WHAT DOES AN ADVANCED MANUFACTURING ENGINEER DO?

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Published: May 08, 2026. The Advanced Manufacturing Engineer leads automation, Lean manufacturing, process optimization, and capital equipment initiatives across global production operations. This role develops manufacturing processes, tooling, production systems, and automation solutions that improve productivity, quality, and cost performance. The position also drives continuous improvement, technology deployment, and process validation while ensuring operational excellence and compliance with industry standards.

Key Responsibilities of an Advanced Manufacturing Engineer

1. Advanced Manufacturing Engineer Duties

Operations Technology: Develop and own manufacturing operations technology roadmaps supporting financial objectives, digital transformation goals, and long-term technology strategies across global production facilities.
Cross-Functional Leadership: Partner with plant managers, productivity leaders, Lean leaders, IT teams, and local operations personnel to align technology initiatives with business unit objectives.
Lean Manufacturing: Support and enhance plant-specific Lean manufacturing initiatives to improve operational efficiency, process standardization, and continuous improvement performance.
Digital Manufacturing: Lead research, development, and deployment of digital manufacturing technologies and agile automation systems across global manufacturing environments.
Process Improvement: Utilize operations technology solutions to improve manufacturing processes, increase productivity, and optimize operational performance across multiple facilities.
Proof of Concept: Develop proof of concept solutions and scale validated technologies to full production deployment across local and cross-plant manufacturing operations.
Data Analysis: Analyze operational data and manufacturing trends to identify improvement opportunities, recommend corrective actions, and drive measurable value capture.
Change Management: Support hyper care activities, user training, technology adoption, and on-site change management for newly implemented manufacturing systems.

2. Advanced Manufacturing Engineer Details

Capital Equipment: Develop and prepare formal cost justifications supporting capital equipment purchases and manufacturing investment decisions.
Process Optimization: Recommend methods to improve worker efficiency and reduce material and utility waste through workflow restructuring and equipment optimization.
Site Assessment: Conduct plant site surveys and analyze manufacturing processes and machine capabilities to capture system design data.
System Requirements: Create plant-specific system requirements while standardizing existing operational and manufacturing system frameworks.
Project Collaboration: Collaborate with IT teams and operations functions to deliver project requirements and meet production launch deadlines.
Technology Adoption: Drive plant technology maturity and support the adoption of emerging manufacturing technologies across regional factory operations.
Best Practices: Partner with COE teams to ensure standardization and implementation of operational best practices across business units.
Kaizen Leadership: Lead Kaizen events and cross-functional teams to solve manufacturing problems and improve operational productivity.
Documentation Management: Create standardized documentation and operational playbooks supporting future manufacturing technology launches.
Technology Sustainability: Analyze operational data and create reports to drive continuous insights, technology sustainability, and plant value improvement.

3. Advanced Manufacturing Engineer Responsibilities

Lean Six Sigma: Evaluate manufacturing and assembly processes to identify process improvements using Lean and Six Sigma methodologies.
Technology Evaluation: Evaluate new and existing technologies and suppliers to identify technical solutions supporting manufacturing process improvements.
Supplier Engagement: Conduct supplier visits and attend industry tradeshows to assess emerging manufacturing technologies and equipment capabilities.
Project Requirements: Develop program requirements, project charters, and statements of work with cross-functional stakeholders.
Project Execution: Execute project plans and support Make Buy decisions to achieve program schedule, cost, and quality objectives.
Financial Analysis: Develop financial analysis and collaborate with finance and procurement teams to secure project funding approval.
Project Leadership: Lead cross-functional project teams to implement manufacturing technologies from concept development through full-rate production.
Cross Functional Coordination: Partner with operations, facilities, tooling, quality, EH&S, program, and leadership teams throughout project execution activities.
Design Validation: Perform design reviews and acceptance testing to validate statement of work requirements and operational compliance standards.
Technology Integration: Integrate manufacturing technologies into production tools, processes, and operational areas within active manufacturing environments.
Process Stability: Evaluate system performance using process stability methods and assess product quality through Six Sigma analytical tools.
Root Cause Analysis: Troubleshoot and optimize manufacturing equipment using root cause analysis, technical expertise, and Six Sigma methodologies to improve uptime and OEE.
Production Transfer: Develop transfer to production plans enabling operations teams to sustain equipment performance independently.
Technical Support: Travel to manufacturing facilities to support equipment installation, testing, troubleshooting, and production startup activities.

