The present invention provides a semiconductor device, including a substrate with a memory region and a logic region, the substrate having a recess disposed in the memory region, a logic gate stack disposed in the logic region, and a non-volatile memory disposed in the recess. The non-volatile memory includes at least two floating gates and at least two control gates disposed on the floating gates, where each floating gate has a step-shaped bottom, and the step-shaped bottom includes a first bottom surface and a second bottom surface lower than the first bottom surface.

Some embodiments of the present disclosure relate to a flash memory device. The flash memory device includes first and second individual source/drain (S/D) regions spaced apart within a semiconductor substrate. A common S/D region is arranged laterally between the first and second individual S/D regions, and is separated from the first individual S/D region by a first channel region and is separated from the second individual S/D region by a second channel region. An erase gate is arranged over the common S/D. A floating gate is disposed over the first channel region and is arranged to a first side of the erase gate. A control gate is disposed over the floating gate. A wordline is disposed over the first channel region and is spaced apart from the erase gate by the floating gate and the control gate. An upper surface of the wordline is a concave surface.

The present disclosure relates to an integrated circuit (IC). The IC includes a substrate, which includes a periphery region having a first substrate surface and a memory cell region having a second substrate surface. The second substrate surface is recessed within the substrate relative to the first substrate surface. A high k metal gate (HKMG) transistor is disposed on the first substrate surface and includes a HKMG gate. Two neighboring flash memory cells are disposed on the second substrate surface and include a pair of flash memory cell control gates. Top surfaces of the HKMG gate and flash memory cell control gates are co-planar.

A method of making a semiconductor device is described. The method comprises depositing a first polysilicon layer in a non-volatile memory (NVM) region and a logic region of a substrate. A first coating layer is deposited over the first polysilicon layer. The first coating layer and the first polysilicon layer are patterned to form a first gate in the NVM region. A memory cell is formed including the first gate. The first coating layer and the first layer of polysilicon in the logic region are removed and a logic gate polysilicon layer is deposited. The logic gate polysilicon layer is patterned to form a second gate in the logic region while the logic gate polysilicon layer is removed from the NVM region. Source/drain regions of the memory cell and the second gate are implanted concurrently.

A method of forming a semiconductor device with memory cells and logic devices on the same silicon-on-insulator substrate. The method includes providing a substrate that includes silicon, a first insulation layer directly over the silicon, and a silicon layer directly over the first insulation layer. Silicon is epitaxially grown on the silicon layer in a first (memory) area of the substrate and not in a second (logic device) area of the substrate such that the silicon layer is thicker in the first area of the substrate relative to the second area of the substrate. Memory cells are formed in the first area of the substrate, and logic devices are formed in the second area of the substrate.