A cloud-native application is a small and independent service offering easy scale-out and hardware decoupling. Read on the cloud-native applications.
Cloud-native applications enable companies to accelerate and boost the adoption of cloud computing within their business. According to recent research, cloud-native applications will be the emerging trend for over 95% of new digital technologies by 2025 (Gartner). With cloud computing on the rise in 2022, integrating cloud-native applications is more critical now than ever. It will provide firms to implement their digital strategies and ensure their growth, customer retention, and efficiency.
To succeed in the fast-paced and software-driven markets, firms must change the way people design, build and use software applications. Cloud-native platform development is a way to build, run, and improve mobile apps on techniques and technologies for cloud computing. Explore the cloud-native applications in the digital age.
What is the cloud-native platform?
Cloud-native platforms are a collection of small and independent services designed to convey well-organized business value. For example, it can be the ability to collect user feedback for continuous improvement. The cloud-native application development is an approach to speed up how to build a new application, optimize existing applications, and connect all.
If a mobile app is cloud-native, it will be specifically designed to provide a consistent development and management experience in private, public, and hybrid clouds. Firms adopt cloud-computing services to boost the scalability and availability of mobile app development companies. Companies benefit through self-service, resources, and the application life cycle from development to production.
Characteristics of cloud-native application
The microservice is a part of cloud-native application architecture. It will connect and communicate through APIs. Here are some characteristics of the cloud-native application:
The microservices break down a mobile app into a series of independent modules. Each module refers to its data source and supports a specific goal. These modules connect through application program interfaces, called APIs.
A container is a type of software that isolates the application, enabling it to run physical resources. Containers separate microservices from interfering with one another. The container consumes all the shared resources. Besides, it also supports various instances of the same service.
APIs will connect microservices and containers while ensuring simple maintenance and security. The APIs allow microservices to communicate. It also acts as the glue between the coupled services. Offshore development teams should consider API-based architecture while developing mobile apps.
DevOps is one of the most common cloud-native architectures. It is a collaboration between software developers and IT operations to deliver high-quality software. This cloud-native architecture creates a culture and an environment for building, testing, and releasing software more consistently.
What makes cloud-native applications matter?
Mobile app development companies want to build and deploy cloud-native apps at a rapid speed. It offers simple scale-out and hardware decoupling. The usage of cloud-native applications provides firms with agility, resilience, and portability in cloud environments. Discover why cloud-native apps are critical:
Get a competitive edge
Cloud-native development focuses on IT cost savings to define the cloud as the engine of business growth. In the digital age, businesses quickly build and deliver mobile apps which match customer needs. Thus, mobile app development companies take advantage of cloud-native apps for mobile application development.
Concentrate on resilience
The failure of software infrastructure negatively affects services. In a cloud-native platform, offshore development teams focus on the resilience of the software architecture. The rapidly-developing cloud-native architecture helps developers design systems regardless of the environment.
Obtain the flexibility
Cloud-native development providers keep offering impressive services at a reasonable cost. Nevertheless, firms are not ready to select a single cloud-native development. The cloud-native platforms support firms to build mobile apps on public and private clouds. Thus, offshore development teams continue lasting the ability to run cloud-native apps and services that make the most business sense.
Define operations with specific business needs
When automating IT aspects, firms transform into lean and focused teams which will go with business priorities. It erases the rise of failure owing to human errors and focuses on replacing manual tasks.
Various examples of cloud-native application services
Every microservice in a cloud-native application implements a different function. Let’s see e-commerce stores as a typical example. Offshore development teams use various microservices for the log-in form, taking orders, and special discounts and coupons. Mobile app development companies will update each microservices independently while customers see the e-commerce store as a whole.
To execute or change a specific microservice, offshore development teams would not have to take the whole system. Here are a few examples of cloud-native applications:
An example of a cloud-native application is UBank, which enhances home-loan application process and helps customers apply for loans. Offshore development teams create cloud-native apps, RoboChat, through the IBM DevOps toolchain. It answers inquiries and boosts the home-loan rate by 15 percent.
Airlines in America
American Airlines combine with IBM to develop a Dynamic Rebooking app. These cloud-native apps provide clients with detailed information and reboot faster and easier flight rebooking.
ThinkResearch – One of the most common cloud-native application examples
The cloud-native architecture helps create and deploy a mobile app that delivers the latest research and relevant information. The mobile app development company uses microservice-based APIs in the cloud-computing environment. This example of a cloud-native application delivers the software application without having to make an investment.
Cloud-native architectures: Between cloud-native apps and traditional enterprise apps
|Cloud-native apps||Traditional enterprise apps|
|PredictableCloud-native apps help maximize resilience via predictable behaviors. The automated and container-driven infrastructure in a cloud-native platform drives the software.||Unpredictable Traditional apps can’t realize all benefits on cloud-native platforms. It takes longer to build and releases infrequent improvements instead of out and dependent services.|
|Right-sized capacity A cloud-native app automates infrastructure, which dynamically allocates resources at deploy time. Building on a cloud-native platform optimizes application lifecycle management. It scales to meet demand, resource utilization, and recovery from failures.||Oversize capacity Traditional enterprise apps design a custom infrastructure for the application deployment. It is often oversized and satisfies worst-case capacity estimates with little ability to scale and limits to meet demand.|
|Collaborative The cloud-native architecture supports DevOps of people, processes, and tools to increase collaboration between development and teams. It helps speed and smooth the deployment of application code into production.||Siloed Traditional applications use a handoff of finished code. Firm priorities take precedence over customer value, leading to internal conflict, slowness, and staff morale.|
|Continuous delivery Offshore development teams make software updates available for release. Companies can release software rapidly and more effectively which meets customer needs.||Waterfall development Developers release software periodically at intervals of weeks or months. There is a feature that clients want to delay, so business misses the opportunity to fulfill and grow their revenue.|
|Independent with microservices Microservices decompose software applications into small and independently operating services. It allows offshore development teams to make frequent updates, scaling, and restart without impacting others.||Dependent with monolithic Monolithic services tie disparate services into a package, causing unnecessary dependencies. It leads to agility during development and deployment.|
|Scale automatedly Cloud-native apps eliminate downtime due to human errors and consistently apply the same rules across any size deployment.||Scale manually The manual infrastructure consists of human operators, network, and storage configurations. Operators are slow to diagnose problems and fail to execute solutions.|
|Rapid recovery Cloud-native apps use the container and orchestrator to create a dynamic virtualization. It provides elastic scaling and restarts in the cloud-native app.||Slow recovery Offshore development teams are slower and less efficient to create foundations for microservice-based applications. It results in slower startup/shutdown.|
The Wrapping Up
Cloud-native applications are a way to build and run applications that take advantage of the cloud-computing model. When firms build and operate via a cloud-native architecture, they bring new concepts to market faster and meet customer demands sooner. Besides, the could-native development is appropriate for public and private cloud-native applications. More importantly, the ability to provide on-demand access to cloud computing along with modern data and services is critical for developers. Therefore, the cloud-native application is the promise of technologies in the digital era.
Having a mobile app is becoming a given for companies of all sizes. The first step to making an app is to understand how much does it cost to make an app?Read
Travelers tend to plan their trips owing to traveler preferences and technological advancements. Things behind the rise of mobile travel apps.Read
Guides for the mobile app development process are essential for software development teams to consider. Read the article below to learn more. In a tech-savvy world, mobile apps have become a game-changer. The mobile app can bring down well-established brands. Even shoot new players to the lead with a crucial technology to transform your business […]Read