Module 1: Overview of AWS & Cloud Computing [Duration: 2 Hrs.]
• Traditional data center
• What is virtualization?
• Introduction to cloud & cloud computing
• IaaS, PaaS, SaaS
• Cloud computing deployment models (public, private, hybrid)
• Comparison: AWS , azure, and gcp
• Amazon web services (AWS ) and its advantages
Module 2: AWS Global Infrastructure [Duration: 3 Hrs.]
• Aws regions and replication of data
• Availability zones & high availability
• AWS edge locations
• Overview of different amazon web services
• Ways to access AWS : cli, console, sdks
Module 3: AWS Identity and Security Management [Duration: 3 Hrs.]
• IAM: user management and policies
• Access policies and permissions
• AWS security token service (STS)
• AWS resource access manager (RAM)
• AWS single sign-on (SSO)
• AWS cognito
• AWS security & encryption services: kms, cloudhsm, shield, waf, guardduty
• Api key access and best IAM practices
• Billing access and creating alerts
Module 4: AWS Storage Services [Duration: 4 Hrs.]
• Object storage vs traditional storage
• Cost comparison: traditional vs cloud
• AWS storage options overview
• Amazon S3 and its components
• S3 working and architecture
• S3 vs EBS vs EFS
• Bucket policies and ACL
• Versioning and CRR (cross-region replication)
• S3 transfer acceleration
• S3 storage classes and lifecycle policy
• CDN overview: cloudfront and AWS global accelerator
• AWS storage gateway
Module 5: Compute Services – Amazon EC2 [Duration: 5 Hrs.]
• What is amazon EC2 and its benefits
• Ami (amazon machine image)
• Security groups and key pair authentication
• Hardware tenancy: shared vs dedicated
• Networking in EC2: VPC & ENI
• Public IP vs elastic IP
• Instance store overview
• EBS and its volume types
• EFS features and use cases
• Amazon fsx (windows file server and lustre)
• EBS vs EFS
Module 6: AWS Databases and Analytics [Duration: 3 Hrs.]
• Amazon RDS: features and read replica
• IAM authentication for RDS
• Dynamodb overview
• Elasticache: redis vs memcached
• Amazon redshift
• AWS kinesis (data streams and firehose)
• AWS lake formation
• AWS athena
• AWS qldb
Module 7: Load Balancing, Auto-Scaling, and Route 53 [Duration: 5 Hrs.]
• Elastic load balancer (ELB) and its types
• Advanced features of ELB
• Launch templates vs launch configurations
• Classic vs network vs application load balancer
• Auto-scaling components and policies
• Lifecycle of auto-scaling
• Amazon route 53: routing policies
Module 8: Networking and Monitoring Services [Duration: 5 Hrs.]
• VPC: benefits and components
• CIDR notation
• Network ACL vs security groups
• Nat devices, gateway, and instance
• VPC peering
• Direct connect & privatelink
• AWS cloudwatch
• AWS cloudtrail
• AWS config
• Trusted advisor
Module 9: Application Integration and Serverless [Duration: 5 Hrs.]
• AWS SES (simple email service)
• Working with SNS (simple notification service)
• SQS (simple queue service) and asg integration
• Amazon MQ and eventbridge
• AWS SWF (simple workflow service)
• AWS lambda and serverless application model
Module 10: Configuration Management & Automation [Duration: 2 Hrs.]
• Infrastructure as code (IAC) introduction
• AWS cloudformation: templates, stacks, resource policies
• AWS opsworks: services, components, lifecycle events
• Opsworks for chef and puppet
• Auto healing features
• AWS elastic beanstalk vs opsworks vs cloudformation
Module 11: Migration to AWS [Duration: 4 Hrs.]
• What and why of cloud migration
• Migration phases & CAF perspectives
• AWS migration hub: roles, permissions, and use cases
• Application discovery service & tools
• Application and VM migration
• AWS server migration service (SMS)
• Database migration: implementation & best practices
• AWS DMS: homogeneous vs heterogeneous migration
• AWS schema conversion tool
AWS Cloud Computing is the future of technology and a great way to build a high-growth career. At GICSEH - The AWS Training Institute, we offer the most in-depth and hands-on AWS Course in Delhi. Get an industry-vetted curriculum, project-based learning, and expert mentorship to turn you into a fully prepared AWS Solutions Architect for the job market. Build the #1 cloud platform in the world, learn how to design and deploy scalable, resilient, and cost-effective applications, and be able to successfully pass the AWS Certified Solutions Architect - Associate exam.
