What is cost optimization?

A systematic approach to reducing cloud spend across AWS, Azure, and GCP while maintaining performance and reliability.

Which cloud providers are covered?

The framework covers AWS, Azure, and GCP, applying visibility, right-sizing, pricing models, and architecture optimization across them.

How do I start governance?

Begin with tagging and cost dashboards, set budget alerts, then implement right-sizing and pricing models to enforce ongoing cost control.

cost-optimization

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SKILL.md

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Cloud Cost Optimization

Strategies and patterns for optimizing cloud costs across AWS, Azure, and GCP.

Purpose

Implement systematic cost optimization strategies to reduce cloud spending while maintaining performance and reliability.

When to Use

Reduce cloud spending
Right-size resources
Implement cost governance
Optimize multi-cloud costs
Meet budget constraints

Cost Optimization Framework

1. Visibility

Implement cost allocation tags
Use cloud cost management tools
Set up budget alerts
Create cost dashboards

2. Right-Sizing

Analyze resource utilization
Downsize over-provisioned resources
Use auto-scaling
Remove idle resources

3. Pricing Models

Use reserved capacity
Leverage spot/preemptible instances
Implement savings plans
Use committed use discounts

4. Architecture Optimization

Use managed services
Implement caching
Optimize data transfer
Use lifecycle policies

AWS Cost Optimization

Reserved Instances

Savings: 30-72% vs On-Demand
Term: 1 or 3 years
Payment: All/Partial/No upfront
Flexibility: Standard or Convertible

Savings Plans

Compute Savings Plans: 66% savings
EC2 Instance Savings Plans: 72% savings
Applies to: EC2, Fargate, Lambda
Flexible across: Instance families, regions, OS

Spot Instances

Savings: Up to 90% vs On-Demand
Best for: Batch jobs, CI/CD, stateless workloads
Risk: 2-minute interruption notice
Strategy: Mix with On-Demand for resilience

S3 Cost Optimization

resource "aws_s3_bucket_lifecycle_configuration" "example" {
  bucket = aws_s3_bucket.example.id

  rule {
    id     = "transition-to-ia"
    status = "Enabled"

    transition {
      days          = 30
      storage_class = "STANDARD_IA"
    }

    transition {
      days          = 90
      storage_class = "GLACIER"
    }

    expiration {
      days = 365
    }
  }
}

Azure Cost Optimization

Reserved VM Instances

1 or 3 year terms
Up to 72% savings
Flexible sizing
Exchangeable

Azure Hybrid Benefit

Use existing Windows Server licenses
Up to 80% savings with RI
Available for Windows and SQL Server

Azure Advisor Recommendations

Right-size VMs
Delete unused resources
Use reserved capacity
Optimize storage

GCP Cost Optimization

Committed Use Discounts

1 or 3 year commitment
Up to 57% savings
Applies to vCPUs and memory
Resource-based or spend-based

Sustained Use Discounts

Automatic discounts
Up to 30% for running instances
No commitment required
Applies to Compute Engine, GKE

Preemptible VMs

Up to 80% savings
24-hour maximum runtime
Best for batch workloads

Tagging Strategy

AWS Tagging

locals {
  common_tags = {
    Environment = "production"
    Project     = "my-project"
    CostCenter  = "engineering"
    Owner       = "team@example.com"
    ManagedBy   = "terraform"
  }
}

resource "aws_instance" "example" {
  ami           = "ami-12345678"
  instance_type = "t3.medium"

  tags = merge(
    local.common_tags,
    {
      Name = "web-server"
    }
  )
}

Reference: See references/tagging-standards.md

Cost Monitoring

Budget Alerts

# AWS Budget
resource "aws_budgets_budget" "monthly" {
  name              = "monthly-budget"
  budget_type       = "COST"
  limit_amount      = "1000"
  limit_unit        = "USD"
  time_period_start = "2024-01-01_00:00"
  time_unit         = "MONTHLY"

  notification {
    comparison_operator        = "GREATER_THAN"
    threshold                  = 80
    threshold_type            = "PERCENTAGE"
    notification_type         = "ACTUAL"
    subscriber_email_addresses = ["team@example.com"]
  }
}

