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Cloud & Data Modernization Digital Engineering

Intelligent Automation Generative AI Solutions Application Engineering Agentic AI Solutions

Data Visualization Data Migration Data Engineering

Cloud & Data Modernization Digital Engineering

Cloud - Sparity

How Migrating to the Cloud Accelerates Digital Transformation

Introduction The challenge to retain customers, remain accessible, relevant, and proﬁtable to an ever-evolving customer base in today’s digital era is high and gaining traction. Embarking on a digital transformation journey is key to stay ahead of the competition. Digital transformation starts and ends with the customer. One of the fundamental digital transformation requirements is to focus on customer experience transformation; know-how customers interact with products and services. To remain competitive in the constantly changing global digital landscape, digital transformation is a necessity. Adopting a digital transformation strategy enables businesses to meet customer expectations, solve business problems, transform business models and operations. In this blog post, we explore the essence of cloud migration and its role in an organization’s digital transformation and learn the beneﬁts of migrating to the Cloud. What is Digital Transformation Digital transformation is a process of strategic integration of digital technologies to create new or modify existing aspects of a business, fundamentally changing how businesses operate and deliver value to customers to meet changing business and market requirements. Digital transformation is all about transforming customer relationships. Unless you don’t analyze your customers’ needs, you will not be able to transform your business digitally. It demands a cultural change that requires organizations to experiment continuously and get ahead. Digital transformation can deliver some signiﬁcant beneﬁts such as offering actionable insights based on deeper analytics, accelerating business processes, reducing costs, increasing responsiveness to the customer, improving customer service, and increasing safety and quality products and services. Businesses today heavily rely on data for their day-to-day operations. And traditional IT systems are not suited todigital transformations, as they are not ﬂexible and responsive enough. Hardware maintenance, limited data storage, expensive upgrades hinder the acceptability of traditional IT systems. To address these increasingly complex data transmission requirements, storage, and data analysis, businesses should consider migrating to cloud infrastructure. In most cases, companies are not able to digitally transform their business unless they move some of their applications to the Cloud. Transitioning to the Cloud is the fundamental ﬁrst approach to digital transformation. Everything nowadays runs on Cloud-based services. Be it individuals or companies, everyone relies on the Cloud directly or indirectly. These services are so common that you may be using them without even realizing. Cloud computing has completely transformed the way in which businesses operate, store and access data. And it is becoming the preferred method for business data and application management due to its ﬂexibility and functionality. Simply put, cloud computing is an enhanced IT service model where servers, networks, data storage, software, and applications are enabled through the internet. Businessesleverage this technology to offer high computational power, on-demand data storage, data analysis, and various other cloud capabilities at a lower cost. This process of transitioning services and applications to the Cloud is known as cloud migration. What is cloud Migration? Cloud migration acts as a stepping stone for businesses to accelerate the process of digital transformation and explore exponential growth opportunities. Cloud migration is a process of moving digital assets such as data, business applications, workloads, and IT resources from legacy or on-premise infrastructure to a scalable data center to the Cloud. One of the ﬁrst steps in cloud migration is panning and adopting a cloud migration strategy. There are various types of cloud migrations strategies that an enterprise can adopt- rehosting, re-platforming, repurchasing, refactoring, retiring, and retaining. The next step in the process of migration is to choose a cloud environment: Public Cloud, Hybrid Cloud, or private Cloud. Followed by migrating your apps and data and then validating post-move success. With cloud migration capabilities, businesses can migrate any workload, storage, websites, applications, databases, physical or virtual servers, on-premises data centers to the Cloud. Cloud migration is a step further in the digital transformation of the core business applications. Beneﬁts of migrating to the Cloud that accelerates digital transformation. Mobility Since all the business data is stored in the Cloud, it can be accessed from any part of the world on any digital device such as laptops, mobile phones, and tablets. Organizations can now easily interface distinctly, allowing access to employees who travel constantly, work remotely, and consultants without any downtime. With migrating to the Cloud, you don’t have to be at a speciﬁc location to deploy updates, ﬁx issues; it can be done from any part of the world. Remote access makes it much easier to collaborate with the entire team, empowers fast turnaround time and instantaneous issue resolution, all of which are digital transformation goals. Enterprise mobility is crucial for businesses with workplaces spread across various locations. Besides increasing employee productivity, mobility also improves customer and employee satisfaction. Cost efficiency Organizations worldwide are trying to cut their cost, and moving to the Cloud undoubtedly has initial investment, but if executed appropriately, the ROI of cloud migration easily justiﬁes the investment. Apart from this, cloud services offer a ‘pay-as-you-go’ model; thereby, you do not have to pay for resources you haven’t consumed. With cloud computing technology in place, businesses no longer have to bear the cost of expensive on-premise hardware, software licenses or worry about the maintenance cost of malfunctioning parts. Since all the business data is stored in the Cloud, it can be accessed from any part of the world on any digital device such as laptops, mobile phones, and tablets. Organizations can now easily interface distinctly, allowing access to employees who travel constantly, work remotely, and consultants without any downtime. With migrating to the Cloud, you don’t have to be at a speciﬁc location to deploy updates, ﬁx issues; it can be done from any part of the world. Remote access makes it much easier to collaborate with the entire team, empowers fast turnaround time and instantaneous issue resolution, all of which are digital transformation goals. Enterprise mobility is crucial for businesses with workplaces spread across various locations. Besides increasing employee productivity, mobility also improves customer and employee satisfaction. Scalability Migrating to the Cloud enables businesses to scale up or down in real-time based

