International Journal of Innovative Research and Development

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VHDL Design and Simulation of a 32 Bit MIPS RISC Processor


 

Today’s smart phones, tablets, cameras, routers and play stations make use of MIPS RISC technology due to several key advantages. Due to the presence of the reduced instruction set, the processing time of the processor is reduced. It has improved flexibility and adaptability, is faster and inexpensive. So, here we are designing a microprocessor without interlocked pipelining stages i.e. MIPS RISC Processor using Xilinx software. For that firstly we are designing the Read only memory, i.e. ROM and then the random access and then we have designed the instruction fetch unit.


Keywords

MIPS, RISC, VHDL, Xilinx, RTL Schematic, Technology Schematic, ROM, RAM, Fetch unit
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  • VHDL Design and Simulation of a 32 Bit MIPS RISC Processor

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Abstract


Today’s smart phones, tablets, cameras, routers and play stations make use of MIPS RISC technology due to several key advantages. Due to the presence of the reduced instruction set, the processing time of the processor is reduced. It has improved flexibility and adaptability, is faster and inexpensive. So, here we are designing a microprocessor without interlocked pipelining stages i.e. MIPS RISC Processor using Xilinx software. For that firstly we are designing the Read only memory, i.e. ROM and then the random access and then we have designed the instruction fetch unit.


Keywords


MIPS, RISC, VHDL, Xilinx, RTL Schematic, Technology Schematic, ROM, RAM, Fetch unit