Requires specialized depth and/or breadth of expertise. Interprets internal or external business issues and recommends best practices. Solves complex problems; takes a broad perspective to identify innovative solutions. Works independently, with guidance in only the most complex situations. May lead functional teams or projects.
Competencies: MFG - Design for Serviceability (3 - Extensive Experience);MFG - Design for Safety (3 - Extensive Experience);MFG - Design for Reliability (3 - Extensive Experience);MFG - Design for Producibility (3 - Extensive Experience);MFG - Design for Manufacturability & Assembly (3 - Extensive Experience);MFG - Design for Integrate to Order (ITO) (3 - Extensive Experience);MFG - Design for Excellence (DFx) (3 - Extensive Experience);MFG - Design for Cost (3 - Extensive Experience);Project Management (3 - Extensive Experience);MFG - Design for Aesthetics (3 - Extensive Experience);Problem Solving (3 - Extensive Experience);MFG - Computer Aided Design (CAD) (3 - Extensive Experience);ME - Manufacturing Methods (3 - Extensive Experience);MFG - Product Knowledge (3 - Extensive Experience);Influencing (3 - Extensive Experience);MFG - Manufacturing Issues Resolution (NCs, DMRs, SPS) (3 - Extensive Experience);MFG - Facilitate DFx workshop (3 - Extensive Experience);Communication (3 - Extensive Experience);MFG - Early Product Development Engagement - PLC (3 - Extensive Experience);MFG - Digital Mock Up (3 - Extensive Experience);MFG - Design for Transport (3 - Extensive Experience)
Advanced knowledge of and the ability to incorporate DFx best practices to optimize product cost, quality and manufacturing cycle time. Leads medium complexity programs in DFX BKM process and tools development. Monitors industry and marketplace trends, exploring new tools and techniques. Mentors more junior DFX engineers.
Analyzes high complexity designs to ensure components and assemblies are manufacturable and produceable. Collaborates with key suppliers on manufacturability and produceability improvements on designs. Leads medium complexity programs with cross-functional teams to develop produceability, manufacturability, and assembly-related BKMs. Coaches more junior engineers on how to identify and execute manufacturability, produceability, and assembly improvements according to DFx principles.
Evaluates and implements high complexity cost reduction ideas to reduce part/assembly costs in the machined, sheet metal, frames, and plastic commodities. Identifies use cases for commonly used OEM's to leverage re-use. Very good knowledge of how cost apportionment drives cost reduction opportunities and priorities. Leads medium complexity programs to develop and improve BKM's in product cost tools and processes. Complexity –complex BTP (Build to Print) parts, OEM's, and medium complexity assemblies ; $500 - $1500
Advanced knowledge of ITO principles. Identifies and implements opportunities to maximize core content, and ensure late configurability in the manufacturing sequence on highly complex modules or products. Leads medium complexity programs with cross-functional teams to develop ITO BKMs. Coaches others on how to identify and execute ITO improvements.
Advanced understanding of shipping/cargo restrictions by mode of transportation, customer facilities restrictions, and proper labeling. Ensures proper crate packaging on highly complex assemblies/modules to prevent product damage during transportation. Coaches others on how to identify and execute transportability improvements. Leads medium complexity programs with cross functional teams to develop tools and processes that improve transportability. Researches, pilots and implements intelligent packaging technologies.
Performs virtual review of highly complex assembly/module 3D models and review of initial physical builds to identify and eliminate aesthetic issues (cable routing, color, consistency of mating features/surfaces, etc). Leads medium complexity programs with cross functional teams to development aesthetics-related BKM's. Leverages lessons learned from like products to ensure aesthetic consistency.
Participates in design reviews, providing advanced level of DFX input focused on manufacturability, produceability, cost, assembly, test, transportability, and aesthetics. Lead PLC DFX workshop (partner with Program Manager) to align on scope for DFX review (functional description, cost apportionment, mfg strategy, etc). Leads medium complexity programs with cross functional teams to develop BKM's in DMU and DFX workshop processes and tools.
Advanced knowledge of and experience with the day-to-day operations, standards, and policies of a semiconductor equipment manufacturing plant or facility.
Demonstrates depth and/or breadth of expertise in own specialized discipline or field
Interprets internal/external business challenges and recommends best practices to improve products, processes or services
May lead functional teams or projects with moderate resource requirements, risk, and/or complexity
Leads others to solve complex problems; uses sophisticated analytical thought to exercise judgment and identify innovative solutions
Impacts the achievement of customer, operational, project or service objectives; work is guided by functional policies
Communicates difficult concepts and negotiates with others to adopt a different point of view
Education: Bachelor's Degree or higher qualification in Mechanical or Production Engineering
Experience: 12 - 15 Years
Years of Experience:
7 - 10 Years
Applied Materials is committed to diversity in its workforce including Equal Employment Opportunity for Minorities, Females, Protected Veterans and Individuals with Disabilities.