chiplets


2023-08-31

Understanding Chiplets, SoC, and SiP: Why TSMC, Intel, Samsung Invest?

Semiconductor process technology is nearing the boundaries of known physics. In order to continually enhance processor performance, the integration of small chips (chiplets) and heterogeneous Integration has become a prevailing trend. It is also regarded as a primary solution for extending Moore’s Law. Major industry players such as TSMC, Intel, Samsung, and others are vigorously developing these related technologies.

What are SoC, SiP, and Chiplet?

To understand Chiplet technology, we must first clarify two commonly used terms: SoC and SiP. SoC (System on Chip) involves redesigning multiple different chips to utilize the same manufacturing process and integrating them onto a single chip. On the other hand, SiP (System in Package) connects multiple chips with different manufacturing processes using heterogeneous integration techniques and integrates them within a single packaging form.

Chiplet technology employs advanced packaging techniques to create a SiP composed of multiple small chips. It integrates small chips with different functions onto a single substrate through advanced packaging techniques. While Chiplets and SiPs may seem similar, Chiplets are essentially chips themselves, whereas SiP refers to the packaging form. They have differences in functionality and purpose.

Chiplets: Today’s Semiconductor Development Trend

The design concept of Chiplet technology offers several advantages over SoC, notably in significantly improving chip manufacturing yield. As chip sizes increase to enhance performance, chip yield decreases due to the larger surface area. Chiplet technology can integrate various smaller chips with relatively high manufacturing yields, thus enhancing chip performance and yield.

Furthermore, Chiplet technology contributes to reduced design complexity and costs. Through heterogeneous integration, Chiplets can combine various types of small chips, reducing integration challenges in the initial design phase and facilitating design and testing. Additionally, since different Chiplets can be independently optimized, the final integrated product often achieves better overall performance.

Chiplets have the potential to lower wafer manufacturing costs. Apart from CPUs and GPUs, other units within chips can perform well without relying on advanced processes. Chiplets enable different functional small chips to use the most suitable manufacturing process, contributing to cost reduction.

With the evolution of semiconductor processes, chip design has become more challenging and complex, leading to rising design costs. In this context, Chiplet technology, which simplifies design and manufacturing processes, effectively enhances chip performance, and extends Moore’s Law, holds significant promise.

Applications and Development of Chiplets

In recent years, global semiconductor giants like AMD, TSMC, Intel, NVIDIA, and others have recognized the market potential in this field, intensively investing in Chiplet technology. For example, AMD’s recent products have benefited from the ‘SiP + Chiplet’ manufacturing approach. Moreover, Apple’s M1 Ultra chip achieved high performance through a customed UltraFusion packaging architecture. In academia, institutions like the University of California, Georgia Tech, and European research organizations have begun researching interconnect interfaces, packaging, and applications related to Chiplet technology.

In conclusion, due to Chiplet technology’s ability to lower design costs, reduce development time, enhance design flexibility and yield, while expanding chip functionality, it is an indispensable solution in the ongoing development of high-performance chips.

This article is from TechNews, a collaborative media partner of TrendForce.

2021-01-13

TSMC to Kick off Mass Production of Intel CPUs in 2H21 as Intel Shifts its CPU Manufacturing Strategies, Says TrendForce

Intel has outsourced the production of about 15-20% of its non-CPU chips, with most of the wafer starts for these products assigned to TSMC and UMC, according to TrendForce’s latest investigations. While the company is planning to kick off mass production of Core i3 CPUs at TSMC’s 5nm node in 2H21, Intel’s mid-range and high-end CPUs are projected to enter mass production using TSMC’s 3nm node in 2H22.

In recent years, Intel has experienced some setbacks in the development of 10nm and 7nm processes, which in turn greatly hindered its competitiveness in the market. With regards to smartphone processors, most of which are based on the ARM architecture, Apple and HiSilicon have been able to announce the most advanced mobile AP-SoC ahead of their competitors, thanks to TSMC’s technical breakthroughs in process technology.

With regards to CPUs, AMD, which is also outsourcing its CPU production to TSMC, is progressively threatening Intel’s PC CPU market share. Furthermore, Intel lost CPU orders for the MacBook and Mac Mini, since both of these products are now equipped with Apple Silicon M1 processors, which were announced by Apple last year and manufactured by TSMC. The aforementioned shifts in the smartphone and PC CPU markets led Intel to announce its intention to outsource CPU manufacturing in 2H20.

TrendForce believes that increased outsourcing of its product lines will allow Intel to not only continue its existence as a major IDM, but also maintain in-house production lines for chips with high margins, while more effectively spending CAPEX on advanced R&D. In addition, TSMC offers a diverse range of solutions that Intel can use during product development (e.g., chiplets, CoWoS, InFO, and SoIC). All in all, Intel will be more flexible in its planning and have access to various value-added opportunities by employing TSMC’s production lines. At the same time, Intel now has a chance to be on the same level as AMD with respect to manufacturing CPUs with advanced process technologies.

(Cover image source: Taiwan Semiconductor Manufacturing Company, Limited )

For more information on reports and market data from TrendForce’s Department of Semiconductor Research, please click here, or email Ms. Latte Chung from the Sales Department at lattechung@trendforce.com

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