Title :
An efficient technique of integrating parallel neural networks for faster and power efficient nanodevices for ultradense VLSI circuits
Author :
Sarkar, Subir Kumar ; Ghosh, Ankush ; Gautham, M.A. ; SobhaRani, A. ; Samanta, Debasis
Author_Institution :
Jadavpur Univ., Kolkata
Abstract :
Recently power dissipation (in addition to the earlier three aspects e.g. speed, size and cost) has become the main design concern in several applications. However, power saving should be achieved without compromising high performance or minimum area, thereby creating a new design culture for VLSI. Power consideration has been the ultimate design criteria in some special portable applications like pacemakers, mobile sets and wristwatches. As an attempt towards this, in the present work parallel back propagation artificial neural networks are employed to optimize and predict the various system parameter of a (In, Ga)As nanodevice so that the relevant device will exhibit better high frequency response and will be power efficient. Moreover prediction time is reduced using parallelism in ANN thereby making the design less time consuming.
Keywords :
VLSI; backpropagation; nanotechnology; neural nets; design criteria; nanodevice; parallel backpropagation artificial neural network; portable application; power consideration; power dissipation; power saving; system parameter optimization; system parameter prediction; ultradense VLSI circuit; very large scale integration; Artificial neural networks; Circuit synthesis; Costs; Educational technology; Nanoscale devices; Neural networks; Optical scattering; Pacemakers; Power dissipation; Very large scale integration; backpropagation; miniaturization; nanodevices; optimization; ultradense;
Conference_Titel :
Physics of Semiconductor Devices, 2007. IWPSD 2007. International Workshop on
Conference_Location :
Mumbai
Print_ISBN :
978-1-4244-1728-5
Electronic_ISBN :
978-1-4244-1728-5
DOI :
10.1109/IWPSD.2007.4472490