4. Advanced Manufacturing Engineer Accountabilities

Project Execution: Execute productivity, cost reduction, and technology projects supporting advanced manufacturing and special process improvement objectives.
Manufacturing Support: Improve manufacturing processes, product quality, productivity, and technology performance throughout the complete product life cycle.
Tooling Management: Track tooling design and manufacturing activities supporting machining operations and production readiness.
Solumina Planning: Track Solumina plan status, author required documentation, and ensure resource availability for timely completion.
Quality Resolution: Support resolution of quality issues and process quality notifications to maintain production performance and compliance.
Machining Processes: Develop machining processes supporting manufacturing efficiency, process capability, and operational performance requirements.
IPD Collaboration: Work within IPD teams to identify manufacturing concerns and develop corrective solutions including formal DFMEA activities.
PFMEA Development: Drive PFMEA execution and develop Process Control Plans supporting manufacturing quality and process stability.
Production Coordination: Communicate and coordinate hourly production support activities with supervision teams, including overtime planning requirements.

5. Advanced Manufacturing Engineer Functions

Manufacturing Development: Manage manufacturing development projects through MRL6 to support production readiness and operational capability objectives.
Resource Management: Ensure machining resources maintain capability requirements supporting manufacturing operations and project execution.
Team Leadership: Lead internal and supplier teams supporting manufacturing improvement, productivity enhancement, and cost reduction initiatives.
Project Tracking: Develop metrics and tracking systems to execute machining projects with measurable milestones aligned to program objectives.
Manufacturing Planning: Participate in proposal development and manufacturing planning activities supporting operational and program requirements.
Lean Transformation: Coordinate with industrial engineering teams to implement Lean transformation projects across manufacturing operations.
Root Cause Analysis: Lead root cause investigations and implement systemic corrective actions, improving machining processes and operational performance.
Technology Planning: Participate in the development of Technology Development Plans, including funding strategies and staffing requirement planning.
Customer Satisfaction: Achieve customer satisfaction objectives through feedback analysis, performance metrics, and continuous operational improvement.

6. Advanced Manufacturing Engineer Overview

Cost Estimation: Lead quotation activities by developing detailed cost estimates including process flows, capital investments, tooling, cycle times, and launch costs.
Manufacturing Planning: Develop master timing charts to achieve manufacturing milestones and support production launch objectives.
Design Costing: Lead Design to Cost activities by evaluating component and assembly specifications with engineering and purchasing teams.
Manufacturing Cells: Drive development and improvement of standardized manufacturing cells, assembly processes, logistics systems, and quality concepts.
Production Concepts: Develop production concepts during quotation and serial development phases including site selection and manufacturing technologies.
Make Buy Analysis: Define Make Buy concepts and evaluate equipment strategies supporting operational and production requirements.
Assembly Systems: Develop manufacturing and assembly concepts including equipment selection, tooling strategies, measurement systems, and automation levels.
Facility Layout: Develop production infrastructure, equipment planning, and manufacturing floor layout concepts supporting operational efficiency.
Process Engineering: Develop execution plans for process engineering work packages including manpower, resource allocation, cost management, and project timing.

7. Advanced Manufacturing Engineer Details and Accountabilities

Production Processes: Develop production processes during quotation and serial development phases for in-house components and assembly operations.
Process Flows: Create required process flows supporting manufacturing operations for in-house components and product assembly activities.
Technology Development: Develop and verify new and innovative manufacturing technologies supporting operational and production objectives.
Control Planning: Develop required process and control plans supporting Off-Tool and Off-Process manufacturing validation activities.
Work Instructions: Develop process instructions supporting standardized manufacturing and assembly operations for in-house components.
Production Equipment: Develop production equipment plans during quotation and serial development phases, supporting manufacturing and assembly operations.
Manufacturing Equipment: Define required equipment supporting the production of purchased finished components and in-house manufactured components.
Assembly Equipment: Define required equipment supporting product assembly operations and manufacturing process efficiency.
Automation Systems: Define automation, material handling, and transfer equipment supporting operational productivity and workflow optimization.
Quality Equipment: Define quality control equipment requirements supporting shop floor inspection and manufacturing compliance activities.
Tooling Development: Develop production tooling and gages during quotation and serial development phases, supporting manufacturing readiness.
Tooling Compliance: Apply customer billable tooling guidelines to support tooling development and manufacturing cost compliance.

