Title :
Correctly rounded architectures for Floating-Point multi-operand addition and dot-product computation
Author :
Yao Tao ; Gao Deyuan ; Fan Xiaoya ; Nurmi, Jari
Author_Institution :
Dept. of Comput. Sci. & Eng., Northwestern Polytech. Univ., Xi´an, China
Abstract :
This study presents hardware architectures performing correctly rounded Floating-Point (FP) multioperand addition and dot-product computation, both of which are widely used in various fields, such as scientific computing, digital signal processing, and 3D graphic applications. A novel realignment method is proposed to solve the catastrophic cancellation and multi-sticky bits. Only one rounding operation is performed in both of the proposed FP multi-operand adder and dot-product computation unit. Implementation results show that our architectures not only can produce correctly rounded results, whose errors are less than 0.5 ULP (Unit in the Last Place), but also have reduced delay comparing with the traditional network architecture, which uses 2-operand FP adders and multipliers to perform multi-operand addition and dot-product computation.
Keywords :
adders; computer architecture; floating point arithmetic; 2-operand FP adders; 3D graphic applications; FP multioperand adder; FP multipliers; ULP; catastrophic cancellation; correctly rounded architectures; correctly rounded floating-point multioperand addition; digital signal processing; dot-product computation unit; hardware architectures; multisticky bits; network architecture; realignment method; rounding operation; scientific computing; unit in the last place; Accuracy; Adders; Computer architecture; Equations; Hardware; Manganese; Software; catastrophic cancellation; dot-product computation; multi-operand addition; one rounding operation;
Conference_Titel :
Application-Specific Systems, Architectures and Processors (ASAP), 2013 IEEE 24th International Conference on
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4799-0494-5
DOI :
10.1109/ASAP.2013.6567600
