3D ICs vs. 3D packaging[edit]

3D packaging refers to 3D integration schemes that rely on traditional interconnection methods such as wire bonding and flip chip to achieve vertical stacking. 3D packaging can be divided into 3D system in package (3D SiP) and 3D wafer level package (3D WLP). 3D SiPs that have been in mainstream manufacturing for some time and have a well-established infrastructure include stacked memory dies interconnected with wire bonds and package on package (PoP) configurations interconnected with wire bonds or flip chip technology. PoP is used for vertically integrating disparate technologies. 3D WLP uses wafer level processes such as redistribution layers (RDLs) and wafer bumping processes to form interconnects.

2.5D interposer is a 3D WLP that interconnects dies side-by-side on a silicon, glass, or organic interposer using through silicon vias (TSVs) and an RDL. In all types of 3D packaging, chips in the package communicate using off-chip signaling, much as if they were mounted in separate packages on a normal circuit board.

3D ICs can be divided into 3D Stacked ICs (3D SIC), which refers to stacking IC chips using TSV interconnects, and monolithic 3D ICs, which use fab processes to realize 3D interconnects at the local levels of the on-chip wiring hierarchy as set forth by the ITRS, this results in direct vertical interconnects between device layers. The first examples of a monolithic approach are seen in Samsung's 3D V-NAND devices.^[5]

As of the 2010s, 3D IC packages are widely used for NAND flash memory in mobile devices.^[6]