Cost Anomaly Detection

AWS Cost Anomaly Detection
Azure Cost Management alerts
GCP Budget alerts

Architecture Patterns

Pattern 1: Serverless First

Use Lambda/Functions for event-driven
Pay only for execution time
Auto-scaling included
No idle costs

Pattern 2: Right-Sized Databases

Development: t3.small RDS
Staging: t3.large RDS
Production: r6g.2xlarge RDS with read replicas

Pattern 3: Multi-Tier Storage

Hot data: S3 Standard
Warm data: S3 Standard-IA (30 days)
Cold data: S3 Glacier (90 days)
Archive: S3 Deep Archive (365 days)

Pattern 4: Auto-Scaling

resource "aws_autoscaling_policy" "scale_up" {
  name                   = "scale-up"
  scaling_adjustment     = 2
  adjustment_type        = "ChangeInCapacity"
  cooldown              = 300
  autoscaling_group_name = aws_autoscaling_group.main.name
}

resource "aws_cloudwatch_metric_alarm" "cpu_high" {
  alarm_name          = "cpu-high"
  comparison_operator = "GreaterThanThreshold"
  evaluation_periods  = "2"
  metric_name         = "CPUUtilization"
  namespace           = "AWS/EC2"
  period              = "60"
  statistic           = "Average"
  threshold           = "80"
  alarm_actions       = [aws_autoscaling_policy.scale_up.arn]
}

Cost Optimization Checklist

Tools

AWS: Cost Explorer, Cost Anomaly Detection, Compute Optimizer
Azure: Cost Management, Advisor
GCP: Cost Management, Recommender
Multi-cloud: CloudHealth, Cloudability, Kubecost

Reference Files

references/tagging-standards.md - Tagging conventions
assets/cost-analysis-template.xlsx - Cost analysis spreadsheet

Related Skills

terraform-module-library - For resource provisioning
multi-cloud-architecture - For cloud selection

Source

git clone https://github.com/Microck/ordinary-claude-skills/blob/main/skills_all/cost-optimization/SKILL.mdView on GitHub

Overview

Cloud Cost Optimization provides patterns for reducing cloud spend across AWS, Azure, and GCP. It centers on visibility, right-sizing, pricing models, and architecture choices to enable cost governance without sacrificing performance.

How This Skill Works

It begins with Visibility—adding cost allocation tags, using cost management tools, and dashboards. Then Right-Sizing to eliminate idle resources and enable auto-scaling, followed by applying Pricing Models (RI, savings plans, spot) and finally Architecture Optimization through managed services, caching, and efficient data transfer.

When to Use It

Reduce cloud spending
Right-size resources
Implement cost governance
Optimize multi-cloud costs
Meet budget constraints

Quick Start

Step 1: Enable visibility by turning on cost management tools, apply standard tags, and build cost dashboards.
Step 2: Analyze utilization to identify over-provisioned resources, then right-size and enable auto-scaling where feasible.
Step 3: Choose pricing models (RI/Savings Plans/Spot) for appropriate workloads and set up budget alerts and dashboards.

Best Practices

Implement cost allocation tags and use cost dashboards to improve visibility.
Set up budget alerts and continuous monitoring to catch overruns early.
Regularly right-size resources and remove idle assets; enable auto-scaling where appropriate.
Apply pricing models (Reserved Instances, Savings Plans, Spot) judiciously for balance of cost and risk.
Adopt architecture optimizations (managed services, caching, data transfer efficiency) to reduce recurring costs.

Example Use Cases

AWS: Use Reserved Instances and Savings Plans to reduce EC2 costs while leveraging Spot for batch/CI workloads.
AWS: Implement S3 lifecycle rules to transition to STANDARD_IA and GLACIER, trimming storage spend.
Azure: Enable Hybrid Benefit and leverage Advisor recommendations to right-size VMs and delete unused resources.
GCP: Apply Committed Use Discounts for steady workloads and Sustained Use Discounts for automatic savings.
Cross-cloud: Enforce tagging standards and monitor spend with dashboards to drive cost governance.

Frequently Asked Questions

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