This paper presents an optimized 64-bit parallel adder, Sparse-tree architecture enames low carry-merge fan-outs and inter-stage wiring complexity. Single-rail and semi-dynamic circuit improves operation speed. Simula...This paper presents an optimized 64-bit parallel adder, Sparse-tree architecture enames low carry-merge fan-outs and inter-stage wiring complexity. Single-rail and semi-dynamic circuit improves operation speed. Simulation results show that the proposed adder can operate at 485ps with power of 25.6mW in 0.18μm CMOS process. It achieves the goal of higher speed and lower power.展开更多
基金Supported by the National Natural Science Foundation of China under Grant Nos. 60273069, 60376018, 90207011, the National High Technology Development 863 Program of China under Grant No. 2002AAl10020, and the Adwnced Research Foundation of NUDT under Grant No. JC03-06-007.
文摘This paper presents an optimized 64-bit parallel adder, Sparse-tree architecture enames low carry-merge fan-outs and inter-stage wiring complexity. Single-rail and semi-dynamic circuit improves operation speed. Simulation results show that the proposed adder can operate at 485ps with power of 25.6mW in 0.18μm CMOS process. It achieves the goal of higher speed and lower power.
