A semiconductor wafer comprising a first die including a first integrated circuit having a trimmable or programmable component. The trimmable or programmable component is configured to be trimmed or permanently altered in response to an electrical signal. The semiconductor wafer includes a second die arranged adjacent to the first die. The second die includes a second integrated circuit and at least one contact pad arranged to allow an electrical connection to be made to the second integrated circuit. The at least one contact pad is additionally electrically connected to the at least one trimmable or programmable component of the first die such that the at least one contact pad of the second die is configured to act as a probe pad.

A one-time programmable (OTP) memory cell includes a substrate having an active area surrounded by an isolation region. A divot is disposed between the active area and the isolation region. A transistor is disposed on the active area. A diffusion-contact fuse is electrically coupled to the transistor. The diffusion-contact fuse includes a diffusion region in the active area, a silicide layer on the diffusion region, and a contact partially landed on the silicide layer and partially landed on the isolation region. A sidewall surface of the diffusion region in the divot is covered by the silicide layer. The divot is filled with the contact.

A one-time programmable (OTP) memory cell includes a substrate having an active area surrounded by an isolation region. A divot is disposed between the active area and the isolation region. A transistor is disposed on the active area. A diffusion-contact fuse is electrically coupled to the transistor. The diffusion-contact fuse includes a diffusion region in the active area, a silicide layer on the diffusion region, and a contact partially landed on the silicide layer and partially landed on the isolation region. A sidewall surface of the diffusion region in the divot is covered by the silicide layer. The divot is filled with the contact.

A one-time programmable (OTP) memory cell includes a substrate having a first conductivity type and having an active area surrounded by an isolation region, a transistor disposed on the active area, and a capacitor disposed on the active area and electrically coupled to the transistor. The capacitor comprises a diffusion region of a second conductivity type in the substrate, a metallic film in direct contact with the active area, a capacitor dielectric layer on the metallic film, and a metal gate surrounded by the capacitor dielectric layer. The diffusion region and the metallic film constitute a capacitor bottom plate.

A one-time programmable (OTP) memory cell includes a substrate having a first conductivity type and having an active area surrounded by an isolation region, a transistor disposed on the active area, and a capacitor disposed on the active area and electrically coupled to the transistor. The capacitor comprises a diffusion region of a second conductivity type in the substrate, a metallic film in direct contact with the active area, a capacitor dielectric layer on the metallic film, and a metal gate surrounded by the capacitor dielectric layer. The diffusion region and the metallic film constitute a capacitor bottom plate.

A memory cell is disclosed. In an embodiment a programmable read-only memory cell includes a first insulating layer located between a semiconductor body and a second conductive or semi-conductive layer, wherein the first insulating layer comprises a peripheral portion and a central portion, and wherein the peripheral portion has a greater thickness than the central portion.

A memory cell is disclosed. In an embodiment a programmable read-only memory cell includes a first insulating layer located between a semiconductor body and a second conductive or semi-conductive layer, wherein the first insulating layer comprises a peripheral portion and a central portion, and wherein the peripheral portion has a greater thickness than the central portion.

A semiconductor wafer comprising a first die including a first integrated circuit having a trimmable or programmable component. The trimmable or programmable component is configured to be trimmed or permanently altered in response to an electrical signal. The semiconductor wafer also includes a saw street arranged adjacent to the first die, and at least one probe pad electrically connected to the trimmable or programmable component. The at least one probe pad is arranged in the saw street.

In some aspects of the present disclosure, a memory circuit is disclosed. In some aspects, the memory circuit includes a first memory cell including a first resistor; and a first transistor coupled to the first resistor, wherein a first bulk port of the first transistor is biased at a first voltage level; a second memory cell coupled to the first memory cell, the second memory cell including a second resistor; and a second transistor coupled to the second memory cell, wherein a second bulk port of the second transistor is biased at a second voltage level, wherein the second voltage level is less than the first voltage level.

A memory device is disclosed. The memory device includes a plurality of memory cells, each of the memory cells including an access transistor and a resistor coupled to each other in series. The resistors of the memory cells are each formed as one of a plurality of interconnect structures disposed over a substrate. The access transistors of the memory cells are disposed opposite a first metallization layer containing the plurality of interconnect structures from the substrate.