AWS Solution Architect Course In Dehradun

With the best AWS Solution Architect Course in Dehradun, Brillica Services can assist you in achieving your goal of being an AWS Solutions Architect. Scalable, dependable, and affordable cloud Solutions must be designed and implemented on the Amazon Web Services (AWS) platform by AWS Solutions Architects. You should concentrate on developing a thorough understanding of AWS services, Architecture best practices, and cloud design principles as part of your preparation for this position.

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About Course

Our AWS Solution Architect Course in Dehradun provides comprehensive instruction on how to create and design an effective, scalable, and dependable system or framework for AWS. You will gain an understanding of the fundamentals of AWS cloud computing, such as IAM, VPC, security and compliance, database management, and more. You will need a quality education with real-world applications if you want to become an AWS Solution Architect and pursue a career in cloud computing.
You may evaluate business requirements and translate them into Architectural designs by choosing the suitable AWS services and infrastructure components thanks to the AWS Solution Architect Training in Dehradun. Solutions Architects prioritize maximizing system security, compliance, and performance while lowering operational costs. In order to ensure successful cloud implementations, they frequently hold AWS qualifications like AWS Certified Solutions Architect - Associate or Professional. They also work closely with development teams and stakeholders. Their knowledge enables businesses to take advantage of AWS's extensive capabilities to achieve their technical and commercial goals.

Benefits Of Doing AWS Solution Architect Training In Dehradun

With industry recognition and technological mastery, AWS Solution Architect Training in Dehradun will help you advance your career. Working on one of the largest cloud computing platforms, such as AWS (Amazon Web Services), can only make you more and more skilled. Listed below are a few advantages of completing AWS Solution Architect Training in Dehradun.

AWS Solution Architects are in high demand.

High pay with lots of possibilities for advancement

Improved capacity for problem-solving

Possibilities for working remotely

Understanding of cutting-edge technologies

Opportunities in Security & Networking

Teamwork abilities

Job Safety

Course Curriculum

1. Course Curriculum

You can quickly comprehend the fundamental ideas in our custom-designed AWS Solution Architect Certification in Dehradun and apply them to more advanced activities because the Course is organized into basic and advanced levels of concepts. You can master all the fundamentals of an AWS Solution Architect using engaging learning activities and approaches, regardless of your level of experience.

2. Design Secure Architectures

Task Statement 1: Design secure access to AWS resources.

Access controls and management across multiple accounts.

AWS federated access and identity services (for example, AWS Identity and Access Management)

Access Management [IAM], AWS Single Sign-On [AWS SSO])

AWS global infrastructure (for example, Availability Zones, AWS Regions)

AWS security best practices (for example, the principle of least privilege)

The AWS shared responsibility model

Applying AWS security best practices to IAM users and root users (for example, multi-factor authentication [MFA])

Designing a flexible authorization model that includes IAM users, groups, roles, and policies

Designing a role-based access control strategy (for example, AWS Security Token Service [AWS STS], role switching, cross-account access)

Designing a security strategy for multiple AWS accounts (for example, AWS Control Tower, service control policies [SCPs])

Determining the appropriate use of resource policies for AWS services

Determining when to federate a directory service with IAM roles

3. Design Secure Workloads And Applications

Application configuration and credentials security

AWS service endpoints

Control ports, protocols, and network traffic on AWS

Secure application access

Security services with appropriate use cases (for example, Amazon Cognito, Amazon GuardDuty, Amazon Macie)

Threat vectors external to AWS (for example, DDoS, SQL injection)

Designing VPC Architectures with security components (for example, security groups, route tables, network ACLs, NAT gateways)

Determining network segmentation strategies (for example, using public subnets and private subnets)

Integrating AWS services to secure applications (for example, AWS Shield, AWS WAF, AWS SSO, AWS Secrets Manager)

Securing external network connections to and from the AWS Cloud (for example, VPN, AWS Direct Connect)

4. Determine Appropriate Data Security Controls

Data access and governance

Data recovery

Data retention and classification

Encryption and appropriate key management

Skills in

Aligning AWS technologies to meet compliance requirements

Encrypting data at rest (for example, AWS Key Management Service [AWS KMS])

Encrypting data in transit (for example, AWS Certificate Manager [ACM] using TLS)

Implementing access policies for encryption keys Implementing data backups and replications

Implementing policies for data access, lifecycle, and protection

Rotating encryption keys and renewing certificate

5. Design Resilient Architectures

Task Statement 1: Design scalable and loosely coupled Architectures.

