Energy-efficient high-speed CMOS pipelined multiplier

This work presents the design and fabrication of an energy-efficient high-speed 8times8-bits CMOS pipelined multiplier, based on a full adder cell built with an alternative internal logic structure and a swing-restored complementary pass-transistor logic style, that reduce static power dissipation while retaining a complete voltage swing at internal nodes. Post-layout simulations show that this multiplier is able to operate up to 1.2 GHz when supplied with 3.3 V, and the power savings obtained when compared against similar pipelined multipliers are about 20% when operating with transitioning input data, 25% with non-transitioning input data and 80% with the clock signal disabled. A test chip containing the multiplier was fabricated in a 0.35 mum CMOS technology and the experimental measurements confirm its operation at 1.2 GHz with a power consumption of 180 mW for a supply voltage of 3.3 V.

[1]  Mariano Aguirre,et al.  An Alternative Logic Approach to Implement High-Speed Low-Power Full Adder Cells , 2005, 2005 18th Symposium on Integrated Circuits and Systems Design.

[2]  Shyh-Jye Jou,et al.  A pipelined multiplier-accumulator using a high-speed, low-power static and dynamic full adder design , 1995 .

[3]  H. Samueli,et al.  A 200 MHz CMOS pipelined multiplier-accumulator using a quasi-domino dynamic full-adder cell design , 1993 .

[4]  Magdy Bayoumi,et al.  An enhanced low-power computational kernel for a pipelined multiplier-accumulator unit , 1998, Proceedings of the Tenth International Conference on Microelectronics (Cat. No.98EX186).

[5]  Mónico Linares Aranda,et al.  A low power and high speed CMOS Voltage-Controlled Ring Oscillator , 2004, 2004 IEEE International Symposium on Circuits and Systems (IEEE Cat. No.04CH37512).