The Features That Makes Our Training Unique:
• Official AWS Architect Curriculum: Learn the exact skills required by Amazon Web Services. Our training is carefully aligned with the official AWS Certified Solutions Architect - Associate (SAA-C03) curriculum and will prepare you perfectly for the certification test, with every module and lab.
• Live AWS Hands-On Labs: Get to learn by building in a real cloud environment. We have practical training that is greater than 80%, which gives you live practical experience using the AWS Free Tier and will allow you to architect, deploy, and troubleshoot real-world cloud infrastructure scenarios.
• Unmatched Job Placement Assistance: Your success in securing a job and progressing in your career is our priority. We have a full circle placement program that offers your own resume building service, extensive mock interviews, complimentary introductions to our expanding roster of corporate hiring partners.
• Expert Coached by Certified Architects: Work with a unique team of AWS Certified Solutions Architects who deliver years of experience designing and managing enterprise-level cloud solutions into your learning experience.
To initiate your journey as a certified cloud professional click on one of the below buttons to download our detailed course guide and fee schedule, or request a call back for a free career counseling session with one of our expert advisors.
Today, it is fair to say that cloud computing is the driving force of innovation. The fundamental platform that makes nimble, scalable, and globally competitive businesses possible. The leader at the forefront of this technological revolution is Amazon Web Services (AWS). AWS started from the infrastructure needs of Amazon.com. After launching commercially in 2006, AWS has grown to be the world leader in the cloud computing marketplace with the largest share of having the largest share of the market, and computers behind millions of businesses around the globe.
The Origin of Dominance and Unmatched Market Share
AWS's unmatched dominance is not by accident. AWS was the first company to be a serious player in the market and because of this, they had a multi-year head-start to build a platform that is incredibly mature, reliable, and rich in features. This created a flywheel effect: as more customers moved towards the AWS platform, AWS was able to gather more feedback to build services and achieve massive economies of scale that attracted even more customers. Today, AWS is trusted by the world's most successful startups, such as Netflix, Airbnb, Slack, and the most demanding enterprises including the vast majority of the Fortune 500. Because of this expansive adoption, learning AWS is learning the language of the modern cloud.
A Catalyst for Innovation: Breadth and Depth of Services
What truly differentiates AWS is the depth and breadth of its service offerings. AWS provides a solution to nearly every conceivable technological need with more than 200 fully-featured services available. This is well past simple computing and storage. AWS has an exhaustive tool set in multiple areas:
• Compute: Starting with resizable virtual servers running application code with Amazon EC2 and ending with serverless computing options with AWS Lambda, AWS has many tools to run your code in.
• Storage: AWS offers durable and scalable object storage options with Amazon S3, high-performance block storage options for servers with high-performance requirements with Amazon EBS, and managed files systems using Amazon EFS.
• Databases: AWS, at every use case, from relational databases with Amazon RDS and Aurora to NoSQL databases using Amazon DynamoDB for every database use case.
• Networking: AWS has a built-in network-level isolation platform using Amazon VPC, that allows you to create your own cloud isolation network, providing access control to your virtual network environment.
• Machine Learning and AI: AWS is committed to democratizing AI and has built services like Amazon SageMaker to build, train and deploy machine learning models at-scale.
• Internet of things (IoT): AWS IoT Core, lets businesses connect billions of devices to the cloud, and secure and manage their data.
This comprehensive suite of services allows businesses to innovate faster, experiment with new ideas at a low cost, and scale their operations globally in minutes—a feat that was impossible in the era of on-premises data centers.
Unparalleled Global Infrastructure and Reach
AWS's enormous global physical infrastructure is a major distinguishing feature. And this is not some abstract concept; it’s an actual network of data centers that span the globe, and those data centers are grouped into Regions and Availability Zones (AZs). A Region is a physical, geographical location on earth (i.e., Mumbai or Singapore) while an AZ is made of one or more discrete data centers with redundant power, networking, and connection from the data centers within a Region. By architecting your applications to run across multiple AZs, you can create exceptional high availability and fault tolerance levels; if one AZ or data center crashes, the others will not be impacted. AWS has a large number of Edge Locations, which are AWS's Content Delivery Network (CDN), Amazon CloudFront locations that cache content as close to the end-user as possible to improve application performance by reducing latency for a global application audience. Understanding the differences in these geographical locations is important to architecting and designing world-class applications.
