AWS Solution Architect

Design scalable, cost-effective AWS architectures for startups with infrastructure-as-code templates.

Table of Contents

• Trigger Terms

• Workflow

• Tools

• Quick Start

• Input Requirements

• Output Formats

Trigger Terms

Use this skill when you encounter:

Category Terms

Architecture Design serverless architecture, AWS architecture, cloud design, microservices, three-tier

IaC Generation CloudFormation, CDK, Terraform, infrastructure as code, deploy template

Serverless Lambda, API Gateway, DynamoDB, Step Functions, EventBridge, AppSync

Containers ECS, Fargate, EKS, container orchestration, Docker on AWS

Cost Optimization reduce AWS costs, optimize spending, right-sizing, Savings Plans

Database Aurora, RDS, DynamoDB design, database migration, data modeling

Security IAM policies, VPC design, encryption, Cognito, WAF

CI/CD CodePipeline, CodeBuild, CodeDeploy, GitHub Actions AWS

Monitoring CloudWatch, X-Ray, observability, alarms, dashboards

Migration migrate to AWS, lift and shift, replatform, DMS

Workflow

Step 1: Gather Requirements

Collect application specifications:

• Application type (web app, mobile backend, data pipeline, SaaS)
• Expected users and requests per second
• Budget constraints (monthly spend limit)
• Team size and AWS experience level
• Compliance requirements (GDPR, HIPAA, SOC 2)
• Availability requirements (SLA, RPO/RTO)

Step 2: Design Architecture

Run the architecture designer to get pattern recommendations:

python scripts/architecture_designer.py --input requirements.json

Select from recommended patterns:

• Serverless Web: S3 + CloudFront + API Gateway + Lambda + DynamoDB

• Event-Driven Microservices: EventBridge + Lambda + SQS + Step Functions

• Three-Tier: ALB + ECS Fargate + Aurora + ElastiCache

• GraphQL Backend: AppSync + Lambda + DynamoDB + Cognito

See references/architecture_patterns.md for detailed pattern specifications.

Step 3: Generate IaC Templates

Create infrastructure-as-code for the selected pattern:

Serverless stack (CloudFormation)

python scripts/serverless_stack.py --app-name my-app --region us-east-1

Output: CloudFormation YAML template ready to deploy

Step 4: Review Costs

Analyze estimated costs and optimization opportunities:

python scripts/cost_optimizer.py --resources current_setup.json --monthly-spend 2000

Output includes:

• Monthly cost breakdown by service

• Right-sizing recommendations

• Savings Plans opportunities

• Potential monthly savings

Step 5: Deploy

Deploy the generated infrastructure:

CloudFormation

aws cloudformation create-stack
--stack-name my-app-stack
--template-body file://template.yaml
--capabilities CAPABILITY_IAM

CDK

cdk deploy

Terraform

terraform init && terraform apply

Step 6: Validate

Verify deployment and set up monitoring:

Check stack status

aws cloudformation describe-stacks --stack-name my-app-stack

Set up CloudWatch alarms

aws cloudwatch put-metric-alarm --alarm-name high-errors ...

Tools

architecture_designer.py

Generates architecture patterns based on requirements.

python scripts/architecture_designer.py --input requirements.json --output design.json

Input: JSON with app type, scale, budget, compliance needs Output: Recommended pattern, service stack, cost estimate, pros/cons

serverless_stack.py

Creates serverless CloudFormation templates.

python scripts/serverless_stack.py --app-name my-app --region us-east-1

Output: Production-ready CloudFormation YAML with:

• API Gateway + Lambda

• DynamoDB table

• Cognito user pool

• IAM roles with least privilege

• CloudWatch logging

cost_optimizer.py

Analyzes costs and recommends optimizations.

python scripts/cost_optimizer.py --resources inventory.json --monthly-spend 5000

Output: Recommendations for:

• Idle resource removal

• Instance right-sizing

• Reserved capacity purchases

• Storage tier transitions

• NAT Gateway alternatives

Quick Start

MVP Architecture (< $100/month)

Ask: "Design a serverless MVP backend for a mobile app with 1000 users"

Result:

• Lambda + API Gateway for API
• DynamoDB pay-per-request for data
• Cognito for authentication
• S3 + CloudFront for static assets
• Estimated: $20-50/month

Scaling Architecture ($500-2000/month)

Ask: "Design a scalable architecture for a SaaS platform with 50k users"

Result:

• ECS Fargate for containerized API
• Aurora Serverless for relational data
• ElastiCache for session caching
• CloudFront for CDN
• CodePipeline for CI/CD
• Multi-AZ deployment

Cost Optimization

Ask: "Optimize my AWS setup to reduce costs by 30%. Current spend: $3000/month"

Provide: Current resource inventory (EC2, RDS, S3, etc.)

Result:

• Idle resource identification
• Right-sizing recommendations
• Savings Plans analysis
• Storage lifecycle policies
• Target savings: $900/month

IaC Generation

Ask: "Generate CloudFormation for a three-tier web app with auto-scaling"

Result:

• VPC with public/private subnets
• ALB with HTTPS
• ECS Fargate with auto-scaling
• Aurora with read replicas
• Security groups and IAM roles

Input Requirements

Provide these details for architecture design:

Requirement Description Example

Application type What you're building SaaS platform, mobile backend

Expected scale Users, requests/sec 10k users, 100 RPS

Budget Monthly AWS limit $500/month max

Team context Size, AWS experience 3 devs, intermediate

Compliance Regulatory needs HIPAA, GDPR, SOC 2

Availability Uptime requirements 99.9% SLA, 1hr RPO

JSON Format:

{ "application_type": "saas_platform", "expected_users": 10000, "requests_per_second": 100, "budget_monthly_usd": 500, "team_size": 3, "aws_experience": "intermediate", "compliance": ["SOC2"], "availability_sla": "99.9%" }

Output Formats

Architecture Design

• Pattern recommendation with rationale

• Service stack diagram (ASCII)

• Configuration specifications

• Monthly cost estimate

• Scaling characteristics

• Trade-offs and limitations

IaC Templates

• CloudFormation YAML: Production-ready SAM/CFN templates

• CDK TypeScript: Type-safe infrastructure code

• Terraform HCL: Multi-cloud compatible configs

Cost Analysis

• Current spend breakdown

• Optimization recommendations with savings

• Priority action list (high/medium/low)

• Implementation checklist

Reference Documentation

Document Contents

references/architecture_patterns.md

6 patterns: serverless, microservices, three-tier, data processing, GraphQL, multi-region

references/service_selection.md

Decision matrices for compute, database, storage, messaging

references/best_practices.md

Serverless design, cost optimization, security hardening, scalability

Limitations

• Lambda: 15-minute execution, 10GB memory max

• API Gateway: 29-second timeout, 10MB payload

• DynamoDB: 400KB item size, eventually consistent by default

• Regional availability varies by service

• Some services have AWS-specific lock-in