VERY HIGH-SPEED STREAMING FLOW CONTROL SYSTEM USING LESS ENERGY CONSUMPTION

Butti Satya Prakash, S. Avinash Kumar

Abstract


Within the conventional system, power consumption is high and costly. The device is within just one condition at any given time, the condition it's in at any time is known as the present condition. It may vary from one condition to a different when initiated with a triggering event or condition, this really is known as transition. Field programmable gate arrays (FPGAs) are extensively utilized in verification of the conceptual design e small quantity. This paper presents design and simulation of the power efficient traffic light controller (PTLC). The primary focus is on simulation and optimization of PTLC design and computing its speed of operation. The style of PTLC is preferable to conventional when it comes to LUT’s (quantity of gates), complexity, size and price. Within this research paper a manuscript PTLC is given the absolute minimum quantity of LEDs which fairly improves its performance and helps make the design efficient when it comes to speed and memory regarding conventional design. The traditional traffic light controller continues to be implemented using microcontroller and FPGA’s. The study paper by Parasmani in 2013 mentioned using FPGA to create a sophisticated traffic light controller which utilizes the sensor to keep the continual traffic flow therefore, the power consumption is simply too high which may be reduced through the design PTLC. The novel style of PTLC is definitely an economical and shares the figures of high integration, low power and versatility. The PTLC continues to be implemented using FPGA. FPGA has numerous advantages because the speed, quantity of input/output ports and gratification. This technique continues to be effective tested and implemented in hardware using Xilinx v 10.1 software programs using High Speed Integrated circuit hardware description language (VHDL), RTL and technology schematic are incorporated to validate simulation results.


Keywords


FPGA; Xilinx; VHDL; PTLC

References


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