A 3D semiconductor device including: a first level including a plurality of first metal layers; a second level, where the second level overlays the first level, where the second level includes at least one single crystal silicon layer, where the second level includes a plurality of transistors, where each transistor of the plurality of transistors includes a single crystal channel, where the second level includes a plurality of second metal layers, where the plurality of second metal layers include interconnections between the transistors of the plurality of transistors, and where the second level is overlaid by a first isolation layer; and a connective path between the plurality of transistors and the plurality of first metal layers, where the connective path includes a via disposed through at least the single crystal silicon layer, and where the via includes contact with at least one of the plurality of transistors.

A 3D semiconductor device including: a first level including a single crystal silicon layer and a plurality of first transistors, the plurality of first transistors each including a single crystal channel; a first metal layer overlaying the plurality of first transistors; a second metal layer overlaying the first metal layer; a third metal layer overlaying the second metal layer; a second level is disposed above the third metal layer, where the second level includes a plurality of second transistors; a fourth metal layer disposed above the second level; and a connective path between the fourth metal layer and either the third metal layer or the second metal layer, where the connective path includes a via disposed through the second level, where the via has a diameter of less than 800 nm and greater than 5 nm, and where at least one of the plurality of second transistors includes a metal gate.

An integrated circuit designing system includes a non-transitory storage medium, the non-transitory storage medium being encoded with a layout of a standard cell corresponding to a predetermined manufacturing process, the predetermined manufacturing process having a nominal minimum pitch of metal lines along a predetermined direction, the layout of the standard cell having a cell height along the predetermined direction, and the cell height is a non-integral multiple of the nominal minimum pitch. The integrated circuit designing system further includes a hardware processor communicatively coupled with the non-transitory storage medium and configured to execute a set of instructions for generating an integrated circuit layout based on the layout of the standard cell and the nominal minimum pitch.

A chip package includes an interposer comprising a silicon substrate, multiple metal vias passing through the silicon substrate, a first interconnection metal layer over the silicon substrate, a second interconnection metal layer over the silicon substrate, and an insulating dielectric layer over the silicon substrate and between the first and second interconnection metal layers; a field-programmable-gate-array (FPGA) integrated-circuit (IC) chip over the interposer; multiple first metal bumps between the interposer and the FPGA IC chip; a first underfill between the interposer and the FPGA IC chip, wherein the first underfill encloses the first metal bumps; a non-volatile memory (NVM) IC chip over the interposer; multiple second metal bumps between the interposer and the NVM IC chip; and a second underfill between the interposer and the NVM IC chip, wherein the second underfill encloses the second metal bumps.

A MOS IC includes a first circuit including a first plurality of nMOS devices, a first p-tap cell, and a first dummy nMOS cell, and a second circuit including a first plurality of pMOS devices, a first dummy pMOS cell, and a first n-tap cell. The nMOS/pMOS devices are spaced apart in a first direction. The first p-tap cell and the first dummy nMOS cell are adjacent to each other in the first direction between the nMOS devices. The first dummy pMOS cell and the first n-tap cell are adjacent to each other in the first direction between the pMOS devices. The pMOS devices are adjacent to the nMOS devices in a second direction orthogonal to the first direction. The first p-tap cell/the first dummy pMOS cell and the first dummy nMOS cell/the first n-tap cell are respectively adjacent to each other in the second direction.

The present disclosure provides a semiconductor device manufacturing method. The method includes: providing a semiconductor substrate, including a high-frequency-block group and a low-power-block group; forming high-frequency-type logic standard cells on the high-frequency-block group of the semiconductor substrate. The high-frequency-type logic standard cells have a high-frequency-type cell height, a high-frequency-type operating frequency, and a high-frequency-type power. The method further includes forming low-power-type logic standard cells on the low-power-block group of the semiconductor substrate. The low-power-type logic standard cells have a low-power-type cell height, a low-power-type operating frequency, and a low-power-type power.

A layout structure of a capacitive cell using forksheet FETs is provided. In transistors P3 and N3, VDD is supplied to a pair of pads and a gate interconnect, and VSS is supplied to a pair of pads and a gate interconnect. Capacitances are produced between nanosheets and the gate interconnect and between nanosheets and the gate interconnect. The faces of the nanosheets closer to the nanosheets are exposed from the gate interconnect, and the faces of the nanosheets closer to the nanosheets are exposed from the gate interconnect.

An integrated circuit chip including a substrate including first and second element regions; a first channel active region extending in a first direction; a second channel active region; gate lines extending in a second direction and intersecting the first and second channel active regions; a diffusion break extending in the second direction; source/drain regions at opposite sides of the gate lines and on the first and second channel active regions; a first power line electrically connected to the source/drain regions; and a second power line electrically connected to the source/drain regions and having a lower voltage level than the first power line, wherein the diffusion break includes a first region including an insulator and overlapping the first element region, and a second region including a same material as the gate lines and overlapping the second element region, wherein the second region is electrically connected to the second power line.

A semiconductor device may include a substrate including a first logic cell and a second logic cell, which are adjacent to each other in a first direction and shares a cell border, a first metal layer on the substrate, the first metal layer including a power line, which is disposed on the cell border to extend in a second direction crossing the first direction and has a center line parallel to the second direction, and a second metal layer on the first metal layer. The second metal layer may include a first upper interconnection line and a second upper interconnection line, which are provided on each of the first and second logic cells. The first upper interconnection line may extend along a first interconnection track and the first direction. The second upper interconnection line may extend along a second interconnection track and in the first direction.

A 3D semiconductor device including: a first level including a plurality of first single-crystal transistors; a plurality of memory control circuits formed from at least a portion of the plurality of first single-crystal transistors; a first metal layer disposed atop the plurality of first single-crystal transistors; a second metal layer disposed atop the first metal layer; a second level disposed atop the second metal layer, the second level including a plurality of second transistors; a third level including a plurality of third transistors, where the third level is disposed above the second level; a third metal layer disposed above the third level; and a fourth metal layer disposed above the third metal layer, where the plurality of second transistors are aligned to the plurality of first single crystal transistors with less than 140 nm alignment error, the second level includes first memory cells, the third level includes second memory cells.