Title :
Fast Ripple-Carry Adders in Standard-Cell CMOS VLSI
Author_Institution :
ARM Inc., Austin, TX, USA
Abstract :
This paper presents a number of new high-radix ripple-carry adder designs based on Ling´s addition technique and a recently-published expansion thereof. The proposed adders all have one inverting CMOS cell per stage along the carry-in to carry-out critical path and, at 16-b word lengths, the fastest of them matches the speed of a 16-b prefix adder for only 63% of the area. These adders will be of use in VLSI circuits implementing modern wireless DSP algorithms and in Floating-Point Unit exponent logic, both of which typically use short word length arithmetic.
Keywords :
CMOS integrated circuits; VLSI; adders; cellular arrays; digital signal processing chips; floating point arithmetic; DSP algorithm; Ling addition technique; VLSI circuit; fast ripple-carry adder; floating-point unit exponent logic; standard cell CMOS VLSI; wordlength; Adders; CMOS integrated circuits; Capacitance; Delay; Inverters; Logic gates; Very large scale integration; Adders; CMOS VLSI; Ling;
Conference_Titel :
Computer Arithmetic (ARITH), 2011 20th IEEE Symposium on
Conference_Location :
Tubingen
Print_ISBN :
978-1-4244-9457-6
DOI :
10.1109/ARITH.2011.23
