TY - JOUR
T1 - Analysis of Thermal Stability of Different Counter on 28nm FPGA
AU - Gupta, Daizy
AU - Yadav, Amit
AU - Hussain, Dil muhammed Akbar
PY - 2016/7
Y1 - 2016/7
N2 - In this paper we are presenting the power analysis for thermal awareness of different counters. The technique we are using to do the analysis is based on 28 nm FPGA tech-nique. In this work during implementation on FPGA, we are going to analyze thermal stability of different counters in temperature range of 10oC, 30oC, 60oC, 90oC, 120oC. There is 90.36% reduction in leakage power of divide by 2 counter when we scale down the temperature from 120oC to 10oC and 49.61% reduction in leakage power of LFSR up counter when we scale down the temperature from 120oC to 10oC.
AB - In this paper we are presenting the power analysis for thermal awareness of different counters. The technique we are using to do the analysis is based on 28 nm FPGA tech-nique. In this work during implementation on FPGA, we are going to analyze thermal stability of different counters in temperature range of 10oC, 30oC, 60oC, 90oC, 120oC. There is 90.36% reduction in leakage power of divide by 2 counter when we scale down the temperature from 120oC to 10oC and 49.61% reduction in leakage power of LFSR up counter when we scale down the temperature from 120oC to 10oC.
KW - Thermal Stability
KW - Counter
KW - 28nm
KW - FPGA
KW - Ambient Temperature
KW - Junction Temperature
KW - Leakage Power
UR - http://gjet.gyancity.com/2016.html
U2 - 10.21058/gjet.2016.2201
DO - 10.21058/gjet.2016.2201
M3 - Journal article
SN - 2456-0065
VL - 2
SP - 1
EP - 8
JO - Gyancity Journal of Engineering and Technology
JF - Gyancity Journal of Engineering and Technology
IS - 2
ER -