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Submission: On January 24 via api from US — Scanned from US
Submission: On January 24 via api from US — Scanned from US
Form analysis 1 forms found in the DOM
Name: form — contact.php
<form action="contact.php" name="form" source="email" style="padding: 0;">
<div class="u-form-group u-form-name u-form-partition-factor-2">
<label class="u-form-control-hidden u-label" data-lang-ena="Name" data-lang-ru="Name">Name</label>
<input class="u-border-2 u-border-black u-input u-input-rectangle" data-lang-ena="Enter your Name" data-lang-ru="Enter your Name" id="name-daf4" name="name" placeholder="Enter your Name" required="" type="text">
</div>
<div class="u-form-address u-form-group u-form-partition-factor-2 u-form-group-2">
<label class="u-form-control-hidden u-label" data-lang-ena="Address" data-lang-ru="Address">Address</label>
<input class="u-border-2 u-border-black u-input u-input-rectangle" data-lang-ena="Enter your address" data-lang-ru="Enter your address" id="address-7d20" name="address" placeholder="Enter your address" required="" type="text">
</div>
<div class="u-form-group u-form-partition-factor-2 u-form-phone u-form-group-3">
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<input class="u-border-2 u-border-black u-input u-input-rectangle" data-lang-ena="Enter your phone (e.g. +14155552675)" data-lang-ru="Enter your phone (e.g. +14155552675)" id="phone-966d" name="phone"
placeholder="Enter your phone (e.g. +14155552675)" required="" type="tel">
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<div class="u-form-email u-form-group u-form-partition-factor-2">
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type="email">
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<div class="u-form-group u-form-message">
<label class="u-form-control-hidden u-label" data-lang-ena="Message" data-lang-ru="Message">Message</label>
<textarea class="u-border-2 u-border-black u-input u-input-rectangle" data-lang-ena="" data-lang-ru="" id="message-daf4" name="message" placeholder="" required=""></textarea>
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<label class="u-block-5c87-47 u-field-label" for="agree-2c2f" style="">I accept the Terms of Service</label>
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<a class="u-active-grey-70 u-border-none u-btn u-btn-submit u-button-style u-hover-palette-1-dark-3 u-palette-1-base u-btn-1" data-lang-ena="{"content":"Submit","href":"#"}" data-lang-ru="{"content":"Submit","href":"#"}" href="#">Submit</a>
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Thank you! Your message has been sent.
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Thank you! Your message has been sent.
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Unable to send your message. Please fix errors then try again.
" data-lang-ru="
Unable to send your message. Please fix errors then try again.
"> Unable to send your message. Please fix errors then try again. </div>
<input name="recaptchaResponse" type="hidden" value="">
</form>Text Content
WordNavigator * Home * About Us * Services * Contacts * Home * About Us * Services * Contacts THE FUNDAMENTALS OF CLOUD-NATIVE ARCHITECTURE CLOUD-NATIVE COMPUTING IS AN APPROACH TO BUILDING AND RUNNING APPLICATIONS THAT LEVERAGES THE ADVANTAGES OF CLOUD INFRASTRUCTURE The core principles of cloud-native architecture include containerization, microservices, and orchestration, which enable developers to create applications that are highly adaptable to changing business needs. User interface (UI) design involves creating the visual elements of an app, including the layout, color scheme, typography, and iconography. UI designers work closely with UX designers to ensure a seamless user experience. THE BENEFITS OF CLOUD-NATIVE DEVELOPMENT Cloud-native development can provide significant benefits, such as improved scalability, faster time to market, and lower operational costs. By using cloud-native technologies and methodologies, businesses can build applications that are more resilient, easier to deploy and manage, and able to leverage the full potential of cloud infrastructure. KEY TECHNOLOGIES IN CLOUD-NATIVE COMPUTING Cloud-native computing relies on several key technologies, including containers, Kubernetes, and serverless computing. Containers provide a lightweight and portable way to package and deploy applications, while Kubernetes enables orchestration and management of containerized workloads. DESIGNING RESILIENT APPLICATIONS Resiliency is a critical aspect of cloud-native development, and it requires designing applications that can withstand failures and continue to function properly. Best practices for designing resilient applications include