Free SKILL.md scraped from GitHub. Clone the repo or copy the file directly into your Claude Code skills directory.
npx versuz@latest install a5c-ai-babysitter-library-specializations-domains-business-operations-skills-capacgit clone https://github.com/a5c-ai/babysitter.gitcp babysitter/SKILL.MD ~/.claude/skills/a5c-ai-babysitter-library-specializations-domains-business-operations-skills-capac/SKILL.md---
name: capacity-planner
description: Capacity requirements planning skill with demand-capacity gap analysis and capacity strategy recommendations
allowed-tools:
- Read
- Write
- Glob
- Grep
- Edit
metadata:
specialization: operations
domain: business
category: capacity-planning
---
# Capacity Planner
## Overview
The Capacity Planner skill provides comprehensive capabilities for capacity requirements planning. It supports demand-capacity gap analysis, strategy modeling, resource loading analysis, and what-if scenario analysis to ensure adequate capacity for meeting customer demand.
## Capabilities
- Capacity requirements calculation
- Demand forecast integration
- Gap analysis visualization
- Lead, lag, match strategy modeling
- Resource loading analysis
- Rough-cut capacity planning
- What-if scenario analysis
- Capacity investment justification
## Used By Processes
- CAP-001: Capacity Requirements Planning
- CAP-003: Sales and Operations Planning
- CAP-002: Production Scheduling Optimization
## Tools and Libraries
- ERP/MRP systems
- Capacity planning software
- Forecasting tools
- Scenario modeling platforms
## Usage
```yaml
skill: capacity-planner
inputs:
planning_horizon: 12 # months
demand_forecast:
- month: 1
units: 10000
- month: 2
units: 11000
# ... additional months
resource_capacities:
- resource: "Assembly Line 1"
available_hours: 160
efficiency: 0.85
units_per_hour: 50
- resource: "Assembly Line 2"
available_hours: 160
efficiency: 0.80
units_per_hour: 45
capacity_options:
- option: "Add overtime"
cost: 1.5 # multiplier
capacity_increase: 25 # percent
- option: "New equipment"
cost: 500000
capacity_increase: 100 # percent
outputs:
- capacity_requirements
- gap_analysis
- resource_loading
- strategy_recommendations
- investment_analysis
```
## Capacity Planning Process
### Step 1: Calculate Requirements
```
Capacity Required = Demand / (Units per Hour x Efficiency)
Example:
- Demand: 10,000 units
- Rate: 50 units/hour
- Efficiency: 85%
- Required: 10,000 / (50 x 0.85) = 235 hours
```
### Step 2: Assess Available Capacity
```
Effective Capacity = Available Hours x Efficiency x Utilization Target
```
### Step 3: Identify Gaps
```
Capacity Gap = Capacity Required - Effective Capacity
```
## Capacity Strategies
| Strategy | Description | When to Use |
|----------|-------------|-------------|
| Lead | Build capacity ahead of demand | Growth markets, competitive advantage |
| Lag | Add capacity after demand materializes | Uncertain demand, capital constraints |
| Match | Incrementally add capacity | Moderate growth, balanced approach |
## Resource Loading Analysis
| Load Level | % Utilization | Action |
|------------|---------------|--------|
| Under-loaded | < 70% | Consider reduction or consolidation |
| Optimal | 70-85% | Maintain current state |
| Fully loaded | 85-95% | Monitor closely, plan additions |
| Over-loaded | > 95% | Immediate action required |
## What-If Scenarios
Common scenarios to analyze:
1. Demand increase of 20%
2. Equipment breakdown
3. Labor shortage
4. New product introduction
5. Seasonal peak periods
## Integration Points
- ERP/MRP systems
- Demand planning systems
- Financial planning tools
- HR workforce planning