raised since data never leaves the datacenter. There's no need to be concerned about every hard disk in every computer containing sensitive data. Nothing is stored on the end machine while using the VDI workspace. It also safeguards intellectual property while dealing with contractors, partners, or a worldwide workforce. Comply with Regulations With virtual desktops, organizational data never leaves the data center. Remote employees that have regulatory duties to preserve client/patient data like function because there is no risk of data leaking out from a lost or stolen laptop or retired PC. Enhanced User Experience With a solid user experience (UX), employees can work from anywhere. They can connect to all of their business applications and tools from anywhere they want to call your workplace, exactly like sitting at their office desk, and even answer the phone if they really want to. Closing Lines One of COVID-19's lessons has been to be prepared for almost anything. IT leaders were probably not planning their investments with a pandemic in mind. Irrespective of how the pandemic plays out in the future, the rise of remote work is here to stay. If VDI at scale is to become a permanent feature of business IT strategies, now is the moment to assess where, when, and how your organization can implement the appropriate solutions. Moreover, businesses that use VDI could find that the added flexibility extends their computing refresh cycles.

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Virtual Desktop Tools, Server Hypervisors

Rising Importance of Network Virtualization

Article | June 8, 2023

Network virtualization combines network resources to integrate several physical networks, segment a network, or construct software networks among VMs. IT teams can construct numerous separate virtual networks using network virtualization. Virtual networks can be added and scaled without changing hardware. Teams can start up logical networks more rapidly in response to business needs using network virtualization. This adaptability improves service delivery, efficiency, and control. Importance of Network Virtualisation Network virtualization entails developing new rules for the delivery of network services. This involves software-defined data centers (SDDC), cloud computing, and edge computing. Virtualization assists in the transformation of networks from rigid, wasteful, and static to optimized, agile, and dynamic. To ensure agility and speed, modern virtual networks must keep up with the needs of cloud-hosted, decentralized applications while addressing cyberthreats. You can deploy and upgrade programs in minutes thanks to network virtualization. This eliminates the need to spend time setting up the infrastructure to accommodate the new applications. What is the Process of Network Virtualization? Several network functions that were previously done manually on hardware are now automated through network virtualisation. Network managers can construct, maintain, and provide networks programmatically in software while employing the hardware as a packet-forwarding backplane. Physical network resources, such as virtual private networks (VPNs), load balancing, firewalling, routing, and switching, are pooled and supplied in software. To do this, you merely require Internet Protocol (IP) packet forwarding from the hardware or physical network. Individual workloads, such as virtual machines, can access network services that have been distributed to a virtual layer. There are several kinds of virtual machines accessible. The finest virtual machines enable network administrators to access all parts of a network from a single point of access. Closing Lines Network virtualization will remain a critical component in both business and carrier network architectures. Network virtualization projects in the future will inevitably incorporate zero trust, automation, and edge and cloud computing.

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Server Hypervisors

Metasploitable: A Platform for Ethical Hacking and Penetration Testing

Article | September 9, 2022

Contents 1. Overview 2. Ethical Hacking and Penetration Testing 3. Metasploit Penetration Test 4. Why Choose Metasploit Framework for your Business? 5. Closing remarks 1. Overview Metasploitable refers to an intentionally vulnerable virtual machine that enables the learning and practice of Metasploit. Metasploit is one of the best penetration testing frameworks that helps businesses discover and shore up their systems' vulnerabilities before hackers exploit them. Security engineers use Metasploit as a penetration testing system and a development platform that allows the creation of security tools and exploits. Metasploit's various user interfaces, libraries, tools, and modules allow users to configure an exploit module, pair it with a payload, point it at a target, and launch it at the target system. In addition, Metasploit's extensive database houses hundreds of exploits and several payload options. 2. Ethical Hacking and Penetration Testing An ethical hacker is one who works within a security framework and checks for bugs that a malicious hacker might use to exploit networks. They use their experience and skills to render the cyber environment. To protect the infrastructure from the threat that hackers pose, ethical hacking is essential. The main purpose of an ethical hacking service is to report and assess the safety of the targeted systems and networks for the owner. Ethical hacking is performed with penetration test techniques to evaluate security loopholes. There are many techniques used to hack information, such as – Information gathering Vulnerability scanning Exploitation Test analysis Ethical hacking involves automatic methods. The hacking process without automated software is inefficient and time-consuming. There are several tools and methods that can be used for ethical hacking and penetration testing. The Metasploit framework eases the effort to exploit vulnerabilities in networks, operating systems, and applications and generates new exploits for new or unknown vulnerabilities. 3. Metasploit Penetration Test Reconnaissance: Integrate Metasploit with various reconnaissance tools to find the vulnerable spot in the system. Threat Modeling and Vulnerability Identification: Once a weakness is identified, choose an exploit and payload for penetration. Exploitation: The payload gets executed at the target if the exploit, a tool used to take advantage of system weakness, is successful, and the user gets a shell for interacting with the payload (a shellcode is a small piece of code used as the payload).The most popular payload, a set of malicious codes to attack Windows systems, is Meterpreter, an in-memory-only interactive shell. (Meterpreter is a Metasploit attack payload that provides an interactive shell for the attacker to explore the target machine and execute code.)Other payloads are: Static payloads (it enables port forwarding and communications between networks) Dynamic payloads (to evade antivirus software, it allows testers to generate unique payloads) Command shell payloads (enables users to run scripts or commands against a host) Post-Exploitation: Metasploit offers various exploitation tools for privilege escalation, packet sniffing, keyloggers, screen capture, and pivoting tools once on the target machine. Resolution and Re-Testing: Users set up a persistent backdoor if the target machine gets rebooted. These available features in Metasploit make it easy to configure as per the user's requirements. 4. Why Choose Metasploit Framework for your Business? Significant advantages of the Metasploit Framework are discussed below: Open-source: Metasploit Framework is actively developed as open-source software, so most companies prefer this to grow their businesses. Easy usage: It is very easy to use, defining an easy-naming conversation with the commands. This also facilitates the building of an extensive penetration test of the network. GUI Environment: It mainly provides third-party instances that are friendly. These interfaces ease the penetration testing projects by providing the facilities with services such as button clicks, over-the-fly vulnerability management, and easy-to-shift workspaces, among others. Cleaner Exits: Metasploit can cleanly exit without detection, even if the target system does not restart after a penetration test. Additionally, it offers various options for maintaining persistent access to the target system. Easy Switching Between Payloads: Metasploit allows testers to change payloads with the 'setpayload' command easily. It offers flexibility for system penetration through shell-based access or meterpreter. 5. Closing remarks From DevSecOps experts to hackers, everyone uses the Ruby-based open-source framework Metasploit, which allows testing via command-line alterations or GUI. Metasploitable is a vulnerable virtual machine ideally used for ethical hacking and penetration testing, in VM security. One trend likely to impact the future of Metasploitable is the increasing use of cloud-based environments for testing and production. It is possible that Metasploitable could be adapted to work in cloud environments or that new tools will be developed specifically for cloud-based penetration testing. Another trend that may impact the future of Metasploitable is the growing importance of automation in security testing. Thus, Metasploitable could be adapted to include more automation features. The future of Metasploitable looks bright as it continues to be a valuable tool for security professionals and enthusiasts. As the security landscape continues to evolve, it will be interesting to see how Metasploitable adapts to meet the community's changing needs.

