Internet of Things enabled green VLSI design on FPGA

Author

Kumar, Tanesh ; Musavi, S.H.A. ; Jatoi, Munsif Ali ; Kaur, Karandeep

Author_Institution

Fac. of Eng., Sci. & Technol., Indus Univ., Karachi, Pakistan

fYear

2015

fDate

11-13 March 2015

Firstpage

1552

Lastpage

1556

Abstract

This paper presents a novel approach for an effective and temperature controlled communication between environments by controlling the devices of daily use via internet. This research work is done by designing a key generator for every device that is supposed to be controlled. The generated key is added as an address with the device and can be accessed by internet. For this task, designing of thermally efficient key generator i.e. Fibonacci Generator is designed in our Xilinx Simulator. This circuit is then analyzed for variety of ambient temperatures (21°C, 41°C, 61°C, and 71°C) and various classes of LVCMOS are taken as I/O standard. It has been observed that with the increase in frequencies, the temperature also rises. The junction temperature at 21°C is 19%, 12%, 9.3% and 1.7% reduced for LVCMOS12 as compared to LVCMOS25 at 1GHz. The recommendable junction temperature is less than 125°C.

Keywords

Internet of Things; VLSI; field programmable gate arrays; FPGA; Fibonacci Generator; Internet of Things enabled green VLSI design; LVCMOS; Xilinx Simulator; temperature controlled communication; Energy efficiency; Field programmable gate arrays; Generators; Internet; Junctions; Standards; Very large scale integration; Fibonacci Generator; I/O Standard; Internet; LVCMOS; Thermally Efficient; Xilinx Simulator;

fLanguage

English

Publisher

ieee

Conference_Titel

Computing for Sustainable Global Development (INDIACom), 2015 2nd International Conference on

Conference_Location

New Delhi

Print_ISBN

978-9-3805-4415-1

Type

conf

Filename

7100509