Senior IC Packaging Engineer

Avicena TechSunnyvale, CA

About The Position

Lead the architecture, design, and development of advanced semiconductor packaging solutions, including 2.5D/3D IC, System-in-Package (SiP), Flip Chip, and Wafer-Level Packaging. Lead development, characterization, and optimization of TSV (Through-Silicon Via) reveal processes, including back grind, CMP, dielectric/barrier reveal etch, and thickness/uniformity control across wafer thinning stacks. Own C4 bumping process flows — UBM deposition, solder bump plating or ball drop, reflow, and flux clean — for flip-chip and 3D-IC applications. Develop and maintain process control plans (SPC), DOEs, and yield improvement roadmaps for optical engine packaging and bumping modules. Partner with integration engineering to co-optimize TSV reveal with downstream hybrid bonding, micro-bump, or RDL processes. Troubleshoot excursions using FA data, cross-sections, and metrology (CD-SEM, profilometry, XRF, AOI) to root-cause defects such as TSV protrusion variation, via reveal non-uniformity, bump voiding, or co-planarity issues. Support new product/technology introduction (NPI) from pathfinding through HVM transfer. Collaborate cross-functionally with design, reliability, and test teams to ensure package-level electrical and mechanical performance targets are met. Mentor junior engineers and contribute to internal process documentation and best-practice standards.

Requirements

  • MS/PhD in Materials Science, Electrical Engineering, Chemical Engineering, Mechanical Engineering or related field
  • 5+ years of hands-on experience in semiconductor packaging or wafer fab process engineering - working with major OSAT’s (ASE, AMKOR, SpiL etc). An extensive personal network within key OSATs would be very advantageous
  • Direct, hands-on experience with TSV reveal (grinding, CMP, dielectric reveal, thickness metrology) and C4 bumping (UBM, electroplating or solder ball attach, reflow)
  • Strong understanding of 2.5D/3D packaging architectures (interposers, chiplets, HBM integration, hybrid bonding is a plus)
  • Deep understanding of semiconductor device physics, packaging materials, and thermal/mechanical analysis
  • Experience with statistical process control, DOE methodology, and yield analysis
  • Familiarity with metrology and inspection tools relevant to bumping/TSV (CD-SEM, AFM, profilometers, X-ray, AOI/SEM defect review)
  • Working knowledge of cleanroom fab operations and contamination control
  • Excellent cross-functional communication skills; comfortable working with equipment OEMs and multi-site teams

Nice To Haves

  • Experience with copper pillar bumping, micro-bump, or hybrid bonding processes
  • Background in wafer thinning and temporary bonding/debonding for advanced node packaging
  • Exposure to reliability testing (thermal cycling, electromigration, HAST) for packaged parts
  • Experience supporting HVM ramp in an OSAT or IDM environment

Responsibilities

  • Lead the architecture, design, and development of advanced semiconductor packaging solutions, including 2.5D/3D IC, System-in-Package (SiP), Flip Chip, and Wafer-Level Packaging
  • Lead development, characterization, and optimization of TSV (Through-Silicon Via) reveal processes, including back grind, CMP, dielectric/barrier reveal etch, and thickness/uniformity control across wafer thinning stacks
  • Own C4 bumping process flows — UBM deposition, solder bump plating or ball drop, reflow, and flux clean — for flip-chip and 3D-IC applications
  • Develop and maintain process control plans (SPC), DOEs, and yield improvement roadmaps for optical engine packaging and bumping modules
  • Partner with integration engineering to co-optimize TSV reveal with downstream hybrid bonding, micro-bump, or RDL processes
  • Troubleshoot excursions using FA data, cross-sections, and metrology (CD-SEM, profilometry, XRF, AOI) to root-cause defects such as TSV protrusion variation, via reveal non-uniformity, bump voiding, or co-planarity issues
  • Support new product/technology introduction (NPI) from pathfinding through HVM transfer
  • Collaborate cross-functionally with design, reliability, and test teams to ensure package-level electrical and mechanical performance targets are met
  • Mentor junior engineers and contribute to internal process documentation and best-practice standards
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