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Implementation of a simple SIMD processor in Verilog, core of which is a 16-bit SIMD ALU. 2's compliment calculations are implemented in this ALU. The ALU operation will take two clocks. The first clock cycle will be used to load values into the registers. The second will be for performing the operations. 6-bit opcodes are used to select the fun…
An 8-bit multiplier is synthesized and simulated in Xilinx ISE using Verilog HDL. The multiplication is performed using Vedic Mathematics which is proved to consume less power and faster than conventional multipliers.
An 4-bit multiplier is synthesized and simulated in Xilinx ISE using Verilog HDL. The multiplication is performed using Vedic Mathematics which is proved to consume less power and faster than conventional multipliers.
The computational speed of the dadda multiplier can be enhanced by partitioning the partial products. In process to achieve low power we have considered pass transistor for logical implementation.