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Virtual Desktop Tools, Server Hypervisors

Virtual Machine Security Risks and Mitigation in Cloud Computing

Article | April 28, 2023

Analyzing risks and implementing advanced mitigation strategies: Safeguard critical data, fortify defenses, and stay ahead of emerging threats in the dynamic realm of virtual machines in cloud. Contents 1. Introduction 2. 10 Security Risks Associated with Virtual Machines in Cloud Computing 3. Best Practices to Avoid Security Compromise 4. Conclusion 1. Introduction Cloud computing has revolutionized the way businesses operate by providing flexible, scalable, and cost-effective infrastructure for running applications and services. Virtual machines (VMs) are a key component of cloud computing, allowing multiple virtual machines to run on a single physical machine. However, the use of virtual machines in cloud computing introduces new security risks that need to be addressed to ensure the confidentiality, integrity, and availability of data and services. Effective VM security in the cloud requires a comprehensive approach that involves cloud providers and users working together to identify and address potential virtual machine security threats. By implementing these best practices and maintaining a focus on security, cloud computing can provide a secure and reliable platform for businesses to run their applications and services. 2. 10 Security Risks Associated with Virtual Machines in Cloud Computing Denial of Service (DoS) attacks: These are attacks that aim to disrupt the availability of a VM or the entire cloud infrastructure by overwhelming the system with traffic or resource requests. Insecure APIs: Cloud providers often expose APIs that allow users to manage their VMs. If these APIs are not properly secured, attackers can exploit them to gain unauthorized access to VMs or manipulate their configurations. Data leakage: Virtual machines can store sensitive data such as customer information or intellectual property. If not secured, this data can be exposed to unauthorized access or leakage. Shared resources: VMs in cloud environments often share physical resources such as memory, CPU, and network interfaces. If these resources are not isolated, a compromised VM can potentially affect the security and performance of other VMs running on the same physical host. Lack of visibility: Virtual machines in cloud environments can be more difficult to monitor than physical machines. This can make it harder to detect security incidents or anomalous behavior. Insufficient logging and auditing: If cloud providers do not implement appropriate logging and auditing mechanisms, it can be difficult to determine the cause and scope of a security incident. VM escape: This is when an attacker gains access to the hypervisor layer and then escapes into the host operating system or other VMs running on the same physical host. Side-channel attacks: This is when an attacker exploits the physical characteristics of the hardware to gain unauthorized access to a VM. Examples of side-channel attacks include timing attacks, power analysis attacks, and electromagnetic attacks. Malware attacks: VMs can be infected with malware, just like physical machines. Malware can be used to steal data, launch attacks on other VMs or systems, or disrupt the functioning of the VM. Insider threats: Malicious insiders can exploit their access to VMs to steal data, modify configurations, or launch attacks. 3. Best Practices to Avoid Security Compromise To mitigate these risks, there are several virtual machine security guidelines that cloud service providers and users can follow: Keep software up-to-date: Regularly updating software and security patches for virtual machines is crucial in preventing known vulnerabilities from being exploited by hackers. Software updates fix bugs and security flaws that could allow unauthorized access, data breaches, or malware attacks. According to a study, 60% of data breaches are caused by vulnerabilities that were not patched or updated in a timely manner.(Source: Ponemon Institute) Use secure hypervisors: A hypervisor is a software layer that enables multiple virtual machines to run on a single physical server. Secure hypervisors are designed to prevent unauthorized access to virtual machines and protect them from potential security threats. When choosing a hypervisor, it is important to select one that has undergone rigorous testing and meets industry standards for security. In 2018, a group of researchers discovered a new type of attack called "Foreshadow" (also known as L1 Terminal Fault). The attack exploits vulnerabilities in Intel processors and can be used to steal sensitive data from virtual machines running on the same physical host. Secure hypervisors that have implemented hardware-based security features can provide protection against Foreshadow and similar attacks. (Source: Foreshadow) Implement strong access controls: Access control is the practice of restricting access to virtual machines to authorized users. Multi-factor authentication adds an extra layer of security by requiring users to provide more than one type of authentication method before accessing VMs. Strong access controls limit the risk of unauthorized access and can help prevent data breaches. According to a survey, organizations that implemented multi-factor authentication saw a 98% reduction in the risk of phishing-related account breaches. (Source: Duo Security) Monitor VMs for anomalous behavior: Monitoring virtual machines for unusual or unexpected behavior is an essential security practice. This includes monitoring network traffic, processes running on the VM, and other metrics that can help detect potential security incidents. By monitoring VMs, security teams can detect and respond to security threats before they can cause damage. A study found that 90% of organizations that implemented a virtualized environment experienced security benefits, such as improved visibility into security threats and faster incident response times. (Source: VMware) Use Encryption: Encryption is the process of encoding information in such a way that only authorized parties can access it. Encrypting data both in transit and at rest protects it from interception or theft by hackers. This can be achieved using industry-standard encryption protocols and technologies. According to a report by, the average cost of a data breach in 2020 was $3.86 million. The report also found that organizations that implemented encryption had a lower average cost of a data breach compared to those that did not (Source: IBM) Segregate VMs: Segregating virtual machines is the practice of keeping sensitive VMs separate from less sensitive ones. This reduces the risk of lateral movement, which is when a hacker gains access to one VM and uses it as a stepping stone to gain access to other VMs in the same environment. Segregating VMs helps to minimize the risk of data breaches and limit the potential impact of a security incident. A study found that organizations that implemented a virtualized environment without adequate segregation and access controls were more vulnerable to VM security breaches and data loss. (Source: Ponemon Institute) Regularly Back-up VMs: Regularly backing up virtual machines is a critical security practice that can help mitigate the impact of malware attacks, system failures, or other security incidents. Backups should be stored securely and tested regularly to ensure that they can be restored quickly in the event of a security incident. A survey conducted found that 42% of organizations experienced a data loss event in 2020 with the most common cause being accidental deletion by an employee (29%). (Source: Veeam) 4. Conclusion The complexity of cloud environments and the shared responsibility model for security require organizations to adopt a comprehensive security approach that spans multiple infrastructure layers, from the physical to the application layer. The future of virtual machine security concern in cloud computing will require continued innovation and adaptation to new threats and vulnerabilities. As a result, organizations must remain vigilant and proactive in their security efforts, leveraging the latest technologies and best practices to protect their virtual machines, the sensitive data and resources they contain.