How well do public cloud providers perform for healthcare IT vendors?

According to the latest Public Cloud Providers 2022 study from the KLAS Arch Collaborative, healthcare IT suppliers are making rapid progress deploying or transferring legacy technology to the cloud, but they regularly note cost as a constraint, including storage-retrieval and egress fees. About three-quarters of these companies employ a multi-tenant SaaS model for their offerings, while the rest either use a single-tenant model or provide platform-based solutions that provide providers and payers the freedom to work with any cloud provider they like. About a third of the companies polled for the research indicated that they work with more than one cloud service provider. It’s because of things like “the desire to meet payer/provider clients’ cloud choices,” “the acquisition of products hosted by a different cloud provider,” and “functionality gaps,” as explained by the KLAS researchers. From a market perspective, the study found that telehealth providers had the most developed cloud solutions, followed by population health providers and finally data/analytics providers. AWS is the foremost cloud service provider for HIT manufacturers. More than 95% of vendors said, they have explored AWS, and 80% utilize it as their primary or secondary platform. Although anticipating and managing expenses can be difficult, AWS leads the industry in terms of cost and value, according to KLAS experts. Microsoft Azure is gaining ground KLAS researchers found that healthcare IT suppliers using Microsoft Azure as their primary cloud provider are twice as likely to employ a secondary cloud provider compared to those using Amazon Web Services. However, over 80% of respondents utilize Microsoft Azure, and over 50% use it as their primary or secondary cloud provider. Enhancing with Google Cloud Half of the HIT companies KLAS surveyed looked into the Google Cloud Platform, and at least one utilizes it as its principal provider. Some HIT providers polled expressed optimism about Google Cloud because of its recent healthcare efforts, but for the most part, GCP is employed as a secondary cloud provider to address capability gaps or increase capabilities. Source: Healthcareitnews 🔥 Trending Stories 14 Tech Leaders Offer Their Best Pieces of Advice to New Entrepreneurs Ultimate Guide For Hiring On-demand Developers For Your Startup Top 25 Digital Transformation Influencers You Need to Follow

Why WASM is the future of cloud computing ?

Wasm may be the most significant new technology you have never heard of. Wasm, an acronym for WebAssembly language, was created for the web. Now, businesses are beginning to operate Wasm on the server side, which has an effect on cloud computing. Wasm makes it safer and simpler to bring cloud components together. Wasm provides a framework that allows you to write in whatever language you like. It produces a common, simulated machine format for components written in various languages. The more you can simplify your cloud environment, the easier it is for various aspects to work together. The way functions are represented in Wasm makes them invulnerable to attack. It runs the code in a sandbox, which mitigates common security problems associated with running untrusted code. Hosts have complete control over the privileged activities that can be executed by a Wasm software. For instance, hosts must explicitly give directory access if file access is required. Wasm is quick: by removing what is unnecessary, it enables better speed and productivity. Wasm programs can be generated by compilers utilizing the LLVM back end and compiling down to the LLVM intermediate representation. LLVM, or low level virtual machine, is an extracting machine that numerous programming languages already compile to. Wasm programs can be compiled to machine code that is highly optimized. New standards are being created to standardize the WebAssembly System Interface (WASI). When Wasm modules are deployed to the server, the WASI will offer a collection of APIs and services to interact with them. It provides a safe, efficient, and versatile method for developing and deploying bespoke logic that operates at a considerably closer distance to the data than ever before. Wasm may not replace containers any time soon, but you can expect it to become part of a whole lot of software going forward. Wasm enables the creation of custom logic that executes considerably closer to the data than was previously possible. And now, you can compile your existing programs to Wasm and push them into the database. Source: Infoworld 🔥 Trending Stories 14 Tech Leaders Offer Their Best Pieces of Advice to New Entrepreneurs Ultimate Guide For Hiring On-demand Developers For Your Startup Top 25 Digital Transformation Influencers You Need to Follow

