Author: Aditya Bhuyan

I work as a cloud specialist. In addition to being an architect and SRE specialist, I work as a cloud engineer and developer. I have assisted my clients in converting their antiquated programmes into contemporary microservices that operate on various cloud computing platforms such as AWS, GCP, Azure, or VMware Tanzu, as well as orchestration systems such as Docker Swarm or Kubernetes. For over twenty years, I have been employed in the IT sector as a Java developer, J2EE architect, scrum master, and instructor. I write about Cloud Native and Cloud often. Bangalore, India is where my family and I call home. I maintain my physical and mental fitness by doing a lot of yoga and meditation.
ComputingVirtualization

Using Raspberry Pi in Virtualization: Unlocking New Possibilities

Through the use of virtualization technology, multiple operating systems can now run on a single physical machine, revolutionizing the way we use computer hardware. The Raspberry Pi is one example of a small, low-cost device that is embracing this idea, even though it has traditionally been associated with powerful servers and expensive computers. The exciting world of using a Raspberry Pi for virtualization will be explored in this article, along with the new opportunities it creates for businesses, educators, and hobbyists alike.
Virtualization

Implementing Virtualization on a Mini PC: Unlocking Efficiency and Versatility

Virtualization technology has revolutionized the way we utilize computing resources, enabling the efficient management of hardware and software environments. While traditionally associated with data centers and enterprise-grade servers, virtualization can also be implemented on smaller, more compact hardware, such as Mini PCs. This essay delves into the intricacies of implementing virtualization on a Mini PC, exploring the benefits, challenges, and the step-by-step process involved. By the end of this discussion, it becomes evident that virtualization on Mini PCs offers a promising solution for various applications, ranging from personal labs to small business environments.
ComputingSoftware Engineering

Natural Language Processing: Unlocking the Power of Human Communication through AI

In the realm of Artificial Intelligence (AI), few domains have captured the imagination and driven innovation like Natural Language Processing (NLP). NLP is a subfield of AI that focuses on the interaction between computers and human language, enabling machines to understand, interpret, and generate human speech and text. With the rapid advancements in AI technologies, NLP has emerged as a crucial bridge between humans and machines, revolutionizing the way we communicate, interact, and access information.
Cloud NativeComputingSoftware Engineering

Edge Computing: Revolutionizing Data Processing and Connectivity

Edge computing is poised to revolutionize the way data is processed, enabling real-time applications and addressing the challenges posed by centralized cloud computing. As technology advances and more industries recognize the potential of edge computing, we can expect to see widespread adoption, leading to a more connected, efficient, and intelligent future. However, to fully realize its potential, stakeholders must work together to overcome the challenges and establish robust, standardized edge computing ecosystems.