8. Advanced Manufacturing Engineer Tasks

Tooling Reuse: Evaluate reuse opportunities for existing tooling and gaging systems located within production facilities.
Manufacturing Tooling: Define required tooling supporting manufacturing operations for purchased finished components and in-house components.
Assembly Tooling: Define required tooling supporting assembly operations and product manufacturing requirements.
Quality Gaging: Define gages, measurement systems, and testing equipment supporting shop floor quality control and incoming inspection activities.
Production Infrastructure: Develop production infrastructure and facility layouts during quotation and serial development phases.
Facility Assessment: Evaluate existing site infrastructure and manufacturing layouts supporting operational and production requirements.
Shop Floor Layout: Develop detailed shop floor layouts including material flow, production equipment placement, and assembly line configurations.
Infrastructure Planning: Define existing and new infrastructure requirements including building expansion, utilities, specifications, project costs, and supplier evaluation.
FMEA Development: Conduct FMEA activities during serial development phases including product design analysis and special characteristic evaluation.
Process Flow Analysis: Develop process flow charts and apply lessons learned to improve manufacturing and assembly process effectiveness.
Failure Mode Analysis: Define failure modes at operational levels across manufacturing, assembly, rework, logistics, and material handling processes.
Manufacturing Leadership: Provide manufacturing engineering leadership, technical expertise, and operational support across product design and assembly processes.
Business Planning: Support business planning activities aligned with manufacturing operations and production strategy objectives.

9. Advanced Manufacturing Engineer Roles

Process Development: Develop manufacturing processes and methods supporting fabrication and assembly of medical and surgical devices.
Automation Engineering: Develop fixtures, machinery, and automation systems supporting medical device manufacturing and assembly operations.
Capital Planning: Participate in the development of capital expense requests, project schedules, Make Buy analysis, and business process documentation.
Supplier Management: Develop quote packages, define technical requirements, and collaborate with suppliers throughout the quotation process.
Tooling Qualification: Ensure supplier compliance with tooling specifications and oversee the manufacturing and qualification of assembly tooling.
Factory Testing: Develop protocols and execute factory acceptance testing for purchased tooling, manufacturing systems, and production fixtures.
Design Manufacturing: Participate in DFA and DFM activities to verify manufacturability and assembly readiness of product designs.
Quality Reviews: Participate in PFMEA, DFMEA, process mapping, and CTQ reviews to ensure specifications remain clearly defined and documented.
Process Documentation: Create standard work instructions, control plans, and job safety analysis documentation supporting manufacturing operations.

10. Advanced Manufacturing Engineer Additional Details

Process Planning: Create process flows, assembly line layouts, balance tables, assembly capacity analysis, and EHS project plans.
Validation Testing: Develop protocols and execute line validation and qualification activities, including IQ, OQ, MSA, and PQ.
Testing Protocols: Create testing protocols for product and tooling evaluations and summarize findings within engineering reports.
Lean Initiatives: Participate in Lean and Design for Cell Operating initiatives to stabilize production lines and reduce plant transfer timelines.
Supplier Support: Travel to supplier sites to support manufacturing activities, tooling evaluations, and operational requirements.
Skill Development: Enhance engineering and leadership capabilities through continuous training and professional development activities.
Engineering Compliance: Follow established engineering guidelines, management direction, and departmental policies supporting operational compliance.
Team Collaboration: Collaborate effectively with team members and accept constructive input, advice, and operational recommendations.

11. Advanced Manufacturing Engineer Essential Functions

Automation Strategy: Identify plant automation needs and develop manufacturing solutions supporting current and future capability and capacity requirements.
Machining Platforms: Implement enterprise-wide machining platforms through vendor selection, machine evaluation, and deployment across manufacturing facilities.
Capacity Planning: Develop long-term machining capability and capacity strategies supporting sustainable manufacturing operations and future production growth.
Robotics Automation: Drive robotics and automation initiatives across machining, winding, epoxy preparation, and coil manufacturing operations.
Productivity Improvement: Drive double-digit productivity growth through manufacturing optimization and continuous operational improvement initiatives.
Manufacturing Solutions: Improve product quality, manufacturing capacity, and productivity by developing and implementing cost-effective manufacturing solutions.
Advanced Manufacturing: Oversee implementation of new manufacturing methods, tooling, equipment, and production processes supporting operational performance improvements.
Cross-Functional Collaboration: Collaborate with design engineering, manufacturing facilities, and central AME teams to implement best practices and manufacturing solutions.
CNC Optimization: Improve machining performance through CNC program optimization, tooling selection improvements, and enhanced material removal strategies.
Process Optimization: Optimize manufacturing equipment and process flow to improve machining efficiency, tool life, and production throughput.

