Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a package substrate having a first surface and an opposing second surface; a first die having a first surface and an opposing second surface embedded in a first dielectric layer, where the first surface of the first die is coupled to the second surface of the package substrate by first interconnects; a second die having a first surface and an opposing second surface embedded in a second dielectric layer, where the first surface of the second die is coupled to the second surface of the first die by second interconnects; and a third die having a first surface and an opposing second surface embedded in a third dielectric layer, where the first surface of the third die is coupled to the second surface of the second die by third interconnects.

Microelectronic assemblies, and related devices and methods, are disclosed herein. For example, in some embodiments, a microelectronic assembly may include a package substrate, a first die coupled to the package substrate with first interconnects, and a second die coupled to the first die with second interconnects, wherein the second die is coupled to the package substrate with third interconnects, a communication network is at least partially included in the first die and at least partially included in the second die, and the communication network includes a communication pathway between the first die and the second die.

Microelectronic assemblies, and related devices and methods, are disclosed herein. For example, in some embodiments, a microelectronic assembly may include a package substrate, a first die coupled to the package substrate with first interconnects, and a second die coupled to the first die with second interconnects, wherein the second die is coupled to the package substrate with third interconnects, a communication network is at least partially included in the first die and at least partially included in the second die, and the communication network includes a communication pathway between the first die and the second die.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a package substrate having a first surface and an opposing second surface; a first die having a first surface and an opposing second surface, wherein the first die is embedded in a first dielectric layer, wherein the first surface of the first die is coupled to the second surface of the package substrate, and wherein the first dielectric layer is between a second dielectric layer and the second surface of the package substrate; a second die having a first surface and an opposing second surface, wherein the second die is embedded in the second dielectric layer, and wherein the first surface of the second die is coupled to the second surface of the package substrate by a conductive pillar; and a shield structure that at least partially surrounds the conductive pillar.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a package substrate having a first surface and an opposing second surface; a first die having a first surface and an opposing second surface, wherein the first die is embedded in a first dielectric layer, wherein the first surface of the first die is coupled to the second surface of the package substrate, and wherein the first dielectric layer is between a second dielectric layer and the second surface of the package substrate; a second die having a first surface and an opposing second surface, wherein the second die is embedded in the second dielectric layer, and wherein the first surface of the second die is coupled to the second surface of the package substrate by a conductive pillar; and a shield structure that at least partially surrounds the conductive pillar.

A method for manufacturing connection structure, the method includes arranging conductive particles and a first composite on a first electrode located on a first surface of a first member, arranging a second composite on the first electrode and a region other than the first electrode of the first surface, ranging the first surface and a second surface of a second member where a second electrode is located, so that the first electrode and the second electrode are opposed to each other, pressing the first member and the second member, and curing the first composite and the second composite.

A method for manufacturing connection structure, the method includes arranging conductive particles and a first composite on a first electrode located on a first surface of a first member, arranging a second composite on the first electrode and a region other than the first electrode of the first surface, ranging the first surface and a second surface of a second member where a second electrode is located, so that the first electrode and the second electrode are opposed to each other, pressing the first member and the second member, and curing the first composite and the second composite.

Embodiments include semiconductor packages and a method of forming the semiconductor packages. A semiconductor package includes a resist layer disposed on a conductive layer. The semiconductor package also has a bump disposed on the conductive layer. The bump has a top surface and one or more sidewalls. The semiconductor package further includes a surface finish disposed on the top surface and the one or more sidewalls of the bump. The semiconductor package may have the surface finish surround the top surface and sidewalls of the bumps to protect the bumps from Galvanic corrosion. The surface finish may include a nickel-palladium-gold (NiPdAu) surface finish. The semiconductor package may also have a seed disposed on a top surface of the resist layer, and a dielectric disposed on the seed. The dielectric may surround the sidewalls of the bump. The semiconductor package may include the seed to be an electroless copper seed.

A semiconductor package device includes a carrier, a first electronic component, and a conductive element on the carrier. The first electronic component is over the carrier. The conductive element is on the carrier and electrically connects the first electronic component to the carrier. The conductive element includes at least one conductive particle and a solder material covering the conductive particle, and the conductive particle includes a metal core, a barrier layer covering the metal core, and a metal layer covering the barrier layer.

A semiconductor package device includes a carrier, a first electronic component, and a conductive element on the carrier. The first electronic component is over the carrier. The conductive element is on the carrier and electrically connects the first electronic component to the carrier. The conductive element includes at least one conductive particle and a solder material covering the conductive particle, and the conductive particle includes a metal core, a barrier layer covering the metal core, and a metal layer covering the barrier layer.