Abstract
This paper presents a novel architecture that allows a high level of fault tolerance in embedded memory devices for multimedia applications. The benefits are two fold by allowing systems to operate at a lower voltage thus saving power, while improving yield via error masking. The proposed architecture performs a remapping of defective parts of the memory while allowing single cycle access to the remapped portions. Furthermore, it provides run time control of the enforced protection policies leading to an expanded design space that trades off power, error tolerance and quality. Simulations indicate a reduction of up to 35% in encoder power for a 65 nm CMOS process.