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Operations excellence expertise for supply chain optimization, process improvement (Lean, Six Sigma), capacity planning, vendor management, quality assurance, and operational efficiency. Use when optimizing processes, managing supply chains, or improving operational performance.

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SKILL.md

name operations
description Operations excellence expertise for supply chain optimization, process improvement (Lean, Six Sigma), capacity planning, vendor management, quality assurance, and operational efficiency. Use when optimizing processes, managing supply chains, or improving operational performance.

Operations Expert

Comprehensive operations frameworks for process improvement, supply chain management, and operational excellence.

Operational Excellence Frameworks

Lean Manufacturing Principles

THE 5 PRINCIPLES OF LEAN:
1. Value - Define from customer perspective
2. Value Stream - Map all steps, eliminate waste
3. Flow - Make value-creating steps flow smoothly
4. Pull - Let customer demand drive production
5. Perfection - Continuously improve toward perfection

8 Wastes (DOWNTIME)

Waste Definition Examples Countermeasures
Defects Work requiring rework/scrap Quality issues, errors Poka-yoke, quality at source
Overproduction Making more than needed Excess inventory, WIP Pull systems, kanban
Waiting Idle time between processes Queue time, approvals Flow optimization, cross-training
Non-utilized talent Underusing employee skills Manual data entry, routine tasks Empowerment, automation
Transportation Unnecessary movement of materials Multiple handling, poor layout Facility layout optimization
Inventory Excess stock/materials Safety stock, WIP JIT, demand planning
Motion Unnecessary worker movement Poor workstation design 5S, ergonomics
Extra processing More work than required Over-engineering, redundant checks Value stream mapping

Six Sigma DMAIC

DEFINE
- Problem statement
- Project charter
- Voice of customer (VOC)
- SIPOC diagram
- CTQ (Critical to Quality) tree

MEASURE
- Data collection plan
- Process capability (Cp, Cpk)
- Measurement system analysis
- Baseline metrics

ANALYZE
- Root cause analysis (5 Whys, Fishbone)
- Statistical analysis
- Process mapping
- Hypothesis testing

IMPROVE
- Solution generation
- Pilot testing
- Implementation plan
- Risk assessment (FMEA)

CONTROL
- Control plan
- Statistical process control (SPC)
- Standard operating procedures
- Training and handoff

Six Sigma Metrics

Sigma Level DPMO Yield
1 691,462 30.9%
2 308,538 69.1%
3 66,807 93.3%
4 6,210 99.4%
5 233 99.98%
6 3.4 99.9997%

Supply Chain Management

Supply Chain Strategy

Strategy When to Use Key Characteristics
Efficient Stable demand, commodity products Low cost, high utilization, minimal inventory
Responsive Unpredictable demand, innovative products Speed, flexibility, buffer inventory
Risk-Hedging Supply uncertainty Multiple suppliers, pooled inventory
Agile Demand and supply uncertainty All above combined, modular design

SCOR Model (Supply Chain Operations Reference)

PLAN
- Demand planning
- Supply planning
- S&OP process
- Inventory planning

SOURCE
- Supplier selection
- Contract negotiation
- Procurement
- Supplier performance

MAKE
- Production scheduling
- Manufacturing execution
- Quality management
- Capacity management

DELIVER
- Order management
- Warehousing
- Transportation
- Last-mile delivery

RETURN
- Reverse logistics
- Returns processing
- Warranty management
- Disposal/recycling

ENABLE
- Business rules
- Performance management
- Data management
- Risk management

Supply Chain KPIs

Category Metric Formula Target
Reliability Perfect Order (Complete, On-time, Damage-free, Accurate docs) / Total 95%+
OTIF Orders On-Time In-Full / Total Orders 98%+
Responsiveness Order Cycle Time Order receipt to delivery Industry specific
Lead Time Request to fulfillment Minimize
Agility Upside Flexibility % increase possible in 30 days 20%+
Supply Chain Adaptability Time to adjust to market change Minimize
Cost Supply Chain Cost Total SC cost / Revenue 5-10%
COGS Cost of Goods Sold / Revenue Industry specific
Asset Management Cash-to-Cash DIO + DSO - DPO Industry specific
Inventory Turns COGS / Average Inventory Higher is better

Demand Planning & Forecasting

Forecasting Methods

Method Use Case Accuracy
Moving Average Stable demand Low-Medium
Exponential Smoothing Trend data Medium
Regression Causal relationships Medium-High
ARIMA Complex patterns High
Machine Learning Large datasets, many variables High
Collaborative Retail, promotions Medium-High

S&OP (Sales & Operations Planning)

MONTHLY S&OP CYCLE:

Week 1: Data Gathering
- Update sales forecast
- Review actual vs. plan
- Identify issues

Week 2: Demand Planning
- Demand review meeting
- Consensus forecast
- New product planning

Week 3: Supply Planning
- Capacity analysis
- Inventory planning
- Resource requirements

Week 4: Pre-S&OP
- Gap analysis
- Scenario planning
- Financial reconciliation

Week 5: Executive S&OP
- Final decisions
- Resource allocation
- Performance review

