A die interconnect system having a first die with a plurality of connection pads, and a ribbon lead extending from the first die, the ribbon lead having a plurality of metal cores with a core diameter, and a dielectric layer surrounding the metal core with a dielectric thickness, with at least a portion of dielectric being fused between adjacent metal cores along the length of the plurality of metal cores, and an outer metal layer attached to ground.

Semiconductor device packages include a stack of semiconductor memory devices positioned over an interposer substrate, a controller element, and a redistribution substrate positioned laterally adjacent to the controller element. At least a portion of the controller element is positioned directly between the stack and the interposer substrate. The controller element is operatively connected to the semiconductor memory devices of the stack through the redistribution substrate and the interposer substrate. Methods of manufacturing a semiconductor device package include positioning a redistribution substrate laterally adjacent to a controller element and attaching the redistribution substrate and the controller element to an interposer substrate. A stack of semiconductor memory devices is positioned over the controller element and the redistribution substrate. The controller element is operatively connected to the semiconductor memory devices of the stack through the redistribution substrate and the interposer substrate.

A semiconductor device includes: a wiring board, a chip stack provided above the wiring board and including a first semiconductor chip; a second semiconductor chip provided between the wiring board and the first semiconductor chip; a first adhesive layer provided between the first semiconductor chip and the second semiconductor chip and on the second semiconductor chip; and a sealing insulation layer including a first part and a second part, the first part covering the chip stack, and the second part extending between the wiring board and the first semiconductor chip.

A storage device includes a controller including first and second pins and configured to output a multi-level chip enable signal through the second pin, and a memory device. The memory device includes third and fourth pins respectively connected to the first and second pins, and a plurality of memory chips commonly connected to the fourth pin. The plurality of memory chips respectively include a plurality of resistors connected to one another in a daisy-chain structure between the third pin and a first voltage terminal. The plurality of memory chips are configured to respectively generate a plurality of reference voltage periods that divide between a voltage level of the third pin and a voltage level of the first voltage terminal based on the plurality of resistors.

A storage device includes a controller including first and second pins and configured to output a multi-level chip enable signal through the second pin, and a memory device. The memory device includes third and fourth pins respectively connected to the first and second pins, and a plurality of memory chips commonly connected to the fourth pin. The plurality of memory chips respectively include a plurality of resistors connected to one another in a daisy-chain structure between the third pin and a first voltage terminal. The plurality of memory chips are configured to respectively generate a plurality of reference voltage periods that divide between a voltage level of the third pin and a voltage level of the first voltage terminal based on the plurality of resistors.

A semiconductor package includes a package substrate including a first substrate channel pad and a second substrate channel pad, a chip stack including a plurality of semiconductor chips stacked on the package substrate to be offset in a first direction, wherein first semiconductor chips located on odd layers from among the plurality of semiconductor chips and second semiconductor chips located on even layers from among the plurality of semiconductor chips are offset in a second direction perpendicular to the first direction, each of the first semiconductor chips includes a first chip channel pad, and each of the second semiconductor chips includes a second chip channel pad, first inter-chip connection wires configured to electrically connect the first chip channel pads of the first semiconductor chips to one another, second inter-chip connection wires configured to electrically connect the second chip channel pads of the second semiconductor chips to one another.

A semiconductor module includes a main board and external terminals. A package substrate includes a core insulation layer, a conductive pattern disposed in the core insulation layer and electrically connected with the external terminals, an upper insulation pattern and a lower insulation pattern. At least one semiconductor chip is disposed on an upper surface of the package substrate and is electrically connected with the conductive pattern. A shielding plate is disposed on a molding member and lateral side surfaces of the package substrate and shields electromagnetic interference (EMI) emitted from the semiconductor chip. A shielding fence extends from an edge portion of a lower surface of the lower insulation pattern and directly contacts the upper surface of the main board. The shielding fence surrounds the external terminals and shields EMI emitted from the external terminals. A reinforcing member increases a strength of the shielding fence.

An apparatus is provided that includes a memory die including a pipeline circuit coupled to a memory structure. The memory die is configured to execute a first command by receiving in the pipeline circuit data to be written to the memory structure, processing the received data in the pipeline circuit and providing the processed data to the memory structure, predicting that the pipeline circuit has completed processing the received data, and ending execution of the first command based on the prediction.

A discrete three-dimensional (3-D) processor comprises first and second dice. The first die comprises 3-D memory (3D-M) arrays and in-die peripheral-circuit components thereof, whereas the second die comprises processing circuits and off-die peripheral-circuit components of the 3D-M arrays. The first and second dice are communicatively coupled by a plurality of inter-die connections.

A stack package includes a package substrate having a bond finger and a stack of a first semiconductor die and a second semiconductor die. The first semiconductor die includes a first pad, a second pad, and a first redistributed line connecting the first and second pads to each other. The second semiconductor die includes a third pad, a fourth pad, and a second redistributed line connecting the third and fourth pads to each other. The first and third pads are connected to each other by a first interconnector which is bonded to the bond finger, and the second and fourth pads are connected to each other by a second interconnector.