DFT Design Engineering Director
Asteralabs · San Jose, California, United States · Posted Jul 7, 2026
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Astera Labs (NASDAQ: ALAB) provides rack-scale AI infrastructure through purpose-built connectivity solutions. By collaborating with hyperscalers and ecosystem partners, Astera Labs enables organizations to unlock the full potential of modern AI. Astera Labs’ Intelligent Connectivity Platform integrates CXL®, Ethernet, NVLink, PCIe®, and UALink™ semiconductor-based technologies with the company’s COSMOS software suite to unify diverse components into cohesive, flexible systems that deliver end-to-end scale-up, and scale-out connectivity. The company’s custom connectivity solutions business complements its standards-based portfolio, enabling customers to deploy tailored architectures to meet their unique infrastructure requirements. Discover more at www.asteralabs.com .
About the Role
We are seeking an experienced Director of Design for Test (DFT) to lead our DFT engineering efforts for the Scorpio family of PCIe switch products. In this critical leadership role, you will define and execute the DFT strategy for complex, high-speed SerDes-based switching solutions, ensuring optimal testability, yield, and quality while enabling cost-effective manufacturing at scale. This role requires deep expertise in advanced packaging technologies including 2.5D and 3D integration, as our products leverage cutting-edge multi-die architectures.
Key Responsibilities
DFT Strategy Leadership
Define and drive the comprehensive DFT strategy for PCIe Gen3/4/5/6 switch products with 2.5D/3D packaging
Lead and mentor a team of DFT engineers across multiple product development cycles
Collaborate with design, verification, packaging, and product engineering teams to optimize test coverage and manufacturing cost
Establish DFT best practices, methodologies, and flows for complex multi-billion transistor designs in advanced packaging configurations
Advanced Packaging DFT Architecture
Develop DFT strategies for 2.5D/3D heterogeneous integration architectures:
Multi-die test access and coordination through silicon interposers
Through-Silicon Via (TSV) testing and characterization
Die-to-die interface testing and Known Good Die (KGD) strategies
Chiplet-level DFT with system-level test integration
Hybrid bonding and micro-bump interconnect testing
Architect test access mechanisms for:
Inter-die communication channels and high-bandwidth interfaces
HBM/DRAM interfaces in 2.5D configurations
Power delivery network testing across multiple dies
Thermal and reliability test structures
Define pre-bond and post-bond test strategies:
Individual die screening and KGD qualification
Stack-level testing for 3D integrated circuits
Package-level test optimization and cost reduction
Technical Execution
Architect and implement advanced DFT features including:
Scan insertion, ATPG, and compression strategies for multi-die systems
Memory BIST (MBIST) for embedded SRAM and register files
Logic BIST (LBIST) for at-speed testing
IEEE 1149.1 (JTAG) and IEEE 1687 (IJTAG) for die-level and package-level access
IEEE 1838 (3D-DFT) standards for 3D stacked die test
High-speed SerDes BIST and loopback testing across die boundaries
Analog/mixed-signal test hooks and observability
Built-in Self-Repair (BISR) for redundancy management
Drive fault coverage targets ( 99% stuck-at, 95% transition) across all dies
Optimize test time and ATE costs while maintaining quality metrics
Define and implement production test programs and diagnostic capabilities for packaged devices
Cross-Functional Collaboration
Partner with physical design and packaging teams to optimize DFT area, timing, and package routing impact
Work with silicon validation teams to enable post-silicon debug and characterization of multi-die systems
Collaborate with manufacturing, assembly, and test engineering for seamless production ramp
Interface with OSAT partners, substrate vendors, and ATE vendors
Coordinate with design teams on die partitioning and test accessibility planning
Quality Reliability
Define test coverage metrics and quality goals for multi-die products
Implement diagnostic and failure analysis capabilities for complex packaging failures
Support yield enhancement and defect reduction initiatives across die and package
Establish field return analysis and root cause investigation processes
Develop screening strategies for infant mortality and reliability issues
Required Qualifications
Education Experience
MS or PhD in Electrical Engineering, Computer Engineering, or related field
12+ years of experience in DFT engineering with complex SoC/ASIC products
5+ years of hands-on experience with 2.5D and/or 3D packaging DFT strategies
5+ years in technical leadership or management roles
Proven track record of multiple successful tape-outs with high-volume production
Experience taking multi-die products from design through production ramp
Technical Expertise
Deep expertise in DFT methodologies and industry standards
Strong background in 2.5D/3D p…