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claude-codeops

Babysitter capacity-planner

Capacity requirements planning skill with demand-capacity gap analysis and capacity strategy recommendations

install
source · Clone the upstream repo
git clone https://github.com/a5c-ai/babysitter
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/a5c-ai/babysitter "$T" && mkdir -p ~/.claude/skills && cp -r "$T/library/specializations/domains/business/operations/skills/capacity-planner" ~/.claude/skills/a5c-ai-babysitter-capacity-planner && rm -rf "$T"
manifest: library/specializations/domains/business/operations/skills/capacity-planner/SKILL.md
tags
#capacity-planning#demand-forecasting#resource-analysis#scenario-modeling
source content

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

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

StrategyDescriptionWhen to Use
LeadBuild capacity ahead of demandGrowth markets, competitive advantage
LagAdd capacity after demand materializesUncertain demand, capital constraints
MatchIncrementally add capacityModerate growth, balanced approach

Resource Loading Analysis

Load Level% UtilizationAction
Under-loaded< 70%Consider reduction or consolidation
Optimal70-85%Maintain current state
Fully loaded85-95%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