The Well-Architected Framework: A Blueprint for Excellence
AWS doesn't just deliver the tools, they deliver a roadmap for using them properly. The AWS Well-Architected Framework is made up of guiding principles and best practices, put together by AWS architects, to help their customers build secure, high-performing, resilient, and efficient infrastructure for their applications. The framework has six Pillars; Operational Excellence, Security, Reliability, Performance Efficiency, Cost Optimization, and Sustainability. Our AWS Course in Delhi is focused on teaching you how to use these frameworks and best practices, turning you into more than just a user of the service, but a cloud architect who can make sound design choices.
For professionals in India, AWS represents a huge career opportunity. As Indian companies, big and small, move quickly to migrate to the cloud for their digital transformation initiatives, the need for talented and certified AWS professionals is reaching a fever pitch. By taking a top AWS Training in Delhi, you can play an important part in closing this skills' gap and becoming key talent in the most exciting and fastest growing sector in the IT industry.
Earning an AWS certification, such as the AWS Certified Solutions Architect - Associate is one of the undeniable and most effective routes to help catapult your IT career. It is a credential that is recognized and respected world-wide by employers. The practical skills you will learn in our complete AWS Course in Delhi will also recommend a range of sought-after and lucrative job opportunities.
• Cloud Solutions Architect
The Role:
The SAA-C03 certification prepares you to be a Solutions Architect, a planner and designer of cloud solutions. In this role, you will work with the business stakeholders to understand the functional and technical needs of an application, and design and propose a secure, scalable, resilient and cost-effective solution using the AWS platform.
A Day in the Life: You will have a range of tasks in any given day which could include: Creating architectural diagrams, using Lucidchart for example, Presenting a proposed solution and its cost implications to a potential client, Determining which AWS services (e.g. EC2, RDS, etc) are appropriate for a new application, Writing infrastructure-as-code templates using AWS CloudFormation.
Key AWS Services: EC2 | S3 | VPC| RDS | Lambda | Route 53 | CloudFormation | AWS Well-Architected Framework design principles.
Career Growth: A career as a Solutions Architect can evolve into Senior Solutions Architect, then Enterprise Architect or Principal Technologist and potentially influence the technology direction of an entire organization.
• Cloud Engineer / Cloud Practitioner
The Role: A Cloud Engineer is an operator or mover and are hands-on with implementing. As a Cloud Engineer, you take your drawings of architecture and implement it by the AWS cloud platform. You are also responsible for the day-to-day deployment, management and operation of the cloud infrastructure.
A Day in the Life: You may be creating and configuring EC2 instances using the console or CLI, configuring S3 buckets with the proper lifecycle policies and permissions, building a complex VPC with public and private subnets, and troubleshooting performance issues with Amazon Cloudwatch metrics and logs.
Key AWS Services Used: EC2, S3, VPC, EBS, IAM, Cloudwatch, CloudFormation or Terraform.
Career Advancement: This could transition to a Senior Cloud Engineer role, a specialization such as security or networking, or into a DevOps or Architect role.
• DevOps Engineer (Cloud-focused)
The Role: As a DevOps Engineer on AWS, your primary focus will be on the automation of the software development lifecycle to drive speed and reliability. You will build and manage Continuous Integration/Continuous Delivery (CI/CD) pipelines which allow developers to release software more quickly and safely.
A Day in the Life: You will be using AWS services such as CodePipeline, CodeBuild, and CodeDeploy to create a fully automated build-and-deployment process. Additionally, you may also be containerizing applications with Docker and managing them at scale using either Amazon ECS or EKS (Kubernetes on AWS), and using CloudFormation or Terraform to manage all infrastructure as code.
Key AWS Services Used: AWS DevOps Suite (CodeCommit, CodeBuild, CodeDeploy, CodePipeline), ECS, EKS, Lambda, and IAM.
Career Growth: This is an extremely high-demand area with growth leading to roles such as Senior DevOps Engineer, SRE (Site Reliability Engineer), or Cloud Automation Architect.