As the semiconductor industry struggles with the limits of Moore’s Law, traditional monolithic scaling is no longer enough to meet performance, power, area and cost demands in technology, design, analysis, and manufacturing.
3D IC by Siemens is your go-to podcast for exploring the cutting-edge world of 3D IC packaging—a revolutionary approach reshaping semiconductor design, system integration, and heterogeneous computing.
Join industry leaders, engineers, and innovators as we break down advanced IC packaging solutions like 2.5D/3D IC, FCBGA, FOWLP, and more. Discover how chiplets, multi-die integration, and high-bandwidth memory (HBM) are driving higher performance, lower power consumption, and scalable architectures.
In each episode, we dive deep into the challenges and opportunities of IC design and manufacturing, including:
Roadmap for advanced packaging and heterogeneous integration in semiconductor scaling
Mainstream adoption of 3D IC—key challenges and breakthroughs
Optimizing micro-architecture and integration platforms for performance and efficiency
Strategic planning of chiplets and interposers for hierarchical device integration
Leveraging early predictive multi-physics analysis to enhance design accuracy
Automating design and routing for RDL-based fan-out wafer-level packaging (FOWLP)
Exploring glass substrates for superior electrical and thermal performance
Developing test-vehicles and daisy chain designs for architectural validation
Ensuring reliability and manufacturability in 3D IC heterogeneous integration
Mastering Signal Integrity (SI) and Power Integrity (PI) Analysis for high-speed systems
Managing thermal challenges in stacked die architectures
Subscribe now and stay ahead in the world of 3D IC.
Learn more: Siemens 3D IC Packaging Solutions
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As the semiconductor industry struggles with the limits of Moore’s Law, traditional monolithic scaling is no longer enough to meet performance, power, area and cost demands in technology, design, analysis, and manufacturing.
3D IC by Siemens is your go-to podcast for exploring the cutting-edge world of 3D IC packaging—a revolutionary approach reshaping semiconductor design, system integration, and heterogeneous computing.
Join industry leaders, engineers, and innovators as we break down advanced IC packaging solutions like 2.5D/3D IC, FCBGA, FOWLP, and more. Discover how chiplets, multi-die integration, and high-bandwidth memory (HBM) are driving higher performance, lower power consumption, and scalable architectures.
In each episode, we dive deep into the challenges and opportunities of IC design and manufacturing, including:
Roadmap for advanced packaging and heterogeneous integration in semiconductor scaling
Mainstream adoption of 3D IC—key challenges and breakthroughs
Optimizing micro-architecture and integration platforms for performance and efficiency
Strategic planning of chiplets and interposers for hierarchical device integration
Leveraging early predictive multi-physics analysis to enhance design accuracy
Automating design and routing for RDL-based fan-out wafer-level packaging (FOWLP)
Exploring glass substrates for superior electrical and thermal performance
Developing test-vehicles and daisy chain designs for architectural validation
Ensuring reliability and manufacturability in 3D IC heterogeneous integration
Mastering Signal Integrity (SI) and Power Integrity (PI) Analysis for high-speed systems
Managing thermal challenges in stacked die architectures
Subscribe now and stay ahead in the world of 3D IC.
Learn more: Siemens 3D IC Packaging Solutions
Why Every 3D IC Needs a Test Vehicle Before It Hits Production
3D IC
18 minutes
2 months ago
Why Every 3D IC Needs a Test Vehicle Before It Hits Production
How do you ensure that cutting-edge 3D IC designs can actually be manufactured before investing millions in production?
What you’ll learn…
What test vehicles are and why they’re indispensable for validating manufacturability
How daisy chain structures pinpoint weaknesses in bumps, balls, and die connections
Who builds test vehicles: OSATs, foundries, or customers, and why it matters
How test vehicles strengthen collaboration between OEMs and OSATs
The hidden value of test vehicles in reliability, regulatory compliance, and risk mitigation
Where you’ll find it….
(02:00) What a test vehicle is when it’s needed
(03:20) Real-world example: testing embedded chips before mass production
(06:00) Who’s responsible for creating test vehicles?
(07:20) How do test vehicles factor into the relationship between the OSATs and the OEMs?
(09:25) The link between test vehicles and PCB design practices
(11:12) Beyond connectivity: heaters, capacitive structures, and stacked vias
(15:25) Automotive and regulatory requirements for reliability testing
(17:15) Why engineers shouldn’t design daisy chains by hand
More about this episode…
In this episode of the Siemens 3D IC Podcast, host John McMillan talks with Kendall Hiles, Senior 3D IC Product Specialist at Siemens EDA, about the critical role of test vehicles and daisy chain design tests in semiconductor innovation.
Unlike a final product, a test vehicle isn’t built to sell, it’s built to learn. Kendall Hiles explains how test vehicles act as manufacturing “test beds,” enabling engineers to validate new processes and technologies before scaling up to costly production runs.
The conversation dives into daisy chain design tests, a clever way of stringing together bumps and balls to measure connectivity and identify failure points with precision. Kendall also highlights when OSATs, foundries, or customers should take ownership of creating test vehicles, and how they factor into collaboration between OEMs and manufacturers.
Listeners will also hear why test vehicles are especially vital for automotive reliability and regulatory compliance, and why manual spreadsheet-driven daisy chain design is a risky practice in today’s complex 3D IC world.
For anyone working in semiconductor packaging, 3D IC design, or advanced manufacturing, this episode offers practical insight into improving yield, reducing risk, and accelerating innovation.
Connect with John McMillan
LinkedIn
Website
Connect with Kendall Hiles
LinkedIn
Website
3D IC
As the semiconductor industry struggles with the limits of Moore’s Law, traditional monolithic scaling is no longer enough to meet performance, power, area and cost demands in technology, design, analysis, and manufacturing.
3D IC by Siemens is your go-to podcast for exploring the cutting-edge world of 3D IC packaging—a revolutionary approach reshaping semiconductor design, system integration, and heterogeneous computing.
Join industry leaders, engineers, and innovators as we break down advanced IC packaging solutions like 2.5D/3D IC, FCBGA, FOWLP, and more. Discover how chiplets, multi-die integration, and high-bandwidth memory (HBM) are driving higher performance, lower power consumption, and scalable architectures.
In each episode, we dive deep into the challenges and opportunities of IC design and manufacturing, including:
Roadmap for advanced packaging and heterogeneous integration in semiconductor scaling
Mainstream adoption of 3D IC—key challenges and breakthroughs
Optimizing micro-architecture and integration platforms for performance and efficiency
Strategic planning of chiplets and interposers for hierarchical device integration
Leveraging early predictive multi-physics analysis to enhance design accuracy
Automating design and routing for RDL-based fan-out wafer-level packaging (FOWLP)
Exploring glass substrates for superior electrical and thermal performance
Developing test-vehicles and daisy chain designs for architectural validation
Ensuring reliability and manufacturability in 3D IC heterogeneous integration
Mastering Signal Integrity (SI) and Power Integrity (PI) Analysis for high-speed systems
Managing thermal challenges in stacked die architectures
Subscribe now and stay ahead in the world of 3D IC.
Learn more: Siemens 3D IC Packaging Solutions