API creation and management (for example, Amazon API Gateway, REST API)

AWS managed services with appropriate use cases (for example, AWS Transfer Family, Amazon Simple Queue Service [Amazon SQS], Secrets Manager)

Caching strategies

Design principles for microservices (for example, stateless workloads compared with stateful workloads)

Event-driven Architectures

Horizontal scaling and vertical scaling

How to appropriately use edge accelerators (for example, content delivery network [CDN])

How to migrate applications into containers

Load balancing concepts (for example, Application Load Balancer)

Multi-tier Architectures

Queuing and messaging concepts (for example, publish/subscribe)

Serverless technologies and patterns (for example, AWS Fargate, AWS Lambda)

Storage types with associated characteristics (for example, object, file, block)

The orchestration of containers (for example, Amazon Elastic Container

Service [Amazon ECS], Amazon Elastic Kubernetes Service [Amazon EKS])

When to use read replicas

Workflow orchestration (for example, AWS Step Functions)

Designing event-driven, microservice, and/or multi-tier Architectures based on requirements

Determining scaling strategies for components used in an Architecture design

Determining the AWS services required to achieve loose coupling based on requirements

Using AWS services that improve the reliability of legacy applications and applications not built for the cloud (for example, when application changes are not possible)

Using purpose-built AWS services for workload

6. Design High-Performing Architectures

Task Statement 1: Determine high-performing and/or scalable storage Solutions.

Hybrid storage Solutions to meet business requirements

Storage services with appropriate use cases (for example, Amazon S3, Amazon Elastic File System [Amazon EFS], Amazon Elastic Block Store [Amazon EBS])

Storage types with associated characteristics (for example, object, file, block)

Determining storage services and configurations that meet performance demands

Determining storage services that can scale to accommodate future needs

Task Statement 2: Design high-performing and elastic compute Solutions.

AWS compute services with appropriate use cases (for example, AWS Batch, Amazon EMR, Fargate)

Distributed computing concepts supported by AWS global infrastructure and edge services

Queuing and messaging concepts (for example, publish/subscribe)

Scalability capabilities with appropriate use cases (for example, Amazon EC2 Auto Scaling, AWS Auto Scaling)

Serverless technologies and patterns (for example, Lambda, Fargate)

The orchestration of containers (for example, Amazon ECS, Amazon EKS)

Decoupling workloads so that components can scale independently |identifying metrics and conditions to perform scaling actions

Selecting the appropriate compute options and features (for example, EC2 instance types) to meet business requirements

Selecting the appropriate resource type and size (for example, the amount of Lambda memory) to meet business requirements

7. Determine High-Performing Database Solutions

AWS global infrastructure (for example, Availability Zones, AWS Regions)

Caching strategies and services (for example, Amazon ElastiCache)

Data access patterns (for example, read-intensive compared with write-intensive)

Database capacity planning (for example, capacity units, instance types, Provisioned IOPS)

Database connections and proxies

Database engines with appropriate use cases (for example, heterogeneous migrations, and homogeneous migrations)

Database replication (for example, read replicas)

Database types and services (for example, serverless, relational compared with non-relational, in-memory)

Configuring read replicas to meet business requirements

Designing database Architectures

Determining an appropriate database engine (for example, MySQL compared with PostgreSQL)

Determining an appropriate database type (for example, Amazon Aurora, Amazon DynamoDB)

Integrating caching to meet business requirements

Determine high-performing and/or scalable network

Edge networking services with appropriate use cases (for example, Amazon CloudFront, AWS Global Accelerator) Selecting appropriate compute options for data processing (for example, Amazon EMR)

Selecting appropriate configurations for ingestion

Transforming data between formats (for example, .csv to .parquet)

8. Design Cost-Optimized Architectures

Design cost-optimized storage Solutions.

