摘要
This paper proposes a new optimization method to improve the performance of a null convention logic asynchronous pipeline.Parallel combinational logic modules in the pipelines can work alternately in null and data cycles by using a parallel processing mode.The complete waiting time for both null and data signals of combinational logic output in previous asynchronous register stage is reduced by decoupling the output from combinational logic modules.Performance penalty brought by null cycle is reduced while the data processing capacity is increased.The novel asynchronous pipeline based on asynchronous full adders with different bit widths as asynchronous combination logic modules is simulated using 0.18-μm CMOS technology.Based on 6 bits asynchronous adder as asynchronous combination logic modules, the simulation result of this new pipeline proposal demonstrates a high throughput up to 72.4% improvement with appropriate power consumption.This indicates the new design proposal is preferable for high-speed as ynchronous designs due to its high throughput and delay-insensitivity.
This paper proposes a new optimization method to improve the performance of a null convention logic asynchronous pipeline.Parallel combinational logic modules in the pipelines can work alternately in null and data cycles by using a parallel processing mode.The complete waiting time for both null and data signals of combinational logic output in previous asynchronous register stage is reduced by decoupling the output from combinational logic modules.Performance penalty brought by null cycle is reduced while the data processing capacity is increased.The novel asynchronous pipeline based on asynchronous full adders with different bit widths as asynchronous combination logic modules is simulated using 0.18-μm CMOS technology.Based on 6 bits asynchronous adder as asynchronous combination logic modules, the simulation result of this new pipeline proposal demonstrates a high throughput up to 72.4% improvement with appropriate power consumption.This indicates the new design proposal is preferable for high-speed as ynchronous designs due to its high throughput and delay-insensitivity.
基金
supported by the National Science Fund for Distinguished Young Scholars (No. 60725415)
the National Natural Science Foundation of China (Nos. 60676009, 90407016)