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Server Hypervisors

The Business Benefits of Embracing Virtualization on Virtual Machines

Article | May 18, 2023

Although remote working or working from home became popular during the COVID era, did you know that the technology that gives the best user experience (UX) for remote work was developed more than three decades ago? Citrix was founded in 1989 as one of the first software businesses to provide the ability to execute any program on any device over any connection. In 2006, VMware coined the term "virtual desktop infrastructure (VDI)" to designate their virtualization products. Many organizations created remote work arrangements in response to the COVID-19 pandemic, and the phenomenon will continue even in 2022. Organizations have used a variety of methods to facilitate remote work over the years. For businesses, VDI has been one of the most effective, allowing businesses to centralize their IT resources and give users remote access to a consolidated pool of computing capacity. Reasons Why Businesses Should Use VDI for their Remote Employees? Companies can find it difficult to scale their operations and grow while operating remotely. VDI, on the other hand, can assist in enhancing these efforts by eliminating some of the downsides of remote work. Device Agnostic As long as employees have sufficient internet connectivity, virtual desktops can accompany them across the world. They can use a tablet, phone, laptop, client side, or Mac to access the virtual desktop. Reduced Support Costs Since VDI setups can often be handled by a smaller IT workforce than traditional PC settings, support expenses automatically go down. Enhanced Security Data security is raised since data never leaves the datacenter. There's no need to be concerned about every hard disk in every computer containing sensitive data. Nothing is stored on the end machine while using the VDI workspace. It also safeguards intellectual property while dealing with contractors, partners, or a worldwide workforce. Comply with Regulations With virtual desktops, organizational data never leaves the data center. Remote employees that have regulatory duties to preserve client/patient data like function because there is no risk of data leaking out from a lost or stolen laptop or retired PC. Enhanced User Experience With a solid user experience (UX), employees can work from anywhere. They can connect to all of their business applications and tools from anywhere they want to call your workplace, exactly like sitting at their office desk, and even answer the phone if they really want to. Closing Lines One of COVID-19's lessons has been to be prepared for almost anything. IT leaders were probably not planning their investments with a pandemic in mind. Irrespective of how the pandemic plays out in the future, the rise of remote work is here to stay. If VDI at scale is to become a permanent feature of business IT strategies, now is the moment to assess where, when, and how your organization can implement the appropriate solutions. Moreover, businesses that use VDI could find that the added flexibility extends their computing refresh cycles.

Read More
Virtual Desktop Tools, Server Hypervisors

Metasploitable: A Platform for Ethical Hacking and Penetration Testing

Article | June 8, 2023

Network virtualization combines network resources to integrate several physical networks, segment a network, or construct software networks among VMs. IT teams can construct numerous separate virtual networks using network virtualization. Virtual networks can be added and scaled without changing hardware. Teams can start up logical networks more rapidly in response to business needs using network virtualization. This adaptability improves service delivery, efficiency, and control. Importance of Network Virtualisation Network virtualization entails developing new rules for the delivery of network services. This involves software-defined data centers (SDDC), cloud computing, and edge computing. Virtualization assists in the transformation of networks from rigid, wasteful, and static to optimized, agile, and dynamic. To ensure agility and speed, modern virtual networks must keep up with the needs of cloud-hosted, decentralized applications while addressing cyberthreats. You can deploy and upgrade programs in minutes thanks to network virtualization. This eliminates the need to spend time setting up the infrastructure to accommodate the new applications. What is the Process of Network Virtualization? Several network functions that were previously done manually on hardware are now automated through network virtualisation. Network managers can construct, maintain, and provide networks programmatically in software while employing the hardware as a packet-forwarding backplane. Physical network resources, such as virtual private networks (VPNs), load balancing, firewalling, routing, and switching, are pooled and supplied in software. To do this, you merely require Internet Protocol (IP) packet forwarding from the hardware or physical network. Individual workloads, such as virtual machines, can access network services that have been distributed to a virtual layer. There are several kinds of virtual machines accessible. The finest virtual machines enable network administrators to access all parts of a network from a single point of access. Closing Lines Network virtualization will remain a critical component in both business and carrier network architectures. Network virtualization projects in the future will inevitably incorporate zero trust, automation, and edge and cloud computing.

