P. Indira scite author profile

P. Indira

4Publications

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10Citation Statements Given

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C. U. Shah University

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Design and Analysis of A 32-bit Pipelined MIPS Risc Processor

Indira¹,

Kamaraju²,

Dwivedi³

2019

VLSICS

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Pipelining is a technique that exploits parallelism, among the instructions in a sequential instruction stream to get increased throughput, and it lessens the total time to complete the work.. The major objective of this architecture is to design a low power high performance structure which fulfils all the requirements of the design. The critical factors like power, frequency, area, propagation delay are analysed using Spartan 3E XC3E 1600e device with Xilinx tool. In this paper, the 32-bit MIPS RISC processor is used in 6-stage pipelining to optimize the critical performance factors. The fundamental functional blocks of the processor include Input/Output blocks, configurable logic blocks, Block RAM, and Digital clock Manager and each block permits to connect to multiple sources for the routing. The Auxiliary units enhance the performance of the processor. The comparative study elevates the designed model in terms of Area, Power and Frequency. MATLAB2D/3D graphs represents the relationship among various parameters of this pipelining. In this pipeline model, it consumes very less power (0.129 W),path delay (11.180 ns) and low LUT utilization (421). Similarly, the proposed model achieves better frequency increase (285.583 Mhz.), which obtained better results compared to other models.

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Design and Analysis of A 32-bit Pipelined MIPS Risc Processor

Indira

Kamaraju

Dwivedi

2019

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Design and Implementation of 6-Stage 64-bit MIPS Pipelined Architecture

Indira¹,

Kamaraju²

2019

IJEAT

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Pipelining is the concept of overlapping of multiple instructions to perform their operations to optimize the time and ability of hardware units. This paper presents the design and implementation of 6 stage pipelined architecture for High performance 64-bit Microprocessor without Interlocked Pipeline Stages (MIPS) based Reduced Instruction set computing (RISC) processor. In this work, combining efforts of pre-fetching unit, forwarding unit, Branch and Jump predicting unit, Hazard unit are used to reduce the hazards. Low power unit is used to minimize the power. Cache Memories, other devices and especially balancing pipeline stages optimize the Speed in this work. DDR4 SDRAM (Double Data Rate type4 Synchronous Dynamic Random Access Memory) controller is employed in this pipeline to achieve high-speed data transfers and to manage the entire system efficiently. Low power, Low delay Flip flops are used in pipeline registers that implicitly enhance the performance of the system. The proposed method provides better results compared to the existing models. The simulation and synthesis results of the proposed Architecture are evaluated by Xilinx 14.7 software and supporting graphs are plotted through MATLAB tool

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Design and Analysis of a 32-Bit Pipelined Mips Risc Processor

Indira

2019

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P. Indira

Design and Analysis of A 32-bit Pipelined MIPS Risc Processor

Design and Analysis of A 32-bit Pipelined MIPS Risc Processor

Design and Implementation of 6-Stage 64-bit MIPS Pipelined Architecture

Design and Analysis of a 32-Bit Pipelined Mips Risc Processor

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