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Esta habilidad realiza planificación de capacidad pronosticando las necesidades de recursos utilizando métricas históricas y la función `predict_linear`. Identifica restricciones, calcula el margen disponible y recomienda acciones de escalado para prevenir la saturación. Úsela antes de picos de tráfico, lanzamientos de productos o durante revisiones trimestrales para gestionar los recursos de manera proactiva.
Instalación rápida
Claude Code
Recomendadonpx skills add pjt222/agent-almanac -a claude-code/plugin add https://github.com/pjt222/agent-almanacgit clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/plan-capacityCopia y pega este comando en Claude Code para instalar esta habilidad
Documentación
Plan Capacity
Forecast resource needs. Prevent saturation through data-driven capacity planning.
When Use
- Before seasonal traffic spikes (holidays, sales)
- Planning new feature launches
- Quarterly capacity reviews
- Resource utilization trending upward
- Before budget planning cycles
Inputs
- Required: Historical metrics (CPU, memory, disk, network, requests/sec)
- Required: Time range for trend analysis (4 weeks min)
- Optional: Business growth projections (expected user growth, feature launches)
- Optional: Budget constraints
Steps
Step 1: Collect Historical Metrics
Query Prometheus for key resource metrics:
# CPU usage trend over 8 weeks
avg(rate(node_cpu_seconds_total{mode!="idle"}[5m])) by (instance)
# Memory usage trend
avg(node_memory_MemTotal_bytes - node_memory_MemAvailable_bytes) by (instance)
# Disk usage growth
avg(node_filesystem_size_bytes - node_filesystem_free_bytes) by (instance, device)
# Request rate growth
sum(rate(http_requests_total[5m])) by (service)
# Database connection pool usage
avg(db_connection_pool_used / db_connection_pool_max) by (instance)
Export to analyze:
# Export 8 weeks of CPU data
curl -G 'http://prometheus:9090/api/v1/query_range' \
--data-urlencode 'query=avg(rate(node_cpu_seconds_total{mode!="idle"}[5m])) by (instance)' \
--data-urlencode 'start=2024-12-15T00:00:00Z' \
--data-urlencode 'end=2025-02-09T00:00:00Z' \
--data-urlencode 'step=1h' | jq '.data.result' > cpu_8weeks.json
Got: Clean time series for each resource. No large gaps.
If fail: Missing data drops forecast accuracy. Check metric retention and scrape intervals.
Step 2: Compute Growth Rates with predict_linear
Use Prometheus predict_linear() to forecast saturation:
# Predict when CPU will hit 80% (4 weeks ahead)
predict_linear(
avg(rate(node_cpu_seconds_total{mode!="idle"}[5m]))[8w:],
4*7*24*3600 # 4 weeks in seconds
) > 0.80
# Predict disk full date (8 weeks ahead)
predict_linear(
avg(node_filesystem_size_bytes - node_filesystem_free_bytes)[8w:],
8*7*24*3600
) > 0.95 * avg(node_filesystem_size_bytes)
# Predict memory pressure (2 weeks ahead)
predict_linear(
avg(node_memory_MemTotal_bytes - node_memory_MemAvailable_bytes)[8w:],
2*7*24*3600
) / avg(node_memory_MemTotal_bytes) > 0.90
# Predict request rate capacity breach (4 weeks ahead)
predict_linear(
sum(rate(http_requests_total[5m]))[8w:],
4*7*24*3600
) > 10000 # known capacity limit
Build forecasting dashboard:
{
"dashboard": {
"title": "Capacity Forecast",
"panels": [
{
"title": "CPU Saturation Forecast (4 weeks)",
"targets": [
{
"expr": "predict_linear(avg(rate(node_cpu_seconds_total{mode!=\"idle\"}[5m]))[8w:], 4*7*24*3600)",
"legendFormat": "Predicted CPU"
},
{
"expr": "0.80",
"legendFormat": "Target Threshold (80%)"
}
]
},
{
"title": "Disk Full Date",
"targets": [
{
"expr": "(avg(node_filesystem_size_bytes) - predict_linear(avg(node_filesystem_free_bytes)[8w:], 8*7*24*3600)) / avg(node_filesystem_size_bytes)",
"legendFormat": "Predicted Usage %"
}
]
}
]
}
}
Got: Clear chart showing when resources breach thresholds.