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Server Hypervisors

Network Virtualization: The Future of Businesses and Networks

Article | September 9, 2022

Contents 1. Overview 2. Ethical Hacking and Penetration Testing 3. Metasploit Penetration Test 4. Why Choose Metasploit Framework for your Business? 5. Closing remarks 1. Overview Metasploitable refers to an intentionally vulnerable virtual machine that enables the learning and practice of Metasploit. Metasploit is one of the best penetration testing frameworks that helps businesses discover and shore up their systems' vulnerabilities before hackers exploit them. Security engineers use Metasploit as a penetration testing system and a development platform that allows the creation of security tools and exploits. Metasploit's various user interfaces, libraries, tools, and modules allow users to configure an exploit module, pair it with a payload, point it at a target, and launch it at the target system. In addition, Metasploit's extensive database houses hundreds of exploits and several payload options. 2. Ethical Hacking and Penetration Testing An ethical hacker is one who works within a security framework and checks for bugs that a malicious hacker might use to exploit networks. They use their experience and skills to render the cyber environment. To protect the infrastructure from the threat that hackers pose, ethical hacking is essential. The main purpose of an ethical hacking service is to report and assess the safety of the targeted systems and networks for the owner. Ethical hacking is performed with penetration test techniques to evaluate security loopholes. There are many techniques used to hack information, such as – Information gathering Vulnerability scanning Exploitation Test analysis Ethical hacking involves automatic methods. The hacking process without automated software is inefficient and time-consuming. There are several tools and methods that can be used for ethical hacking and penetration testing. The Metasploit framework eases the effort to exploit vulnerabilities in networks, operating systems, and applications and generates new exploits for new or unknown vulnerabilities. 3. Metasploit Penetration Test Reconnaissance: Integrate Metasploit with various reconnaissance tools to find the vulnerable spot in the system. Threat Modeling and Vulnerability Identification: Once a weakness is identified, choose an exploit and payload for penetration. Exploitation: The payload gets executed at the target if the exploit, a tool used to take advantage of system weakness, is successful, and the user gets a shell for interacting with the payload (a shellcode is a small piece of code used as the payload).The most popular payload, a set of malicious codes to attack Windows systems, is Meterpreter, an in-memory-only interactive shell. (Meterpreter is a Metasploit attack payload that provides an interactive shell for the attacker to explore the target machine and execute code.)Other payloads are: Static payloads (it enables port forwarding and communications between networks) Dynamic payloads (to evade antivirus software, it allows testers to generate unique payloads) Command shell payloads (enables users to run scripts or commands against a host) Post-Exploitation: Metasploit offers various exploitation tools for privilege escalation, packet sniffing, keyloggers, screen capture, and pivoting tools once on the target machine. Resolution and Re-Testing: Users set up a persistent backdoor if the target machine gets rebooted. These available features in Metasploit make it easy to configure as per the user's requirements. 4. Why Choose Metasploit Framework for your Business? Significant advantages of the Metasploit Framework are discussed below: Open-source: Metasploit Framework is actively developed as open-source software, so most companies prefer this to grow their businesses. Easy usage: It is very easy to use, defining an easy-naming conversation with the commands. This also facilitates the building of an extensive penetration test of the network. GUI Environment: It mainly provides third-party instances that are friendly. These interfaces ease the penetration testing projects by providing the facilities with services such as button clicks, over-the-fly vulnerability management, and easy-to-shift workspaces, among others. Cleaner Exits: Metasploit can cleanly exit without detection, even if the target system does not restart after a penetration test. Additionally, it offers various options for maintaining persistent access to the target system. Easy Switching Between Payloads: Metasploit allows testers to change payloads with the 'setpayload' command easily. It offers flexibility for system penetration through shell-based access or meterpreter. 5. Closing remarks From DevSecOps experts to hackers, everyone uses the Ruby-based open-source framework Metasploit, which allows testing via command-line alterations or GUI. Metasploitable is a vulnerable virtual machine ideally used for ethical hacking and penetration testing, in VM security. One trend likely to impact the future of Metasploitable is the increasing use of cloud-based environments for testing and production. It is possible that Metasploitable could be adapted to work in cloud environments or that new tools will be developed specifically for cloud-based penetration testing. Another trend that may impact the future of Metasploitable is the growing importance of automation in security testing. Thus, Metasploitable could be adapted to include more automation features. The future of Metasploitable looks bright as it continues to be a valuable tool for security professionals and enthusiasts. As the security landscape continues to evolve, it will be interesting to see how Metasploitable adapts to meet the community's changing needs.

