A semiconductor package includes a package substrate, a logic chip stacked on the package substrate and including at least one logic element, and a stack structure. The stack structure includes an integrated voltage regulator (IVR) chip including a voltage regulating circuit that regulates a voltage of the at least one logic element, and a passive element chip stacked on the IVR chip and including an inductor.

A semiconductor package includes a package substrate, a logic chip stacked on the package substrate and including at least one logic element, and a stack structure. The stack structure includes an integrated voltage regulator (IVR) chip including a voltage regulating circuit that regulates a voltage of the at least one logic element, and a passive element chip stacked on the IVR chip and including an inductor.

The present disclosure provides a semiconductor structure. The semiconductor structure includes a substrate, a die stack disposed over the substrate, a heat spreader disposed over the substrate and having a surface facing the substrate, and a thermal interface material (TIM) disposed between the die stack and the heat spreader. A bottommost die of the die stack includes a surface exposed from remaining dies of the die stack from a top view perspective; and the TIM is in contact with the exposed surface of the bottommost die and the surface of the heat spreader, and is in contact with a sidewall of at least one of the plurality of dies of the die stack.

The present disclosure provides a semiconductor structure. The semiconductor structure includes a substrate, a die stack disposed over the substrate, a heat spreader disposed over the substrate and having a surface facing the substrate, and a thermal interface material (TIM) disposed between the die stack and the heat spreader. A bottommost die of the die stack includes a surface exposed from remaining dies of the die stack from a top view perspective; and the TIM is in contact with the exposed surface of the bottommost die and the surface of the heat spreader, and is in contact with a sidewall of at least one of the plurality of dies of the die stack.

Package structure with folded die arrangements and methods of fabrication are described. In an embodiment, a package structure includes a first die and vertical interposer side-by-side. A second die is face down on an electrically connected with the vertical interposer, and a local interposer electrically connects the first die with the vertical interposer.

Package structure with folded die arrangements and methods of fabrication are described. In an embodiment, a package structure includes a first die and vertical interposer side-by-side. A second die is face down on an electrically connected with the vertical interposer, and a local interposer electrically connects the first die with the vertical interposer.

In an embodiment, a device includes: a bottom integrated circuit die having a first front side and a first back side; a top integrated circuit die having a second front side and a second back side, the second back side being bonded to the first front side, the top integrated circuit die being free from through substrate vias (TSVs); a dielectric layer surrounding the top integrated circuit die, the dielectric layer being disposed on the first front side, the dielectric layer and the bottom integrated circuit die being laterally coterminous; and a through via extending through the dielectric layer, the through via being electrically coupled to the bottom integrated circuit die, surfaces of the through via, the dielectric layer, and the top integrated circuit die being planar.

In an embodiment, a device includes: a bottom integrated circuit die having a first front side and a first back side; a top integrated circuit die having a second front side and a second back side, the second back side being bonded to the first front side, the top integrated circuit die being free from through substrate vias (TSVs); a dielectric layer surrounding the top integrated circuit die, the dielectric layer being disposed on the first front side, the dielectric layer and the bottom integrated circuit die being laterally coterminous; and a through via extending through the dielectric layer, the through via being electrically coupled to the bottom integrated circuit die, surfaces of the through via, the dielectric layer, and the top integrated circuit die being planar.

A package includes a first package structure and a second package structure stacked on the first package structure. The first package structure includes a redistribution structure, an integrated circuit, an encapsulant, and conductive structures. The integrated circuit is disposed on the redistribution structure and includes a first chip, a second chip, a third chip, and a fourth chip. The first chip includes a semiconductor substrate that extends continuously throughout the first chip. The second and the third chips are disposed side by side on the first chip. The fourth chip is disposed over the first chip and includes a semiconductor substrate that extends continuously throughout the fourth chip. Sidewalls of the first chip are aligned with sidewalls of the fourth chip. The encapsulant laterally encapsulates the integrated circuit. The conductive structures penetrate through the encapsulant. The second package structure is electrically connected to the redistribution structure through the conductive structures.

A package includes a first package structure and a second package structure stacked on the first package structure. The first package structure includes a redistribution structure, an integrated circuit, an encapsulant, and conductive structures. The integrated circuit is disposed on the redistribution structure and includes a first chip, a second chip, a third chip, and a fourth chip. The first chip includes a semiconductor substrate that extends continuously throughout the first chip. The second and the third chips are disposed side by side on the first chip. The fourth chip is disposed over the first chip and includes a semiconductor substrate that extends continuously throughout the fourth chip. Sidewalls of the first chip are aligned with sidewalls of the fourth chip. The encapsulant laterally encapsulates the integrated circuit. The conductive structures penetrate through the encapsulant. The second package structure is electrically connected to the redistribution structure through the conductive structures.