If fail: Predictions look wrong (negative values, wild swings)? Check for:
- Insufficient history (need 4 weeks min)
- Step spikes (deployments, migrations) distorting trend
- Seasonal patterns linear model misses
Step 3: Compute Current Headroom
Find safety margin before saturation:
# CPU headroom (percentage remaining before 80% threshold)
(0.80 - avg(rate(node_cpu_seconds_total{mode!="idle"}[5m]))) / 0.80 * 100
# Memory headroom (bytes remaining before 90% usage)
avg(node_memory_MemAvailable_bytes) - (avg(node_memory_MemTotal_bytes) * 0.10)
# Request rate headroom (requests/sec before saturation)
10000 - sum(rate(http_requests_total[5m]))
# Time until saturation (weeks until CPU hits 80%)
(0.80 - avg(rate(node_cpu_seconds_total{mode!="idle"}[5m]))) /
deriv(avg(rate(node_cpu_seconds_total{mode!="idle"}[5m]))[8w:]) /
(7*24*3600)
Build headroom summary report:
cat > capacity_headroom.md <<'EOF'
# Capacity Headroom Report (2025-02-09)
## Current Utilization
- **CPU**: 45% average (target: <80%)
- **Memory**: 62% (target: <90%)
- **Disk**: 71% (target: <95%)
- **Request Rate**: 4,200 req/s (capacity: 10,000)
## Headroom Analysis
- **CPU**: 35% headroom → ~12 weeks until saturation
- **Memory**: 28% headroom → ~16 weeks until saturation
- **Disk**: 24% headroom → ~8 weeks until full
- **Request Rate**: 5,800 req/s headroom → ~20 weeks until capacity
## Priority Actions
1. **Disk**: Implement log rotation or expand volume within 4 weeks
2. **CPU**: Plan horizontal scaling in next quarter
3. **Memory**: Monitor but no immediate action needed
EOF
Got: Quantified headroom per resource with time-to-saturation estimates.
If fail: Headroom already negative? Already in reactive mode. Scale immediately.
Step 4: Model Growth Scenarios
Factor in business projections:
# Example Python script for scenario modeling
import pandas as pd
import numpy as np
# Load historical data
df = pd.read_json('cpu_8weeks.json')
# Calculate weekly growth rate
growth_rate_weekly = df['value'].pct_change(periods=7).mean()
# Scenario 1: Current trend
weeks_ahead = 12
current_trend = df['value'].iloc[-1] * (1 + growth_rate_weekly) ** weeks_ahead
# Scenario 2: 2x user growth (marketing campaign)
accelerated_trend = df['value'].iloc[-1] * (1 + growth_rate_weekly * 2) ** weeks_ahead
# Scenario 3: New feature launch (+30% baseline)
feature_launch = (df['value'].iloc[-1] * 1.30) * (1 + growth_rate_weekly) ** weeks_ahead
print(f"Current Trend (12 weeks): {current_trend:.1%} CPU")
print(f"2x Growth Scenario: {accelerated_trend:.1%} CPU")
print(f"Feature Launch Scenario: {feature_launch:.1%} CPU")
print(f"Threshold: 80%")
Got: Multiple scenarios showing impact of business changes on capacity.
If fail: Scenarios exceed capacity? Prioritize scaling before event.
