TY - JOUR
T1 - Dynamic Error-Compensated Fixed-Width Booth Multiplier Based on Conditional-Probability of Input Series
AU - He, Wen Quan
AU - Chen, Yuan Ho
AU - Jou, Shyh-Jye
N1 - Publisher Copyright:
© 2015, Springer Science+Business Media New York.
PY - 2016/8/1
Y1 - 2016/8/1
N2 - This paper proposes a dynamic error-compensated circuit for a fixed-width Booth multiplier based on the conditional probability of input series (CPIS), which enables high-speed operation and low circuit overhead. The dynamic compensated value is produced directly from the multiplier of input series simultaneously with the Booth encoder and therefore does not affect the critical path. The compensated formula is derived using a mathematical probability model, rather than time-consuming simulation. This formula is a function of bit-length of the multiplier; thus, the compensated circuit is easily implemented for bit-length of 32, 64, or longer. Accuracy-efficiency, which indicates the signal-to-noise ratio per unit area and unit delay, is included for ease of comparison. Compared with previous works, the greatest advantage of the proposed CPIS is high speed. Furthermore, the proposed CPIS achieves higher accuracy-efficiency. Implemented using the TSMC 0.18-μ m CMOS process, the proposed 32-bit Booth multiplier has an operation frequency of 50 MHz with power consumption of 7.3 mW.
AB - This paper proposes a dynamic error-compensated circuit for a fixed-width Booth multiplier based on the conditional probability of input series (CPIS), which enables high-speed operation and low circuit overhead. The dynamic compensated value is produced directly from the multiplier of input series simultaneously with the Booth encoder and therefore does not affect the critical path. The compensated formula is derived using a mathematical probability model, rather than time-consuming simulation. This formula is a function of bit-length of the multiplier; thus, the compensated circuit is easily implemented for bit-length of 32, 64, or longer. Accuracy-efficiency, which indicates the signal-to-noise ratio per unit area and unit delay, is included for ease of comparison. Compared with previous works, the greatest advantage of the proposed CPIS is high speed. Furthermore, the proposed CPIS achieves higher accuracy-efficiency. Implemented using the TSMC 0.18-μ m CMOS process, the proposed 32-bit Booth multiplier has an operation frequency of 50 MHz with power consumption of 7.3 mW.
KW - Booth encoder
KW - Dynamic error compensation
KW - Fixed-width multiplier
KW - Mathematical probable model
UR - http://www.scopus.com/inward/record.url?scp=84975263531&partnerID=8YFLogxK
U2 - 10.1007/s00034-015-0186-2
DO - 10.1007/s00034-015-0186-2
M3 - Article
AN - SCOPUS:84975263531
SN - 0278-081X
VL - 35
SP - 2972
EP - 2991
JO - Circuits, Systems, and Signal Processing
JF - Circuits, Systems, and Signal Processing
IS - 8
ER -