Access options (for example, an S3 bucket with Requester Pays object storage)

AWS cost management service features (for example, cost allocation tags, multi-account billing)

AWS cost management tools with appropriate use cases (for example, AWS Cost Explorer, AWS Budgets, AWS Cost and Usage Report)

AWS storage services with appropriate use cases (for example, Amazon FSx, Amazon EFS, Amazon S3, Amazon EBS)

Backup strategies

Block storage options (for example, hard disk drive [HDD] volume types, solid state drive [SSD] volume types)

Data lifecycles

Hybrid storage options (for example, DataSync, Transfer Family, Storage Gateway)

Storage access patterns

Storage tiering (for example, cold tiering for object storage)

Storage types with associated characteristics (for example, object, file, block)

Designing appropriate storage strategies (for example, batch uploads to Amazon S3 compared with individual uploads)

Determining the correct storage size for a workload

Determining the lowest cost method of transferring data for a workload to

AWS storage

Determining when storage auto scaling is required

Managing S3 object lifecycles

Selecting the appropriate backup and/or archival Solution

Selecting the appropriate service for data migration to storage services

Selecting the appropriate storage tier

Selecting the correct data lifecycle for storage

Selecting the most cost-effective storage service for a workload

9. Design Cost-Optimized Compute Solutions

AWS cost management service features (for example, cost allocation tags, multi-account billing)

AWS cost management tools with appropriate use cases (for example, Cost Explorer, AWS Budgets, AWS Cost and Usage Report)

AWS global infrastructure (for example, Availability Zones, AWS Regions)

AWS purchasing options (for example, Spot Instances, Reserved Instances, Savings Plans)

Distributed compute strategies (for example, edge processing)

Hybrid compute options (for example, AWS Outposts, AWS Snowball Edge)

Instance types, families, and sizes (for example, memory optimized, compute optimized, and virtualization)

Optimization of compute utilization (for example, containers, serverless Computing, microservices)

Scaling strategies (for example, auto-scaling, hibernation)

10. Design Cost-optimized Database Solutions

AWS cost management service features (for example, cost allocation tags, multi-account billing)

AWS cost management tools with appropriate use cases (for example, Cost Explorer, AWS Budgets, AWS Cost and Usage Report)

Caching strategies

Data retention policies

Database capacity planning (for example, capacity units)

Database connections and proxies

Database engines with appropriate use cases (for example, heterogeneous migrations, and homogeneous migrations)

Database replication (for example, read replicas)

Database types and services (for example, relational compared with non-relational, Aurora, Dynamo DB)

11. Design Cost-optimized Network Architectures

AWS cost management service features (for example, cost allocation tags, multi-account billing)

AWS cost management tools with appropriate use cases (for example, Cost Explorer, AWS Budgets, AWS Cost and Usage Report)

Load balancing concepts (for example, Application Load Balancer)

NAT gateways (for example, NAT instance costs compared with NAT gateway costs)

Network connectivity (for example, private lines, dedicated lines, VPNs)

Network routing, topology, and peering (for example, AWS Transit Gateway,VPC peering)

Network services with appropriate use cases (for example, DNS)

Course Highlights

project based training course

Certified & Industry Experienced Trainers

Beginner To Expert-Level Training

Best-In-Class Training Curriculum

Online & Offline Training Modes

Project Deliverables

Multi-Tier Web Application Deployment

Data Warehousing Solution

Serverless Application Development

Disaster Recovery Plan

Big Data Processing with EMR

DevOps Pipeline with AWS CodePipeline

Who Can Apply?

IT experts with extensive experience, such as network administrators, developers, and system administrators.

