Design of a 3-V 300-MHz low-power 8-b/spl times/8-b pipelined multiplier using pulse-triggered TSPC flip-flops

This paper describes the design of a low-power pipelined multiplier. It is illustrated in this paper that the power consumption of the clocking system cannot be overlooked and the design of the storage element is the key to low power. A new pulse-triggered true single-phase clocking (TSPC) flip-flop (PTTFF) is proposed for this purpose in this design. The PTTFF features true single-phase clocking, simple structure, and high performance. One PTTFF comprises only five transistors with only one controlled by the clock. Using the PTTFF together with the 14-transistor pseudo-NMOS full adder, an 8-b/spl times/8-b pipelined multiplier has been designed and implemented, employing a 0.6-/spl mu/m CMOS process. When the multiplier operates at the operating frequency of 300 MHz with VDD equal to 3.3 V, it dissipates only 53% of the power of the multiplier designed with nine-transistor TSPC flip-flops under the same operating conditions. When the supply voltage for the core array is reduced to 2.5 V, the multiplier can still work up to 300 MHz with only 47% of the power of the multiplier designed using the S and D full adders and C/sup 2/MOS latches with VDD equal to 3.3 V. The chip has been fabricated, and the measured power is 52.4 mW when operated at 300 MHz and 3.3 V.