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
For 3D IC to achieve its full potential there is a need to utilize cost-effective front-end design approaches. This is because different microarchitectures will result in different physical sizes, power performance, and cost of production. One of the solutions that have been successfully deployed is the high-level predictive analysis which helps in figuring out optimal architectures for specific cases.
In this episode, John McMillan interviews Anthony Mastroianni, the 3D IC Solutions Architect Director at Siemens Digital Industries Software. And, Gordon Allan, Product Manager for Verification IP Solutions at Siemens EDA. They’ll help us understand 3D IC front-end aspects and the latest developments in this field.
In this episode, you’ll learn how predictive analytics can be utilized to make 3D IC design faster and cheaper. You’ll also learn what 3D IC front-end design involves and the best way of approaching it. Additionally, you’ll hear about what Siemens is doing to contribute towards making the design process more efficient.
What You Will Learn in this Episode:
The role of predictive analytics in the front-end design of 3D IC (03:03)
How 3D IC packaging should be approached (08:35)
The design aspects enabled by 3D IC (12:06)
What Siemens is doing to help in front-end 3D IC design (14:50)
Connect with Gordon Allan:
LinkedIn
Connect with Anthony Mastroianni:
LinkedIn
Connect with John McMillan:
LinkedIn
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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