Inventory Management

Model Formula Use Case
EOQ √(2DS/H) Constant demand
Safety Stock z × σ × √LT Buffer uncertainty
Reorder Point (D × LT) + SS Trigger replenishment 
ABC CLASSIFICATION:
A Items: 20% of SKUs, 80% of value → Tight control
B Items: 30% of SKUs, 15% of value → Moderate control
C Items: 50% of SKUs, 5% of value → Minimal control

XYZ CLASSIFICATION (Variability):
X: Low variability (CV < 0.5) → Predictable
Y: Medium variability (0.5 < CV < 1.0) → Some variation
Z: High variability (CV > 1.0) → Sporadic

Quality Management

Total Quality Management (TQM)

TQM PRINCIPLES:
1. Customer focus
2. Total employee involvement
3. Process-centered
4. Integrated system
5. Strategic and systematic approach
6. Continuous improvement
7. Fact-based decision making
8. Communications

Quality Tools

Tool Purpose When to Use
Pareto Chart Identify vital few Prioritizing problems
Fishbone Diagram Root cause analysis Problem investigation
Control Charts Monitor process stability Ongoing monitoring
Histogram Show distribution Understanding variation
Scatter Diagram Show correlation Relationship analysis
Check Sheet Data collection Systematic recording
Flowchart Visualize process Process understanding

Statistical Process Control (SPC)

CONTROL CHART RULES (Western Electric):
Rule 1: One point beyond 3σ
Rule 2: 2 of 3 points beyond 2σ (same side)
Rule 3: 4 of 5 points beyond 1σ (same side)
Rule 4: 8 points in a row on one side of center
Rule 5: 6 points trending up or down
Rule 6: 14 points alternating up and down
Rule 7: 15 points within 1σ (reduced variation)
Rule 8: 8 points beyond 1σ (both sides)

Capacity Planning

Capacity Analysis

CAPACITY METRICS:
Design Capacity: Maximum theoretical output
Effective Capacity: Expected output given constraints
Actual Output: Real production achieved

Utilization = Actual Output / Design Capacity
Efficiency = Actual Output / Effective Capacity

CAPACITY STRATEGIES:
Lead: Build capacity ahead of demand
Lag: Build capacity after demand materializes
Match: Incrementally match demand

Production Planning

Planning Level Horizon Decisions
Strategic 1-5 years Facilities, major equipment
Tactical 3-18 months Workforce, inventory levels
Operational Days-weeks Scheduling, sequencing

Vendor Management

Supplier Evaluation Criteria

QCDDM FRAMEWORK:
Q - Quality (PPM, certification, capability)
C - Cost (Price, TCO, cost reduction)
D - Delivery (OTIF, lead time, flexibility)
D - Development (Innovation, collaboration)
M - Management (Financial stability, risk)

SCORECARD WEIGHTS (example):
Quality: 30%
Delivery: 25%
Cost: 25%
Service: 10%
Innovation: 10%

Supplier Relationship Tiers

Tier Relationship Characteristics
Strategic Partnership Joint development, long-term, shared risk
Preferred Collaboration Volume commitment, improvement programs
Approved Transactional Competitive bidding, standard terms
Spot One-time Emergency purchases, minimal vetting

Contract Management

KEY CONTRACT ELEMENTS:
- Scope of work / specifications
- Pricing structure (fixed, cost-plus, tiered)
- Volume commitments
- Quality requirements and remedies
- Delivery terms (Incoterms)
- IP ownership
- Liability and indemnification
- Force majeure
- Termination rights
- Performance metrics / SLAs
- Dispute resolution

Process Improvement Methodology

Value Stream Mapping

CURRENT STATE MAP:
1. Identify product family
2. Map customer requirements
3. Walk the process
4. Collect data (cycle time, changeover, uptime)
5. Calculate lead time vs. process time
6. Identify waste

FUTURE STATE MAP:
1. Calculate takt time
2. Implement continuous flow where possible
3. Use pull systems
4. Level production
5. Identify kaizen bursts
6. Calculate new lead time

Kaizen Events

Phase Duration Activities
Preparation 2-4 weeks Scope, team, data gathering
Event 3-5 days Analysis, solution design, implementation
Follow-up 30-60 days Sustain, measure, adjust

5S Methodology

Step Japanese English Actions
1 Seiri Sort Remove unnecessary items
2 Seiton Set in Order Organize remaining items
3 Seiso Shine Clean work area
4 Seiketsu Standardize Create standards
5 Shitsuke Sustain Maintain discipline

Operational Metrics Dashboard

Key Operating Metrics

Category Metric Frequency
Safety TRIR, Lost Time Daily
Quality First Pass Yield, Defect Rate Daily
Delivery OTIF, Lead Time Daily
Cost Unit Cost, Productivity Weekly
Inventory Turns, DOS Weekly
Equipment OEE, Downtime Daily

OEE (Overall Equipment Effectiveness)

OEE = Availability × Performance × Quality

Availability = Run Time / Planned Production Time
Performance = (Total Count × Ideal Cycle Time) / Run Time
Quality = Good Count / Total Count

WORLD-CLASS OEE: 85%+
- Availability: 90%
- Performance: 95%
- Quality: 99%

See Also