Read More
Virtual Desktop Tools, Server Hypervisors

Virtual Machine Security Risks and Mitigation in Cloud Computing

Article | April 28, 2023

Analyzing risks and implementing advanced mitigation strategies: Safeguard critical data, fortify defenses, and stay ahead of emerging threats in the dynamic realm of virtual machines in cloud. Contents 1. Introduction 2. 10 Security Risks Associated with Virtual Machines in Cloud Computing 3. Best Practices to Avoid Security Compromise 4. Conclusion 1. Introduction Cloud computing has revolutionized the way businesses operate by providing flexible, scalable, and cost-effective infrastructure for running applications and services. Virtual machines (VMs) are a key component of cloud computing, allowing multiple virtual machines to run on a single physical machine. However, the use of virtual machines in cloud computing introduces new security risks that need to be addressed to ensure the confidentiality, integrity, and availability of data and services. Effective VM security in the cloud requires a comprehensive approach that involves cloud providers and users working together to identify and address potential virtual machine security threats. By implementing these best practices and maintaining a focus on security, cloud computing can provide a secure and reliable platform for businesses to run their applications and services. 2. 10 Security Risks Associated with Virtual Machines in Cloud Computing Denial of Service (DoS) attacks: These are attacks that aim to disrupt the availability of a VM or the entire cloud infrastructure by overwhelming the system with traffic or resource requests. Insecure APIs: Cloud providers often expose APIs that allow users to manage their VMs. If these APIs are not properly secured, attackers can exploit them to gain unauthorized access to VMs or manipulate their configurations. Data leakage: Virtual machines can store sensitive data such as customer information or intellectual property. If not secured, this data can be exposed to unauthorized access or leakage. Shared resources: VMs in cloud environments often share physical resources such as memory, CPU, and network interfaces. If these resources are not isolated, a compromised VM can potentially affect the security and performance of other VMs running on the same physical host. Lack of visibility: Virtual machines in cloud environments can be more difficult to monitor than physical machines. This can make it harder to detect security incidents or anomalous behavior. Insufficient logging and auditing: If cloud providers do not implement appropriate logging and auditing mechanisms, it can be difficult to determine the cause and scope of a security incident. VM escape: This is when an attacker gains access to the hypervisor layer and then escapes into the host operating system or other VMs running on the same physical host. Side-channel attacks: This is when an attacker exploits the physical characteristics of the hardware to gain unauthorized access to a VM. Examples of side-channel attacks include timing attacks, power analysis attacks, and electromagnetic attacks. Malware attacks: VMs can be infected with malware, just like physical machines. Malware can be used to steal data, launch attacks on other VMs or systems, or disrupt the functioning of the VM. Insider threats: Malicious insiders can exploit their access to VMs to steal data, modify configurations, or launch attacks. 3. Best Practices to Avoid Security Compromise To mitigate these risks, there are several virtual machine security guidelines that cloud service providers and users can follow: Keep software up-to-date: Regularly updating software and security patches for virtual machines is crucial in preventing known vulnerabilities from being exploited by hackers. Software updates fix bugs and security flaws that could allow unauthorized access, data breaches, or malware attacks. According to a study, 60% of data breaches are caused by vulnerabilities that were not patched or updated in a timely manner.(Source: Ponemon Institute) Use secure hypervisors: A hypervisor is a software layer that enables multiple virtual machines to run on a single physical server. Secure hypervisors are designed to prevent unauthorized access to virtual machines and protect them from potential security threats. When choosing a hypervisor, it is important to select one that has undergone rigorous testing and meets industry standards for security. In 2018, a group of researchers discovered a new type of attack called "Foreshadow" (also known as L1 Terminal Fault). The attack exploits vulnerabilities in Intel processors and can be used to steal sensitive data from virtual machines running on the same physical host. Secure hypervisors that have implemented hardware-based security features can provide protection against Foreshadow and similar attacks. (Source: Foreshadow) Implement strong access controls: Access control is the practice of restricting access to virtual machines to authorized users. Multi-factor authentication adds an extra layer of security by requiring users to provide more than one type of authentication method before accessing VMs. Strong access controls limit the risk of unauthorized access and can help prevent data breaches. According to a survey, organizations that implemented multi-factor authentication saw a 98% reduction in the risk of phishing-related account breaches. (Source: Duo Security) Monitor VMs for anomalous behavior: Monitoring virtual machines for unusual or unexpected behavior is an essential security practice. This includes monitoring network traffic, processes running on the VM, and other metrics that can help detect potential security incidents. By monitoring VMs, security teams can detect and respond to security threats before they can cause damage. A study found that 90% of organizations that implemented a virtualized environment experienced security benefits, such as improved visibility into security threats and faster incident response times. (Source: VMware) Use Encryption: Encryption is the process of encoding information in such a way that only authorized parties can access it. Encrypting data both in transit and at rest protects it from interception or theft by hackers. This can be achieved using industry-standard encryption protocols and technologies. According to a report by, the average cost of a data breach in 2020 was $3.86 million. The report also found that organizations that implemented encryption had a lower average cost of a data breach compared to those that did not (Source: IBM) Segregate VMs: Segregating virtual machines is the practice of keeping sensitive VMs separate from less sensitive ones. This reduces the risk of lateral movement, which is when a hacker gains access to one VM and uses it as a stepping stone to gain access to other VMs in the same environment. Segregating VMs helps to minimize the risk of data breaches and limit the potential impact of a security incident. A study found that organizations that implemented a virtualized environment without adequate segregation and access controls were more vulnerable to VM security breaches and data loss. (Source: Ponemon Institute) Regularly Back-up VMs: Regularly backing up virtual machines is a critical security practice that can help mitigate the impact of malware attacks, system failures, or other security incidents. Backups should be stored securely and tested regularly to ensure that they can be restored quickly in the event of a security incident. A survey conducted found that 42% of organizations experienced a data loss event in 2020 with the most common cause being accidental deletion by an employee (29%). (Source: Veeam) 4. Conclusion The complexity of cloud environments and the shared responsibility model for security require organizations to adopt a comprehensive security approach that spans multiple infrastructure layers, from the physical to the application layer. The future of virtual machine security concern in cloud computing will require continued innovation and adaptation to new threats and vulnerabilities. As a result, organizations must remain vigilant and proactive in their security efforts, leveraging the latest technologies and best practices to protect their virtual machines, the sensitive data and resources they contain.

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Award Solutions

Award Solutions' courses are designed with service providers in mind. We offer the very best 5G courses, as well as courses in Network Virtualization, Artificial Intelligence, Machine Learning, Individual Automation, 4G LTE, and more.We are the trusted training partner to the world's best networks, helping companies tackle new technologies and equipping their staff with knowledge and skills.

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Netskope Delivers the Next Evolution in Digital Experience Management for SASE with Proactive DEM

