1. What is the difference between a VPC and a subnet in AWS? ✅ VPC (Virtual Private Cloud) ✅ Subnet 🧠 Key Takeaway: 🔍 2. How do you secure a VPC? ✅ Security Best Practices 🧠 Key Takeaway: 🔍 3. Explain the use cases for AWS Direct Connect vs. VPN. ✅ AWS Direct Connect ✅ […]

1. What is the difference between a VPC and a subnet in AWS? Key Points: 2. How do you secure a VPC? Key Points: 3. Explain the use cases for AWS Direct Connect vs. VPN. Key Points: 4. What is an Elastic Load Balancer (ELB), and what types are available? Key Points: 5. How would

🔧 1. Design a Highly Available and Scalable Web Application with Auto Scaling and Load Balancing Implementation Steps: 🔧 2. Implementing a Serverless Architecture with AWS Lambda Implementation Steps: 🔧 3. Containerized Applications with ECS and EKS Implementation Steps: ECS (Elastic Container Service) , EKS (Elastic Kubernetes Service) , and Hybrid Setup are all ways

1. Design a Highly Available and Scalable Web Application with Auto Scaling and Load Balancing 2. Implementing a Serverless Architecture with AWS Lambda 3. Containerized Applications with ECS and EKS 4. Cost Optimization of EC2 Instances 5. Secure and Isolated Environments with VPC and Security Groups 6. Disaster Recovery and Backup Strategy 7. High Availability

AWS (Amazon Web Services) offers a wide range of cloud storage options, each designed to meet specific use cases and requirements. Below is an overview of the primary AWS storage services, their use cases, and advantages: 1. Amazon S3 (Simple Storage Service) Overview: Amazon S3 is a highly scalable, durable, and secure object storage service.

Building the backbone of artificial intelligence (AI) with scalable and power-efficient infrastructure is critical to meeting the growing demands of AI workloads. AI applications, particularly those involving deep learning, require massive computational resources, large datasets, and efficient data processing pipelines. However, as AI scales, energy consumption, and hardware limitations become significant challenges. Below is a

Starting quantum computing using open-source tools is an exciting and accessible journey. Open-source frameworks, simulators, and educational resources make it possible for anyone to learn, experiment, and contribute to the field of quantum computing without needing access to expensive hardware. Below is a step-by-step guide to help you get started: 1. Understand the Basics of

Classical computing and quantum computing fundamentally differ in how they process information, the types of problems they can solve efficiently, and their underlying principles. Below is a detailed comparison of the two paradigms: 1. Basic Principles Aspect Classical Computing Quantum Computing Unit of Information Uses bits, which can be either 0 or 1. Usesqubits, which

The adoption of quantum computing is an exciting prospect with the potential to revolutionize industries such as cryptography, optimization, drug discovery, artificial intelligence, and more. However, several significant challenges hinder widespread adoption. While quantum computing holds tremendous promise, its adoption is hampered by technical, economic, educational, and societal challenges. Addressing these issues will require sustained

Open source is pivotal in making quantum computing accessible to everyone by democratizing access to tools, frameworks, and educational resources. Open source is a driving force behind the democratization of quantum computing. Free access to powerful tools, simulators, and educational resources empowers individuals and organizations to explore and innovate in this transformative field. While challenges