Adaptive and hybrid schemes for efficient parallel squaring and cubing units
Abstract
Squaring (X2) and cubing (X3) units are special operations of multiplication used in many applications, such as image compression, equalization, decoding and demodulation, 3D graphics, scientific computing, artificial neural networks, logarithmic number system, and multimedia application. They can also be an efficient way to compute other basic functions. Therefore, improving their performances is a goal for many researchers. This dissertation will discuss modification to algorithms to compute parallel squaring and cubing units in both signed and unsigned representation. After that, truncated technique is applied to improve their performance. Each unit is modeled and estimated to obtain its area, delay by using linear evaluation model. A C program was written to generate Hardware Description Language files for each unit. These units are simulated and verified in simulation. Moreover, area, delay, and power consumption are calculated for each unit and compared with those ones in previous approaches for both Virtex 5 Xilinx FPGA and IBM 65nm ASIC technologies.
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- OSU Dissertations [11222]