PR Newswire | September 01, 2023

Netskope, a leader in Secure Access Service Edge (SASE), today announced the launch of Proactive Digital Experience Management (DEM) for SASE, elevating best practice from the current reactive monitoring tools to proactive user experience management. Proactive DEM provides experience management capabilities across the entire SASE architecture, including Netskope Intelligent SSE, Netskope Borderless SD-WAN and Netskope NewEdge global infrastructure. Digital Experience Management technology has become increasingly crucial amid digital business transformation, with organizations seeking to enhance customer experiences and improve employee engagement. With hybrid work and cloud infrastructure now the norm globally, organizations have struggled to ensure consistent and optimized experiences alongside stringent security requirements. Gartner predicts that "by 2026, at least 60% of I&O leaders will use DEM to measure application, services and endpoint performance from the user's viewpoint, up from less than 20% in 2021." However, monitoring applications, services, and networks is only part of a modern DEM experience, and so Netskope Proactive DEM goes beyond observation, providing Machine Learning (ML)-driven functionality to anticipate, and automatically remediate, problems. Sanjay Beri, CEO and co-founder of Netskope commented, "Ensuring a constantly optimized experience is essential for organizations looking to support the best productivity returns for hybrid workers and modern cloud infrastructure, but monitoring alone is not enough. Customers have told us of the challenges they face managing a multi-vendor cloud ecosystem and so we have yet again innovated beyond industry standards, providing experience management that can both monitor and proactively remediate." For issue identification, Netskope Proactive DEM uniquely combines Synthetic Monitoring with Real User monitoring, creating SMART monitoring (Synthetic Monitoring Augmentation for Real Traffic). This enables full end-to-end 'hop-by-hop' visibility of data, and the proactive identification of experience-impacting events. SMART monitoring enables organizations to anticipate potential events that might impact upon network and application experience. While most SASE vendors rely on "gray cloud" infrastructure - built on public cloud - which limits their ability to granularly identify and control any issues, Proactive DEM leverages Netskope NewEdge - the industry's largest private cloud infrastructure - to deliver 360 visibility and control of end-to-end user experience while providing mitigation of issues, including using various self-healing mechanisms, before the user recognizes their experience has degraded. About Netskope Netskope, a global SASE leader, helps organizations apply zero trust principles and AI/ML innovations to protect data and defend against cyber threats. Fast and easy to use, the Netskope platform provides optimized access and real-time security for people, devices, and data anywhere they go. Netskope helps customers reduce risk, accelerate performance, and get unrivaled visibility into any cloud, web, and private application activity. Thousands of customers trust Netskope and its powerful NewEdge network to address evolving threats, new risks, technology shifts, organizational and network changes, and new regulatory requirements.

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Virtual Desktop Tools, Server Hypervisors

Meter Partners with Cloudflare to Launch DNS Security

Business Wire | August 31, 2023

Meter, Inc., a leader in Network as a Service (NaaS) for businesses, today announced DNS Security, built in partnership with Cloudflare, the security, performance, and reliability company. Meter DNS Security is now widely available for all Meter Network customers, expanding Meter’s existing NaaS offering and saving teams both time and money, while also improving overall network performance and security, powered by Cloudflare’s Zero Trust platform. “With the number of devices on a network expected to triple by 2030, modern businesses and organizations demand enterprise network controls to ensure safety and peak performance for business critical functions,” said Anil Varanasi, CEO and co-founder of Meter. “Meter DNS Security is the latest example of how we’re continuing to offer our customers enterprise level networks end-to-end. Through our partnership with Cloudflare, we’re enhancing our capabilities to meet the needs of IT professionals at industrial warehouses, educational institutions, security firms, and more.” Meter DNS Security eliminates the hassle of having multiple vendors, by providing content filtering at several layers to all customers within the Meter Dashboard in partnership with one of the best providers in the world. “We’re proud to have Meter leveraging Cloudflare’s Zero Trust platform in a new way, offering our DNS filtering feature natively built into their Meter Dashboard,” said John Graham-Cumming, CTO, Cloudflare. “By building on Cloudflare's platform, Meter enables customers to manage their team’s operations at scale, as well as effectively enforce global corporate policies across diverse corporate spaces, such as offices, schools, and warehouses.” In addition to the ease and scalability of Meter DNS Security, users are ensuring security through enhanced compliance by blocking access to known malicious websites and bad actors. The integration and partnership with Cloudflare provides customers with faster DNS response times, while optimizing network performance by limiting access to high-bandwidth websites and services. Real world examples of this process include, but are not limited to: Ensuring a safe browsing environment at schools by filtering out age inappropriate content Optimizing network performance for warehouses by filtering high bandwidth activities like video streaming Maintaining high security and compliance standards by filtering malicious or illegal content “Tishman Speyer has successfully partnered with Meter to streamline the networking and Wi-Fi experience for our customers,” said Simon Okunev, Managing Director and Chief Information Officer, Tishman Speyer. “The addition of Meter’s DNS Security feature, powered by Cloudflare, will further benefit our customers by providing an additional layer of security.” About Cloudflare Cloudflare, Inc. is on a mission to help build a better Internet. Cloudflare’s suite of products protect and accelerate any Internet application online without adding hardware, installing software, or changing a line of code. Internet properties powered by Cloudflare have all web traffic routed through its intelligent global network, which gets smarter with every request. As a result, they see significant improvement in performance and a decrease in spam and other attacks. Cloudflare was awarded by Reuters Events for Global Responsible Business in 2020, named to Fast Company's Most Innovative Companies in 2021, and ranked among Newsweek's Top 100 Most Loved Workplaces in 2022.

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Server Hypervisors, Vsphere

Napatech Leverages Latest Intel Agilex® FPGA to Launch Industry's first 400Gbps SmartNIC Solutions

