DUBLIN, The “Hybrid Bonding Patent Landscape Analysis” report has been added to ResearchAndMarkets.com’s offering.
The pace of Moore’s law is slowing, if it has not already stopped, as mentioned by Forbes and Nvidia. It’s reaching its limits because developing smaller technology nodes is doable technically, but is no longer cost-efficient. The digital electronics market requires a higher density semiconductor memory chip to cater to recently released central processing unit (CPU) components.
To answer the growing demand and overcome Moore’s law’s limits, multiple die stacking has been suggested as a solution. Advanced packaging technology development, specifically 2.5D technology, was first used in high-performance applications. Today, scaling the Z-axis is becoming more and more important in what is called 3D stacking.
Generally, 2.5D-3D stacking was achieved thanks to Through Silicon Via (TSV) technology. However, TSVs are large and using them limits efforts to reach very dense architectures. Furthermore, filling TSVs with metals is complex and requires significant know-how. To overcome these limitations, players have started to look at other solutions.
A first step toward a new way of 3D stacking is ZiBond, developed by Ziptronix, a company founded in 2000 as a spin-out of Research Triangle Institute. ZiBond is an enhanced version of direct oxide bonding that involves wafer-to-wafer processing at low temperatures, from 150-300C, to initiate high bond strengths, rivaling silicon.
The next step was to combine the dielectric bond with embedded metal to simultaneously bond wafers or bond dies to wafers and form the interconnects. ZiBond is the dielectric bond that forms the basis for direct bonding interconnect (DBI) technology developed in 2005.
Tessera, now called Xperi, acquired Ziptronix in 2015 and ZiBond and DBI were integrated in the Invensas subsidiary’s portfolio. This hybrid bonding technology is quickly becoming recognized as the preferred permanent bonding path to form high-density interconnects in heterogeneous integration applications, from 2D enhanced, to 3D stacking with or without TSVs, as well as MEMS.
After entering the CMOS Image Sensor (CIS) market in 2016, hybrid bonding technology has started to be investigated by other industries, such as memory. However, the hybrid bonding market’s growth follows Xperi’s developments. The company has adopted an aggressive strategy to assert its patents.
Yet in parallel with the market and Xperi’s growth, some other players, like YMTC, Sony, Samsung and TSMC, have developed their own patent portfolios and strategies and are on the edge of releasing their first products using hybrid bonding processes. Understanding the IP landscape is becoming key to evaluate the risks and opportunities that go with the development and use of hybrid bonding technology.
Main IP player ranking
This report contains more than 290 manually selected patent families and inventions related to hybrid bonding and provides a general overview of today’s IP landscape trends and dynamics. The research delivers an understanding and analysis of the current IP positions of the main IP players using or developing hybrid bonding process, as well as the links between them through licensing.
IP player current developments
This report reveals all players developing IP related to hybrid bonding per type of targeted applications and shows companies’ current developments. Learn how they integrate hybrid bonding in their manufacturing process flow. Detect your future competitors or partners and evaluate their know-how, IP strength, IP weaknesses and the risk of infringing their patents.
Main IP players’ portfolio analysis
This report provides a detailed comparison of the three main IP players’ portfolios: TSMC, Xperi and YMTC. For each player, The report highlights their strengths and weaknesses, and provides information regarding their IP strategies, blocking potential, current and potential licensees. It also gives an understanding of how these players’ IP could impact the business of companies using or developing hybrid bonding. In addition, a detailed description and analysis of their key patents is provided.
Report’s Key Features
This report also includes an Excel database with the >1,000 patents and patent applications analyzed in this study. This useful patent database allows for multi-criteria searches and includes patent publication numbers, hyperlinks to the original documents, priority date, title, abstract, patent assignees, patent’s current legal status and application segments.
Key Topics Covered
INTRODUCTION
SCOPE AND METHODOLOGY
IP LANDSCAPE OVERVIEW
CORPUS SEGMENTATION
KEY PATENTS
LITIGATION
IP PROFILE OF KEY PLAYERS
CONCLUSION
Companies Mentioned
For more information about this report visit https://www.researchandmarkets.com/r/yyd38t
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