5 Operations every cloud architect should automate

When it comes to the development of cutting-edge business applications, the cloud can be a huge help. When planning, developing, and releasing cloud-hosted apps, here are five tasks that every cloud architect should try to automate. 1. Scaling Automated scaling is the foundation of cloud computing. Auto-scaling server resources or elastic scaling in cloud-native services like Amazon S3 and DynamoDB are vital to the cloud. One of the main reasons people move to the cloud is to build scalable infrastructure. The next automation is launching additional server instances quickly and painlessly, which is needed for automated scalability. 2. Server provisioning Cloud automation provides a fully operating server instance with all necessary applications and services in minutes. Server provisioning automates auto-scaling and self-healing infrastructures. Automating the replacement of a failing or compromised server instance affects cloud problem solving. This functionality improves MTTR for many types of issues.Automated server provisioning works similarly for virtual machine instances in compute services like Amazon EC2 and container instances in Kubernetes environments like Google Kubernetes Engine. Automation speeds up and optimizes server instance launching, scaling, and maintenance, which most cloud-enabled applications require. 3. Infrastructure building Automatically deploying servers won’t launch your cloud application. Load balancers, firewalls, network segments, databases, and other application services like queues and caches must also be provisioned. Before your application works, all supporting infrastructure must be set up, configured, and connected.In the cloud, infrastructure as code (IaC) allows API calls to provision application infrastructure. IaC lets you write source code, usually JSON or YAML, to set up your infrastructure (such as Git). Next, you use a tool to automatically provision, configure, and link your infrastructure components into a working network. Cloud architects should use IaC tools to develop secure, repeatable infrastructure provisioning cloud patterns. The advantages are incalculable. 4. Code deployment Automated code deployment pipelines are not cloud-specific. However, cloud architects heavily rely on automated code deployments because they are a natural extension of other automation. The CI/CD pipeline automates code deployment. CI/CD, or continuous integration/continuous delivery, is a model that automatically deploys code from a software version control system to production applications (again, such as Git).Automated code deployments are possible using many tools. The list includes Jenkins, Bamboo, GitLab, CircleCI, and AWS CodeDeploy. Each functions differently, and the cloud architect must choose the correct automation strategy to satisfy the development organization and business’s demands. However, most complex cloud-architected applications use automated code deployment. Yours should. 5. Native cloud services Many cloud services provide automated dynamic scalability, which is sometimes neglected. Amazon Simple Queue Service, Amazon S3, and Amazon DynamoDB use automation to scale dynamic applications. Cloud architects choose S3 over local drive storage on compute instances because it is straightforward, safe, reliable, quick to integrate, and autonomous. Many additional public cloud services are similar. You benefit from powerful background automation by using them.Automation defines the cloud. Many run their cloud apps without automation. Automation improves consistency, dependability, security, scalability, and business response. Lifting and moving an on-premises application to the cloud “as is” is a reasonably easy and uncomplicated migration, and often does not need a qualified cloud architect to perform. But such an application lacks most cloud benefits. A cloud architect is needed to build a cloud-enabled app that takes advantage of the cloud’s features. Most cloud-architected apps use automation. Good cloud architects facilitate, expand, support, and encourage automation in all cloud-based applications. A skilled cloud architect automates everything. Cloud automation drives them, and they appreciate employing it in creative ways. Source: Infoworld 🔥 Trending Stories 14 Tech Leaders Offer Their Best Pieces of Advice to New Entrepreneurs Ultimate Guide For Hiring On-demand Developers For Your Startup Top 25 Digital Transformation Influencers You Need to Follow

Oracle adds Fusion Cloud features targeted at healthcare firms

Increasing its focus on healthcare industry customers, Oracle at the company’s annual CloudWorld conference in Las Vegas announced updates for its Cloud Fusion suite aimed at meeting their financial planning, supply chain and human resources needs with healthcare-oriented features for its Supply Chain and Manufacturing (SCM), Fusion Enterprise Performance Management (EPM), and Human Capital Management (HCM) suites. Healthcare sector has become a major target for Oracle, as signaled by its $28 billion acquisition of Cerner. Oracle said it will help users make better financial, workforce, and patient care decisions via EPM. The new features will be offered as part of Oracle Fusion Cloud Enterprise Performance Management (EPM) suite. EPM suite includes planning and management capabilities for financial statements, balance sheets, and cash flow. Moreover, Oracle has added specific tools to aid healthcare firms with supply chain issues. The new capabilities will be offered as part of Oracle’s Fusion Cloud Supply Chain and Manufacturing (SCM) suite and will include a new home equipment delivery application and a new supply chain planning service. Furthermore, Oracle has launched a specialized set of tools to help healthcare providers manage their staff more efficiently. The company says the tools will help reduce burnout and costs, and deliver better patient care. Oracle ME (my experience) is part of the Fusion Cloud Human Capital Management (HCM) suite. Source: CIO 🔥 Trending Stories 14 Tech Leaders Offer Their Best Pieces of Advice to New Entrepreneurs Ultimate Guide For Hiring On-demand Developers For Your Startup Top 25 Digital Transformation Influencers You Need to Follow

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