using stateless architectures, implementing circuit breakers, and performing chaos testing. LEVERAGING MICROSERVICES FOR AGILITY Microservices are a key component of cloud-native architecture, providing the ability to break down complex applications into smaller, more manageable components. By leveraging microservices, developers can build applications that are more agile and able to respond to changing business needs quickly. AUTOMATING DEPLOYMENT AND TESTING AUTOMATION IS A CRUCIAL ASPECT OF CLOUD-NATIVE DEVELOPMENT By using continuous integration and continuous delivery (CI/CD) pipelines, businesses can deploy changes to applications quickly and efficiently while ensuring quality through automated testing. CLOUD-NATIVE COMPUTING IN PRACTICE Many businesses have adopted cloud-native computing, and there are numerous success stories in the industry. Case studies in cloud-native computing highlight the benefits of adopting cloud-native technologies and methodologies, such as improved agility, scalability, and cost savings. Challenges of Cloud-native Computing While there are many benefits to cloud-native computing, there are also several challenges to consider. The Future of Cloud-native Computing Cloud-native computing is a rapidly evolving field, with new technologies and methodologies emerging constantly. Security Challenges in Cloud-native Computing Cloud-native computing introduces new security challenges, such as container security, network security, and access management. Securing Microservices Architecture Microservices architecture presents unique security challenges, such as distributed authentication and authorization, and secure communication between services. CLOUD-NATIVE SECURITY BEST PRACTICES Cloud-native security requires a proactive approach that considers security at every stage of the development lifecycle. THESE PLATFORMS PROVIDE A RANGE OF SERVICES AND TOOLS FOR BUILDING AND DEPLOYING CLOUD-NATIVE APPLICATIONS, SUCH AS CONTAINER REGISTRIES, KUBERNETES MANAGEMENT, AND SERVERLESS COMPUTING. Isaiah Brown CLOUD-NATIVE COMPUTING PLATFORMS There are several cloud-native computing platforms available, including Amazon Web Services (AWS), Google Cloud Platform (GCP), and Microsoft Azure. CLOUD-NATIVE DEVELOPMENT TOOLS Cloud-native development requires specialized tools and services, such as containerization tools, CI/CD pipelines, and monitoring and logging services. Cloud-native development tools include Docker, GitLab, Prometheus, and Grafana. CLOUD-NATIVE CONSULTING SERVICES Many consulting firms and system integrators offer cloud-native consulting services, helping businesses design and implement cloud-native architectures and migrate existing applications to the cloud. These services can provide expertise in areas such as cloud-native security, microservices architecture, and DevOps practices. UNDERSTANDING THE CONCEPT OF CLOUD-NATIVE DEVELOPMENT Cloud-native computing refers to the development of applications that are designed specifically to operate within cloud environments. These applications are created using modern, modular, and scalable technologies that enable them to take full advantage of the cloud's benefits. CALL US 1 678 901 5060 LOCATION 308 Main Street, Houston, TX 77002 Name Address Phone Email Message I accept the Terms of Service Submit Thank you! Your message has been sent. Unable to send your message. Please fix errors then try again. Cloud-native applications are designed to be scalable, resilient, and highly available. They can also be easily deployed and managed using modern tools and automation technologies. Cloud-native computing offers several advantages, including faster time-to-market, reduced operational costs, and increased agility. It also enables organizations to scale their applications and infrastructure quickly, as demand grows. Cloud-native architecture is composed of several key components, including microservices, containerization, and orchestration. ABOUT US ​WordNavigator is a leading provider of cloud-native computing solutions. USER RIGHTS Terms and Conditions Cookie policy Terms of Service Privacy Policy ALL RIGHTS RESERVED copyright © 2023 cloudnative-chronicles.click CONTACT US contact@cloudnative-chronicles.click 308 Main Street, Houston, TX 77002 1 678 901 5060 OUR SITE POLICIES Cookie and Privacy Policy Disclaimer: Our site uses cookies to improve your experience and gather information about site usage. By using our site, you consent to our use of cookies in accordance with our privacy policy. We take the privacy of our users seriously and will not share any personally identifiable information with third parties without your consent. For more information, please review our full privacy policy. CONFIRM