12. Advanced Manufacturing Engineer Role Purpose

Manufacturing Improvement: Implement improvements to fiberglass winding, ovens, machining, and material handling technologies across new and existing products.
Best Practices: Identify manufacturing best practices through trade shows, benchmarking activities, and collaboration with other production sites.
Manufacturing Support: Work with manufacturing leadership to resolve manufacturing and quality issues related to processes, tooling, equipment, and product design.
Lean Six Sigma: Improve productivity using Lean Six Sigma methodologies while meeting customer requirements for quality, cost, and delivery performance.
Manufacturability Focus: Participate in early manufacturability reviews supporting NPI and advanced technology program development activities.
AME Initiatives: Drive AME initiatives across manufacturing sites to support global supply chain improvements and operational best practice sharing.
Regulatory Compliance: Ensure regulatory compliance through qualification and validation activities supporting manufacturing and quality standards.
Process Validation: Ensure rigorous validation planning, execution, analysis, and acceptance for manufacturing processes requiring qualification activities.
QMS Simplification: Support continuous simplification of QMS methods and applications through collaboration with operations and quality assurance teams.

13. Advanced Manufacturing Engineer General Responsibilities

APQP Compliance: Complete APQP activities, ECR processes, PRP investigations, 8D actions, and quality management system requirements.
Capacity Analysis: Conduct time studies to identify capacity constraints, improve operational efficiency, and reduce manufacturing costs.
Process Documentation: Develop and maintain PFMEA documentation, operator instructions, rework procedures, and manufacturing engineering issue tracking.
Continuous Improvement: Maintain changeover procedures and support continuous improvement programs across manufacturing operations.
Cross-Functional Leadership: Coordinate and participate in multidisciplinary teams addressing productivity, quality, safety, scrap reduction, and delivery objectives.
Design Feasibility: Assist part design activities and provide manufacturability recommendations supporting cost reduction and production efficiency.
Manufacturing Processes: Apply knowledge of roll forming, extrusion, and injection molding processes, supporting manufacturing operations and product development.
Part Reviews: Review part designs and provide feasibility input supporting ease of manufacturing and operational cost reduction.
Tooling Reviews: Review tooling and gauge designs to ensure compliance with customer requirements and operational standards.
Equipment Planning: Review facility and equipment requirements with internal teams, customers, and suppliers supporting manufacturing readiness.

14. Advanced Manufacturing Engineer Key Accountabilities

Launch Coordination: Coordinate plant launch teams and ensure fulfillment of manufacturing program activities and operational deliverables.
Manufacturing Interface: Act as the primary interface between advanced manufacturing teams and production facilities throughout program execution.
Concurrent Engineering: Ensure design to manufacturing alignment through concurrent engineering collaboration with product engineering teams.
Change Management: Implement production system changes related to product modifications through engineering change management processes.
Manufacturing Feasibility: Ensure manufacturing feasibility supporting production readiness and operational program requirements.
Production Systems: Develop, validate, release, and implement complete production systems supporting manufacturing operations and program objectives.
Process Development: Develop process flow charts, plant layouts, tooling plans, utility requirements, and material flow analysis for production systems.
Supply Chain Planning: Define supply chain requirements supporting manufacturing operations in alignment with program and organizational standards.
Production Launch: Manage production launch activities and support manufacturing ramp-up to achieve operational readiness objectives.
Risk Management: Report manufacturing risk analyses and develop corrective action plans and operational improvement opportunities.
Program Standards: Apply program management systems, engineering change management processes, and manufacturing standards throughout project execution.
Milestone Management: Ensure manufacturing milestones achieve successful completion within established project timelines.
Global Manufacturing: Act as the manufacturing interface between international teams to identify manufacturing resources and develop regional cost models and supplier capabilities.

