Abstract: An insulating layer (24, 66, 82) is formed over a stack (14) of materials and a semiconductor substrate (12) and an implant is performed through the insulating layer into the semiconductor substrate. In one embodiment, spacers (26) are formed over the insulating layer (24), the insulating layer (24) is etched, and heavily doped regions (36) are formed adjacent the spacers. The spacers (26) are then removed and extension regions (50) and optional halo regions (46) are formed by implanting through the insulating layer (24). In one embodiment, the insulating layer (24) is in contact with the semiconductor substrate (12). In one embodiment, the stack (14) is a gate stack including a gate dielectric (18), a gate electrode (16), and an optional capping layer (22). The insulating layer (24, 66, 82) may include nitrogen, such as silicon nitride and aluminum nitride. In another embodiment, the insulating layer (24, 66, 82) may be hafnium oxide.

Abstract: A method and apparatus for confirming the operation of memory (212) operates during periods when the memory is not operating in a standard execution mode. This strategy allows the memory to be checked real-time without impacting normal bandwidth of an associated CPU (200). The method and apparatus guarantees deterministic testing by including circuitry and steps which force bus mastership and, therefore, memory access if the memory is busy for too long a period of time.