Alchip Technologies revealed that the company presented a paper at the TSMC 2023 Taiwan Open Innovation Platform®?Ecosystem Forum showcasing its ground-breaking collaborative advanced artificial intelligence (AI) 3DIC chiplet design and integrated IP methodology. Their revolutionary platform focuses on dramatically increasing the computational power required to handle complex neural networks and large datasets. Traditional architectures struggle to efficiently meet these requirements.

But now, advanced SerDes IP technology enables larger scale with 2.5D and 3D package interconnection that consumes less power, occupies a smaller footprint, and operates with greater efficiency. 3DIC integration stores larger, more complex neural networks directly on one chiplet, reducing frequent data transfers to external memory, according to the paper. This enhances computational efficiency, reduces energy consumption, and enables real-time processing of larger datasets.

The 3DIC technology stacks compute dies on top of memory and interconnect dies using high-density through-silicon-vias (TSV) and hyper bumps to increase compute transistor density, larger SRAM die, shorter interconnects, improved power efficiency with minimal latency, the authors said. The paper envisions combining IP-driven interconnects with 3DIC chiplets to address daunting challenges computational power, memory capacity, and interconnect optimization challenges. AI chip designers are now freed to push the boundaries of AI capabilities, leading to more powerful, efficient, and scalable artificial intelligence systems. Alchip revealed in the presentation that they designed the 3DIC device using TSMC's CoWoS®?

advanced packaging to integrate the advanced SerDes IP. The package design has undergone thorough simulation for signal integrity (SI), power integrity (PI), and thermal considerations. A third-party user provided guidance on package breakout, thermal management, and PI consideration and have successfully completed a comprehensive system design, the paper announced.