TY - GEN
T1 - A unified parameterization technique for TFT-LCD panel design optimization
AU - Huang, Hsuan Ming
AU - Li, Yi-Ming
PY - 2009
Y1 - 2009
N2 - Display is the most power-hungry component in electronics industry. Power-efficient design is strongly required in thin film transistor liquid-crystal display (TFTLCD) portable products. This work proposes a unified parameterization technique for modeling and multi-objective optimization of TFT-LCD panel using a two-stage response surface model (RSM) and genetic algorithm (GA). To achieve designing specification in circuit and system levels with minimal power consumption simultaneously, a powerdelay product is considered as the object function of the TFTLCD panel optimization. Simulation-validated RSMs and GA are thus implemented into a unified optimization framework for the design optimization problem. Comparing with the conventional design flow using CAD tools, a 21.5% reduction in the power-delay of TFT-LCD panel is achieved with 95% accuracy. Moreover, the time required for the optimization process is significantly reduced by 288 times. We notice that the proposed unified parameterization technique is object flexible and can further optimize the multi-objective system performances (i.e. crosstalk, leakage current, brightness, etc.). The unified parameterization framework may benefit the high performance display panel design in the photonics industry.
AB - Display is the most power-hungry component in electronics industry. Power-efficient design is strongly required in thin film transistor liquid-crystal display (TFTLCD) portable products. This work proposes a unified parameterization technique for modeling and multi-objective optimization of TFT-LCD panel using a two-stage response surface model (RSM) and genetic algorithm (GA). To achieve designing specification in circuit and system levels with minimal power consumption simultaneously, a powerdelay product is considered as the object function of the TFTLCD panel optimization. Simulation-validated RSMs and GA are thus implemented into a unified optimization framework for the design optimization problem. Comparing with the conventional design flow using CAD tools, a 21.5% reduction in the power-delay of TFT-LCD panel is achieved with 95% accuracy. Moreover, the time required for the optimization process is significantly reduced by 288 times. We notice that the proposed unified parameterization technique is object flexible and can further optimize the multi-objective system performances (i.e. crosstalk, leakage current, brightness, etc.). The unified parameterization framework may benefit the high performance display panel design in the photonics industry.
UR - http://www.scopus.com/inward/record.url?scp=70449481789&partnerID=8YFLogxK
U2 - 10.1109/ASQED.2009.5206278
DO - 10.1109/ASQED.2009.5206278
M3 - Conference contribution
AN - SCOPUS:70449481789
SN - 9781424449521
T3 - 2009 1st Asia Symposium on Quality Electronic Design, ASQED 2009
SP - 153
EP - 156
BT - 2009 1st Asia Symposium on Quality Electronic Design, ASQED 2009
T2 - 2009 1st Asia Symposium on Quality Electronic Design, ASQED 2009
Y2 - 15 July 2009 through 16 July 2009
ER -