Advanced semiconductor packaging offers a huge market opportunity for organic dielectric materials
Why do we need Advanced Semiconductor Packaging?
We are living in a data-centric world. The growing amount of data generated in various industries is increasingly driving the demand for high-bandwidth computing. Applications such as machine learning and AI require powerful processing capabilities, leading to the need for dense transistor placement on chips and compact interconnection bump pitches in packaging. The latter highlights the significance of semiconductor technologies in meeting these requirements.
Semiconductor packaging has evolved from board-level to wafer-level integration, bringing notable advancements. Wafer level integration provides advantages over traditional methods, such as increased connection density, smaller footprints for size-sensitive applications, and enhanced performance.
"Advanced" semiconductor packaging specifically includes high-density fan-out, 2.5D, and 3D packaging, characterized by a bumping pitch size below 100 μm, enabling at least 10x higher interconnect densities.
Materials and Processing for Advanced Semiconductor Packaging 2024-2034
2.5D, 3D, advanced semiconductor packaging, RDL, dielectric material, Cu-Cu hybrid bonding, EMC, MUF
IDTechEx 's "Materials and Processing for Advanced Semiconductor Packaging 2024-2034" report is divided into four main parts, offering a structured approach to understanding advanced semiconductor packaging. The first part provides a comprehensive introduction to the technologies, development trends, key applications, and ecosystem of advanced semiconductor packaging, providing readers with a solid overview. The second part focuses on 2.5D packaging processes, delving into crucial aspects, including dielectric materials for RDL and Microvia, RDL fabrication techniques, and material selection for EMC and MUF. Each sub-section within this part presents a detailed analysis of process flows, technology benchmarks, player evaluations, and future trends, providing readers with comprehensive insights.
The report continues beyond the discussion of 2.5D packaging to the third part, which focuses on the innovative Cu-Cu hybrid bonding technology for 3D die stacking. This section provides valuable insights into the manufacturing process and offers guidance on material selection for optimal outcomes. It also showcases case studies highlighting the successful implementation of Cu-Cu hybrid bonding using both organic and inorganic dielectrics. Additionally, the report includes a 10-year market forecast for the Organic Dielectric Advanced Semiconductor Packaging Module, presented in the last chapter. This forecast encompasses unit and area metrics, providing industry with meaningful perspectives into anticipated market growth and trends for the next decade.
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