15. Advanced Manufacturing Engineer Roles and Details

Process Development: Develop manufacturing and testing processes supporting new product introduction, capacity expansion, and operational efficiency improvements.
Project Leadership: Lead manufacturing engineering and cross-functional project teams, including procurement, quality, operations, and supplier representatives.
Process Troubleshooting: Troubleshoot and resolve manufacturing issues related to tooling, materials, gages, and production processes.
Financial Analysis: Use financial analysis to estimate labor savings and justify manufacturing project investment costs.
Process Capability: Improve process capability, Cpk performance, and OEE while supporting quality, cost, delivery, and safety objectives.
Lean Manufacturing: Implement Lean production principles to improve material flow and manufacturing operational efficiency.
Six Sigma Tools: Utilize Lean, Six Sigma, and DOE methodologies during manufacturing improvement and process optimization activities.
Process Documentation: Develop, maintain, and standardize manufacturing process documentation supporting operational consistency and compliance.
Supplier Collaboration: Collaborate with internal teams and external suppliers to implement manufacturing projects and operational tasks.
Technology Innovation: Continuously identify and evaluate new manufacturing technology opportunities supporting operational improvement initiatives.

16. Advanced Manufacturing Engineer Responsibilities and Key Tasks

Automation Leadership: Drive ISC functional teams to achieve productivity savings through the successful implementation of automation projects.
Project Launches: Lead automation project launches to achieve performance targets for launch timing, cost, first pass yield, cycle time, and OEE.
Phase Gate Reviews: Ensure automation process adherence by participating in phase gate reviews and approving project go or no go decisions.
Viability Analysis: Lead automation viability reviews and confirm projects meet financial and technical feasibility requirements.
Process Optimization: Ensure manufacturing processes eliminate operational waste before automation implementation activities begin.
Opportunity Identification: Assist AME teams with the identification and evaluation of automation opportunities across manufacturing operations.
Design Automation: Champion design for automation reviews and ensure compliance with automation development specification requirements.
MOS Management: Create and manage manufacturing operating systems supporting project execution and operational accountability.
Technology Benchmarking: Benchmark and evaluate leading-edge manufacturing technologies supporting automation and operational improvements.
Equipment Standards: Collaborate with NPI and factory teams to develop and standardize manufacturing equipment requirements.
Idea Generation: Generate manufacturing improvement ideas and identify automation project opportunities supporting operational objectives.
Solution Development: Brainstorm technical solutions supporting manufacturing process improvement and operational performance enhancement.
Team Coordination: Coordinate cross-functional teams supporting automation project execution and manufacturing improvement initiatives.
Risk Analysis: Conduct risk analysis activities supporting project planning and manufacturing process implementation.
Process Definition: Define manufacturing processes supporting automation integration and operational standardization requirements.
Project Management: Plan and manage automation projects supporting cost, quality, and manufacturing performance objectives.
Cost Analysis: Perform cost improvement analysis supporting manufacturing optimization and automation investment decisions.
Technical Solutions: Drive technical solutions supporting manufacturing automation, operational efficiency, and process improvement initiatives.

17. Advanced Manufacturing Engineer Duties and Roles

Process Assessment: Identify, analyze, and assess manufacturing processes supporting transformative improvement initiatives requiring major capital investment.
Equipment Development: Apply technical knowledge to design and develop manufacturing equipment, fixturing, tooling, automation, and operational procedures.
Process Capability: Assess process capabilities, identify improvement opportunities, and integrate new equipment to maximize manufacturing throughput and velocity.
Production Integration: Collaborate with manufacturing and product engineering teams to implement production processes meeting engineering and quality specifications.
Process Documentation: Develop process documentation supporting quality system compliance and manufacturing safety requirements.
Design Manufacturability: Drive process and product enhancements through Design for Manufacturability, Design for Maintenance, and Design for Safety activities.
Risk Assessment: Conduct risk assessments and support cross-functional implementation reviews for manufacturing process improvements.
Equipment Reliability: Ensure equipment reliability through the development of design specifications, preventive maintenance instructions, and validation standards.
Workflow Planning: Improve manufacturing efficiency by analyzing workflow, equipment layouts, and facility space requirements.
Capital Projects: Initiate, develop, and manage capital improvement projects supporting manufacturing equipment, facility upgrades, and product launches.
Technical Expertise: Provide subject matter expertise supporting manufacturing processes, production equipment, and operational improvement activities.
Technical Training: Train and provide work direction to engineering technicians, maintenance personnel, manufacturing engineers, and production teams.