prnewswire | August 29, 2023

Napatech™ (OSLO: NAPA.OL), a leading provider of programmable Smart Network Interface Cards (SmartNICs) and Infrastructure Processing Units (IPU) used in cloud, enterprise and telecom datacenter networks, today announced the availability of the Napatech's first 400Gbps programmable SmartNIC solutions, leveraging the latest Intel Agilex® 7 FPGAs to deliver best-in-class performance for applications in security, cloud services, network monitoring and recording. Enterprises and OEMs providing high-performance solutions for network monitoring and recording require NICs with a performance level that matches the high PCI Express (PCIe) bandwidth available in the latest servers such as those based on 4th Gen Intel Xeon® Scalable Processors. The new Napatech NT400 SmartNIC platform, based on the Intel® FPGA SmartNIC N6000-PL Platform, addresses this need through a PCIe Gen 4 16-lane host interface which enables full-duplex 2x100Gbps traffic between network ports and host applications. Similarly, for applications like the 5G packet core in telecom infrastructure that require high-bandwidth inline processing of network data, the NT400 platform sustains a total 400G of traffic over tens of millions of flows. The NT400 programmable SmartNIC platform includes two QSFP56 network ports, supporting up to 2x200G traffic with the flexibility to configure 10G, 25G, 40G, 50G, 100G and 200G network links. The SmartNIC hardware is complemented by Napatech's portfolio of production-grade software packages, including Link-Capture™ for use cases such as network monitoring and recording, Link-Virtualization™ that provides a virtualized data plane for cloud services and Link-Inline™ for inline applications such as 5G User Plane Function (UPF). These integrated solutions deliver a true "IT experience" whereby the user just installs the card and the software, immediately achieving seamless acceleration of their application with no requirement to directly program the SmartNIC itself. At the core of the NT400 platform is the Intel Agilex 7 FPGA F-Tile chiplet, which incorporates a configurable, hardened Ethernet protocol stack for supporting rates from 10G to 400G. Napatech chose the Intel Agilex 7 FPGA for a host of reasons, including scalability options that allow support for five different configurations that meet various price, performance, power and feature goals, tailored to specific customer applications and use cases. The F-Tile features are critical in enabling the NT400 to operate within the space and power limitations of standard servers deployed in network appliances, data centers and edge locations. "As the networking landscape continues to evolve, SmartNICs emerge as the predominant growth catalyst in the expansive NIC market, poised to reach $3.3 billion annually by 2025" said Manoj Sukumaran, Principal Analyst for Datacenter Compute and Networking at Omdia. "High bandwidth programmable Ethernet adapters require very fine optimization in hardware and software to ensure deterministic and predictable processing time and making them suitable for real-time networking applications. Napatech is among the very few vendors who could provide highly optimized SmartNICs and software solutions leveraging FPGAs from vendors like Intel, and deliver highly efficient network offload capabilities" he added. "The NT400 platform represents the latest generation within our portfolio of SmartNIC solutions," said Jarrod Siket, Chief Marketing Officer at Napatech. "We will deliver multiple SKUs based on this platform, providing products with memory configurations as well features like time synchronization and management ports that are precisely tuned to the requirements of our customers' applications, all packaged with the applicable production-grade software." "We are delighted to see Napatech choose the Intel Agilex 7 FPGA for their leading-edge SmartNIC solutions," said Mike Fitton, Vice President Programmable Solutions Group and General Manager, Network Business Division at Intel. "The combination of our FPGAs, which deliver high performance, and power efficiency plus a rich feature set for the most demanding applications, together with Napatech's production-grade hardware and software, helps ensure that customers can deliver leading solutions for a wide range of enterprise and telecom applications." About Napatech Napatech is the leading supplier of SmartNIC solutions used in cloud, enterprise, and telecom datacenters. Through commercial-grade software suites integrated with high-performance hardware, Napatech accelerates network infrastructure and security workloads to deliver best-in-class system-level performance while maximizing the availability of server compute resources for applications and services.

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Virtual Desktop Tools, Virtual Desktop Strategies, Server Virtualization

Netskope Delivers the Next Evolution in Digital Experience Management for SASE with Proactive DEM

PR Newswire | September 01, 2023

Netskope, a leader in Secure Access Service Edge (SASE), today announced the launch of Proactive Digital Experience Management (DEM) for SASE, elevating best practice from the current reactive monitoring tools to proactive user experience management. Proactive DEM provides experience management capabilities across the entire SASE architecture, including Netskope Intelligent SSE, Netskope Borderless SD-WAN and Netskope NewEdge global infrastructure. Digital Experience Management technology has become increasingly crucial amid digital business transformation, with organizations seeking to enhance customer experiences and improve employee engagement. With hybrid work and cloud infrastructure now the norm globally, organizations have struggled to ensure consistent and optimized experiences alongside stringent security requirements. Gartner predicts that "by 2026, at least 60% of I&O leaders will use DEM to measure application, services and endpoint performance from the user's viewpoint, up from less than 20% in 2021." However, monitoring applications, services, and networks is only part of a modern DEM experience, and so Netskope Proactive DEM goes beyond observation, providing Machine Learning (ML)-driven functionality to anticipate, and automatically remediate, problems. Sanjay Beri, CEO and co-founder of Netskope commented, "Ensuring a constantly optimized experience is essential for organizations looking to support the best productivity returns for hybrid workers and modern cloud infrastructure, but monitoring alone is not enough. Customers have told us of the challenges they face managing a multi-vendor cloud ecosystem and so we have yet again innovated beyond industry standards, providing experience management that can both monitor and proactively remediate." For issue identification, Netskope Proactive DEM uniquely combines Synthetic Monitoring with Real User monitoring, creating SMART monitoring (Synthetic Monitoring Augmentation for Real Traffic). This enables full end-to-end 'hop-by-hop' visibility of data, and the proactive identification of experience-impacting events. SMART monitoring enables organizations to anticipate potential events that might impact upon network and application experience. While most SASE vendors rely on "gray cloud" infrastructure - built on public cloud - which limits their ability to granularly identify and control any issues, Proactive DEM leverages Netskope NewEdge - the industry's largest private cloud infrastructure - to deliver 360 visibility and control of end-to-end user experience while providing mitigation of issues, including using various self-healing mechanisms, before the user recognizes their experience has degraded. About Netskope Netskope, a global SASE leader, helps organizations apply zero trust principles and AI/ML innovations to protect data and defend against cyber threats. Fast and easy to use, the Netskope platform provides optimized access and real-time security for people, devices, and data anywhere they go. Netskope helps customers reduce risk, accelerate performance, and get unrivaled visibility into any cloud, web, and private application activity. Thousands of customers trust Netskope and its powerful NewEdge network to address evolving threats, new risks, technology shifts, organizational and network changes, and new regulatory requirements.

