The performance of existing adders varies widely in their speed and area requirements, which in turn sometimes makes designers pay a high cost in area especially when the delay requirements exceeds the fastest speed of a specific adder, no matter how small the difference is. To expand the design space and manage delay/area tradeoffs, we propose new adder architecture and a design methodology. The proposed adder architecture, named heterogeneous adder, decomposes an adder into blocks (sub-adders) consisting of carry-propagate adders of different types and precision. The flexibility in selecting the characteristics of sub-adders is the basis in achieving adder designs with desirable characteristics. We consider the area optimization under delay constraints and the delay optimization under area constraints by determining the bit-width of sub-adders using Integer Linear Programming. We demonstrate the effectiveness of the proposed architecture and the design method on 128bit operands...
Jeong-Gun Lee, Jeong-A. Lee, Byeong-Seok Lee, Milo