AWS consultants as well as cloud consultants

Graduate or post-graduate students studying cloud computing

Project managers in charge of projects using AWS

Students who want to specialize skills in cloud computing

People looking to switch careers or move into cloud computing

Job Roles

AWS Solutions Architect

Becoming an AWS Solutions Architect is the most straightforward professional path. You design and deploy scalable, secure, and economical cloud Solutions for organizations in this role.

Cloud Architect

In addition to AWS-specific positions, you can work as a generic Cloud Architect, bringing your understanding of cloud Architecture across a range of cloud platforms and assisting businesses with their cloud plans.

Cloud Consultant

In your capacity as a cloud consultant, you can advise companies on the best ways to adopt the cloud, guiding them in selecting the ideal cloud Architecture and services.

Cloud Engineer

Cloud Engineer does the technical implementation of cloud Solutions, including infrastructure setup, configuration, and upkeep on AWS, which is the responsibility of cloud engineers.

DevOps Engineer

DevOps Engineers on AWS automate deployment pipelines and enhance application development processes. They are AWS Certified Solutions Architects with a DevOps specialization.

Cloud Security Architect

By specializing in cloud security and working as a Cloud Security Architect, you can ensure the security of cloud environments and demonstrate a thorough awareness of AWS security best practices.

Career Services

profile building

We help in Creating & growing your professional profile that will make you stand out in the professional world.

interview preparation

We conduct multiple mock interview sessions with various tips & tricks that will make you habitual & confident in an interview environment.

job placement

Our dedicated team continuously works on finding & providing multiple opportunities for the students and provides 100% placement assistance.

Testimonials

Certification

The Certified AWS Solution Architect Certification in Dehradun given by Brillica Services is currently one of the most sought-after credentials on the market. You will have several opportunities to develop your career after completing the AWS Course. In addition to having greater knowledge and skills than your rivals, having an AWS Solution Architect Certification from Brillica Services will also help you perform better in interviews. You can also get AWS Solution Architect Course Online in Dehradun from Brillica Services.

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Frequently Asked Questions

1. Is there any AWS Solution Architect Course Online in Dehradun?

Yes, if you want to do AWS Solution Architect Course Online in Dehradun the Brillica Services with downloadable class recordings for each session.

2. What is the next level after Solution Architect?

After becoming an AWS Certified Solutions Architect, the next level could be pursuing the AWS Certified Solutions Architect - Professional Certification. It's an advanced Certification demonstrating expertise in designing complex and scalable AWS Solutions.

3. Does a Solution Architect do coding?

A Solution Architect typically focuses on designing high-level Architecture, making Architectural decisions, and guiding the development team. While they may understand coding, their primary role is not coding but rather ensuring the overall system aligns with business and technical goals.

4. Can a fresher be a Solution Architect?

It's extremely rare for a fresher (recent graduate with no industry experience) to become a Solution Architect. This role typically requires years of relevant experience and expertise in IT and Architecture.

5. What is the salary of an AWS fresher in India?

The salary for a fresher with AWS skills in India could range from ₹3 lakhs to ₹8 lakhs per year, depending on factors like location, educational background, and specific skills.

6. What is the salary of a Solution Architect in India for Freshers?

Freshers typically do not start as Solution Architects. However, with relevant experience and skills, a junior or associate-level Solution Architect in India might earn an annual salary ranging from ₹6 lakhs to ₹15 lakhs or more, depending on location and company.

7. Which career is best in AWS?

The best career in AWS depends on your interests and skills. Roles like AWS Solutions Architect, AWS DevOps Engineer, and AWS Developer are popular. Choose based on your passion for Architecture, operations, or development.

8. Which language is required for AWS?

No specific programming language is required for AWS, but familiarity with scripting languages like Python, PowerShell, or JavaScript can be useful for automating tasks and interacting with AWS services.

Best AWS Solution Architect Course In Dehradun

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AWS Solution Architect Course In Dehradun

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About Course

Benefits Of Doing AWS Solution Architect Training In Dehradun

Course Curriculum

Career Services

Certification