Title :
Using the reverse-carry approach for double datapath floating-point addition
Author :
Bruguera, Javier D. ; Lang, Tomás
Author_Institution :
Dept. of Electron. & Comput. Eng., Santiago de Compostela Univ., Spain
Abstract :
The double-datapath organization of a floating-point adder results in reduced latency. One of the main characteristics of this organization is the combination of addition/subtraction with rounding into a single add/round module, which is implemented as one pipeline stage and might be responsible for the cycle time. We propose the utilization of the most-significant carry detector and the corresponding adder using the reverse-carry approach to reduce the latency of this add/round module. In addition, the particular organization of the reverse-carry adder is used to reduce the contribution on the delay of the row of half adders that is included in the FAR datapath to produce the sum plus two. Estimates for a 64 bit add/round module show a potential reduction of delay of about 15%
Keywords :
adders; floating point arithmetic; pipeline arithmetic; FAR datapath; add/round module; addition/subtraction; cycle time; double datapath floating-point addition; floating-point adder; half adder row delay; most-significant carry detector; pipeline stage; reduced latency; reverse-carry approach; rounding; Added delay; Adders; Computer architecture; Contracts; Delay estimation; Detectors; Lead compounds; Pipelines;
Conference_Titel :
Computer Arithmetic, 2001. Proceedings. 15th IEEE Symposium on
Conference_Location :
Vail, CO
Print_ISBN :
0-7695-1150-3
DOI :
10.1109/ARITH.2001.930120