Step 5: Generate Scaling Recommendations
Build actionable recommendations:
## Capacity Scaling Plan
### Immediate Actions (Next 4 Weeks)
1. **Disk Expansion** [Priority: HIGH]
- Current: 500GB, 71% used
- Projected full date: 2025-04-01 (8 weeks)
- Action: Expand to 1TB by 2025-03-15
- Cost: $50/month additional
- Justification: 5 weeks lead time needed
2. **Log Rotation Policy** [Priority: MEDIUM]
- Current: Logs retained 90 days
- Action: Reduce to 30 days, archive to S3
- Savings: ~150GB disk space
- Cost: $5/month S3 storage
### Near-Term Actions (Next Quarter)
3. **Horizontal Scaling - API Tier** [Priority: MEDIUM]
- Current: 4 instances, 45% CPU
- Projected: 65% CPU by 2025-05-01
- Action: Add 2 instances (to 6 total)
- Cost: $400/month
- Trigger: When CPU avg exceeds 60% for 7 days
4. **Database Connection Pool** [Priority: LOW]
- Current: 50 max connections, 40% used
- Projected: 55% by Q3
- Action: Increase to 75 in Q2
- Cost: None (configuration change)
### Long-Term Planning (Next 6 Months)
5. **Migration to Auto-Scaling** [Priority: MEDIUM]
- Current: Manual scaling
- Action: Implement Kubernetes HPA (Horizontal Pod Autoscaler)
- Timeline: Q3 2025
- Benefit: Automatic response to load spikes
Got: Prioritized list with costs, timelines, trigger conditions.
If fail: Recommendations rejected on cost? Revisit thresholds or accept risk.
Step 6: Set Up Capacity Alerts
Create alerts for low headroom:
# capacity_alerts.yml
groups:
- name: capacity
interval: 1h
rules:
- alert: CPUCapacityLow
expr: |
(0.80 - avg(rate(node_cpu_seconds_total{mode!="idle"}[5m]))) / 0.80 < 0.20
for: 24h
labels:
severity: warning
annotations:
summary: "CPU headroom below 20%"
description: "Current CPU headroom: {{ $value | humanizePercentage }}. Scaling needed within 4 weeks."
- alert: DiskFillForecast
expr: |
predict_linear(avg(node_filesystem_free_bytes)[8w:], 4*7*24*3600) < 0.10 * avg(node_filesystem_size_bytes)
for: 1h
labels:
severity: warning
annotations:
summary: "Disk projected to fill within 4 weeks"
description: "Expand disk volume soon."
- alert: MemoryCapacityLow
expr: |
avg(node_memory_MemAvailable_bytes) < 0.15 * avg(node_memory_MemTotal_bytes)
for: 6h
labels:
severity: warning
annotations:
summary: "Memory headroom below 15%"
Got: Alerts fire before saturation. Time to scale proactively.
If fail: Tune thresholds — too often (alert fatigue) or too late (reactive scrambling).
Checks
- Historical metrics cover 8 weeks min
-
predict_linear()queries return sensible forecasts (no negative values) - Headroom calculated for all critical resources
- Growth scenarios include business projections
- Scaling recommendations have costs and timelines
- Capacity alerts configured and tested
- Report reviewed with engineering leadership and finance
Pitfalls
- Insufficient history: Linear predictions need 4+ weeks of data. Less than that → forecasts unreliable.
- Ignore step changes: Deployments, migrations, feature launches create spikes that distort trends. Filter or annotate.
- Linear assumption: Not all growth is linear. Exponential (viral products) needs different models.
- Forget lead time: Cloud provisioning fast, but procurement, budgets, migrations take weeks. Plan early.
- No budget alignment: Capacity planning without budget buy-in → last-minute scrambles. Involve finance early.
See Also
setup-prometheus-monitoring- collect metrics used for capacity planningbuild-grafana-dashboards- visualize forecasts and headroomoptimize-cloud-costs- balance capacity planning with cost optimization
Repositorio GitHub
Frequently asked questions
What is the plan-capacity skill?
plan-capacity is a Claude Skill by pjt222. Skills package instructions and resources that Claude loads on demand, so Claude can perform plan-capacity-related tasks without extra prompting.
How do I install plan-capacity?
Use the install commands on this page: add plan-capacity to Claude Code as a plugin, or clone its repository into your skills directory, then restart Claude so it picks up the skill.
What category does plan-capacity belong to?
plan-capacity is in the Design category, tagged ai.
Is plan-capacity free to use?
Yes. plan-capacity is listed on AIMCP and free to install. It runs inside Claude, so no separate service account is required to use the skill itself.
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