18. Advanced Manufacturing Engineer Responsibilities

Lean Manufacturing: Implement manufacturing workflow methods aligned with Lean best practices and the Shingo Model to improve performance and reduce operational costs.
Deployment Leadership: Own technology roadmaps, pilot programs, and successful deployment activities across multiple manufacturing locations.
Design Manufacturing: Provide Design for Manufacturing insights supporting New Product Introduction teams and manufacturing readiness activities.
Lean Coaching: Coach engineering and manufacturing teams on Lean principles, including Kanban, Single Piece Flow, and Value Stream Mapping.
Process Standardization: Drive manufacturing best practices and operational standardization across product companies and production facilities.
Factory Automation: Collaborate with AMPE teams supporting automation initiatives and Factory 4.0 manufacturing strategies.
Change Management: Develop operational understanding and lead change management activities supporting manufacturing transformation initiatives.
Industry Networking: Develop and maintain Lean manufacturing networks through trade shows, supplier partnerships, and university collaboration.
Cost Analysis: Quantify operational improvement benefits using costing standards supporting manufacturing and business performance evaluations.
Business Communication: Communicate cost savings, efficiency improvements, KPI performance, and ROI benefits supporting strategic business decisions.

19. Advanced Manufacturing Engineer Overview

Process Quality: Ensure product design and development quality align with manufacturing processes and industry testing standards.
Manufacturing Evaluation: Evaluate manufacturing process effectiveness and support quality verification through engineering testing methods.
Operational Improvement: Ensure operational improvements achieve measurable gains in safety, quality, delivery, cost, people, and environmental performance.
Capacity Planning: Ensure manufacturing capacity and operational capability support successful program implementation requirements.
Program Delivery: Deliver manufacturing programs within schedule, budget, cost, and quality performance targets.
Leadership Collaboration: Collaborate with product company leadership teams to ensure the successful execution of advanced manufacturing programs.
Resource Alignment: Align manufacturing resources, technical skills, and operational tools supporting program delivery objectives.
Technical Knowledge: Maintain professional and technical knowledge related to facilities, product design, manufacturing, and assembly technologies.
Market Awareness: Maintain awareness of market conditions and geopolitical factors impacting manufacturing operations and supply chain activities.
Regulatory Compliance: Ensure compliance with international standards, including ISO9000, TS16949, ISO14001, and ISO 45000 requirements.
Manufacturing Solutions: Provide advanced manufacturing solutions supporting large-scale manufacturing operations and production performance objectives.
Global Operations: Support global manufacturing operations through collaboration with suppliers, customers, and international production facilities.
Divisional Influence: Work within divisional teams while influencing manufacturing operations across current and future product companies.
Project Management: Manage manufacturing projects with varying levels of scale and operational complexity.

20. Advanced Manufacturing Engineer Essential Functions

Automation Leadership: Serve as the engineering lead within cross-functional automation and assembly system engineering teams.
Equipment Specifications: Write equipment specifications and statements of requirements for new and modified manufacturing equipment.
Factory Support: Provide technical factory support and continuous improvement solutions supporting manufacturing operations and productivity objectives.
Plant Layouts: Support Greenfield and Brownfield plant layouts, equipment installation, startup, and manufacturing system debugging activities.
Capital Planning: Develop capital expenditure proposals, including ROI, Make Buy analysis, IRR evaluations, and payback assessments.
FMEA Development: Develop DFMEA, PFMEA, and control plans supporting manufacturing quality and process reliability objectives.
Process Mapping: Create work instructions, maintenance instructions, value stream maps, and manufacturing process maps.
Test Development: Develop robust test processes and equipment supporting NPI, quality improvement, and COGS productivity initiatives.
Specification Compliance: Ensure engineering specifications support manufacturing performance, quality requirements, and operational effectiveness.
Test Strategies: Develop robust testing strategies supporting product validation and manufacturing quality assurance activities.
Test Coverage: Ensure adequate test coverage to prevent manufacturing defects and product quality escapes.
Cost Analysis: Evaluate the cost of test trade-offs supporting manufacturing efficiency and operational cost optimization.
Test Equipment: Define test equipment requirements and technical specifications supporting manufacturing and quality objectives.
Equipment Commissioning: Oversee design, build, qualification, and commissioning activities for production test equipment.

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