Job Title: Advanced Packaging Lead Architect

Location: San Jose, CA, USA, Hsinchu, Taiwan, or Bengaluru, India

Company: Mixx Technologies, Inc.

About Mixx Technologies

Mixx Technologies is building next-generation optical interconnect solutions that enable true

system-level integration for hyperscale data centers. We combine expertise in silicon photonics,

packaging, fiber connectivity and system integration to deliver products that set new standards

for performance, density, and scalability to drive the next generation of artificial intelligence.

Position Overview

We are seeking a visionary Advanced Packaging Lead Architect to define the mechanical and

structural roadmap for our next-generation optical interconnects. In this high-impact leadership

role, you will spearhead the architectural definition of 2.5D, 3D, and 3.5D packaging solutions.

You will be responsible for the high-level technical strategy, balancing complex trade-offs

between thermal-mechanical stability, signal integrity, and manufacturability. You will lead

cross-functional efforts to ensure our heterogeneous integration structures drive the future of AI

infrastructure.

Key Responsibilities

• Define the architectural strategy for advanced multi-die systems, including

silicon/organic interposers, TSVs, and micro-bump configurations.

• Lead thermal-mechanical co-design efforts, establishing the framework for warpage

mitigation and CTE mismatch management across complex material interfaces.

• Drive Design of Experiments (DOE) and tolerance analysis at the system level to ensure

robust performance under extreme manufacturing and thermal cycling conditions.

• Oversee advanced FEA methodologies, ensuring that simulation models for thermal

stress and mechanical strain are validated against experimental reliability data.

• Collaborate with executive leadership and cross-functional teams (optical, electrical, and

materials) to translate product requirements into scalable packaging architectures.

• Mitigate high-level reliability risks, such as delamination and solder fatigue, by

identifying critical material interactions early in the design cycle.

• Mentor and guide mechanical and packaging engineers in executing detailed simulations

and layout optimizations.

Key Qualifications

• B.S., M.S., or Ph.D. (preferred) in Mechanical Engineering, Materials Science, or a

related discipline.

• 12+ years of relevant experience in advanced semiconductor packaging architecture, with

a focus on thermo-mechanical reliability.

• Expert-level knowledge of 2.5D/3D IC integration, multi-chip modules (MCM), and

heterogeneous integration technologies.

• Deep proficiency in ANSYS Mechanical or equivalent tools, specifically regarding

nonlinear material modeling and thermal-structural coupling.• Extensive experience in predicting and managing warpage and strain at both the package

and system-module levels.

• Comprehensive understanding of advanced package materials, including underfills,

epoxies, molding compounds, and high-density substrates

Preferred Skills

• Proven track record of correlating complex FEA models with long-term reliability data

(thermal cycling, drop, and humidity testing).

• Advanced knowledge of electro-thermal or optical-thermal co-simulation for high-

performance computing systems.

• Strong strategic vision for heat dissipation design and system-level thermal management.

• Exceptional communication skills, with the ability to influence technical roadmaps across

multi-disciplinary global teams.

Why Join Us

At Mixx Technologies, you’ll be part of a fast-moving team rethinking what’s possible in AI

infrastructure. We offer a collaborative culture, deep technical challenges, and the opportunity to

shape the mechanics behind the world’s most advanced computing systems.