Read More

Virtual Desktop Tools, Server Hypervisors

Meter Partners with Cloudflare to Launch DNS Security

Business Wire | August 31, 2023

Meter, Inc., a leader in Network as a Service (NaaS) for businesses, today announced DNS Security, built in partnership with Cloudflare, the security, performance, and reliability company. Meter DNS Security is now widely available for all Meter Network customers, expanding Meter’s existing NaaS offering and saving teams both time and money, while also improving overall network performance and security, powered by Cloudflare’s Zero Trust platform. “With the number of devices on a network expected to triple by 2030, modern businesses and organizations demand enterprise network controls to ensure safety and peak performance for business critical functions,” said Anil Varanasi, CEO and co-founder of Meter. “Meter DNS Security is the latest example of how we’re continuing to offer our customers enterprise level networks end-to-end. Through our partnership with Cloudflare, we’re enhancing our capabilities to meet the needs of IT professionals at industrial warehouses, educational institutions, security firms, and more.” Meter DNS Security eliminates the hassle of having multiple vendors, by providing content filtering at several layers to all customers within the Meter Dashboard in partnership with one of the best providers in the world. “We’re proud to have Meter leveraging Cloudflare’s Zero Trust platform in a new way, offering our DNS filtering feature natively built into their Meter Dashboard,” said John Graham-Cumming, CTO, Cloudflare. “By building on Cloudflare's platform, Meter enables customers to manage their team’s operations at scale, as well as effectively enforce global corporate policies across diverse corporate spaces, such as offices, schools, and warehouses.” In addition to the ease and scalability of Meter DNS Security, users are ensuring security through enhanced compliance by blocking access to known malicious websites and bad actors. The integration and partnership with Cloudflare provides customers with faster DNS response times, while optimizing network performance by limiting access to high-bandwidth websites and services. Real world examples of this process include, but are not limited to: Ensuring a safe browsing environment at schools by filtering out age inappropriate content Optimizing network performance for warehouses by filtering high bandwidth activities like video streaming Maintaining high security and compliance standards by filtering malicious or illegal content “Tishman Speyer has successfully partnered with Meter to streamline the networking and Wi-Fi experience for our customers,” said Simon Okunev, Managing Director and Chief Information Officer, Tishman Speyer. “The addition of Meter’s DNS Security feature, powered by Cloudflare, will further benefit our customers by providing an additional layer of security.” About Cloudflare Cloudflare, Inc. is on a mission to help build a better Internet. Cloudflare’s suite of products protect and accelerate any Internet application online without adding hardware, installing software, or changing a line of code. Internet properties powered by Cloudflare have all web traffic routed through its intelligent global network, which gets smarter with every request. As a result, they see significant improvement in performance and a decrease in spam and other attacks. Cloudflare was awarded by Reuters Events for Global Responsible Business in 2020, named to Fast Company's Most Innovative Companies in 2021, and ranked among Newsweek's Top 100 Most Loved Workplaces in 2022.

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Server Hypervisors, Vsphere

Napatech Leverages Latest Intel Agilex® FPGA to Launch Industry's first 400Gbps SmartNIC Solutions

prnewswire | August 29, 2023

Napatech™ (OSLO: NAPA.OL), a leading provider of programmable Smart Network Interface Cards (SmartNICs) and Infrastructure Processing Units (IPU) used in cloud, enterprise and telecom datacenter networks, today announced the availability of the Napatech's first 400Gbps programmable SmartNIC solutions, leveraging the latest Intel Agilex® 7 FPGAs to deliver best-in-class performance for applications in security, cloud services, network monitoring and recording. Enterprises and OEMs providing high-performance solutions for network monitoring and recording require NICs with a performance level that matches the high PCI Express (PCIe) bandwidth available in the latest servers such as those based on 4th Gen Intel Xeon® Scalable Processors. The new Napatech NT400 SmartNIC platform, based on the Intel® FPGA SmartNIC N6000-PL Platform, addresses this need through a PCIe Gen 4 16-lane host interface which enables full-duplex 2x100Gbps traffic between network ports and host applications. Similarly, for applications like the 5G packet core in telecom infrastructure that require high-bandwidth inline processing of network data, the NT400 platform sustains a total 400G of traffic over tens of millions of flows. The NT400 programmable SmartNIC platform includes two QSFP56 network ports, supporting up to 2x200G traffic with the flexibility to configure 10G, 25G, 40G, 50G, 100G and 200G network links. The SmartNIC hardware is complemented by Napatech's portfolio of production-grade software packages, including Link-Capture™ for use cases such as network monitoring and recording, Link-Virtualization™ that provides a virtualized data plane for cloud services and Link-Inline™ for inline applications such as 5G User Plane Function (UPF). These integrated solutions deliver a true "IT experience" whereby the user just installs the card and the software, immediately achieving seamless acceleration of their application with no requirement to directly program the SmartNIC itself. At the core of the NT400 platform is the Intel Agilex 7 FPGA F-Tile chiplet, which incorporates a configurable, hardened Ethernet protocol stack for supporting rates from 10G to 400G. Napatech chose the Intel Agilex 7 FPGA for a host of reasons, including scalability options that allow support for five different configurations that meet various price, performance, power and feature goals, tailored to specific customer applications and use cases. The F-Tile features are critical in enabling the NT400 to operate within the space and power limitations of standard servers deployed in network appliances, data centers and edge locations. "As the networking landscape continues to evolve, SmartNICs emerge as the predominant growth catalyst in the expansive NIC market, poised to reach $3.3 billion annually by 2025" said Manoj Sukumaran, Principal Analyst for Datacenter Compute and Networking at Omdia. "High bandwidth programmable Ethernet adapters require very fine optimization in hardware and software to ensure deterministic and predictable processing time and making them suitable for real-time networking applications. Napatech is among the very few vendors who could provide highly optimized SmartNICs and software solutions leveraging FPGAs from vendors like Intel, and deliver highly efficient network offload capabilities" he added. "The NT400 platform represents the latest generation within our portfolio of SmartNIC solutions," said Jarrod Siket, Chief Marketing Officer at Napatech. "We will deliver multiple SKUs based on this platform, providing products with memory configurations as well features like time synchronization and management ports that are precisely tuned to the requirements of our customers' applications, all packaged with the applicable production-grade software." "We are delighted to see Napatech choose the Intel Agilex 7 FPGA for their leading-edge SmartNIC solutions," said Mike Fitton, Vice President Programmable Solutions Group and General Manager, Network Business Division at Intel. "The combination of our FPGAs, which deliver high performance, and power efficiency plus a rich feature set for the most demanding applications, together with Napatech's production-grade hardware and software, helps ensure that customers can deliver leading solutions for a wide range of enterprise and telecom applications." About Napatech Napatech is the leading supplier of SmartNIC solutions used in cloud, enterprise, and telecom datacenters. Through commercial-grade software suites integrated with high-performance hardware, Napatech accelerates network infrastructure and security workloads to deliver best-in-class system-level performance while maximizing the availability of server compute resources for applications and services.

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