Publications/Selections for publications (includes papers under review) in Reverse Chronological order

• Bansal S.M., Ea T., Amara A. "0.13 micron Fully Depleted SOI based RISC processor for Ultra Low Power applications." currently under review at the 33rd International Symposium on Computer Architecture (ISCA 06), Boston MA, USA. PDF

• Bansal S.M., Nagchoudhry D. "Minimization of variation in output characteristics of a SOI MOSFET due to self heating" published in the proceedings of the 2005 IEEE VLSI Design and Test Symposium, Bangalore, INDIA PDF

• Bansal S.M. "A Quantitative Drain Current Thermal Model for thermal gradient correction in FD SOI MOS" selected for publication in the 2004 IEEE International Conference on Microelectronics, Lahore, Pakistan PDF

• Bansal S.M., Madan A., Gupta N. "Metal T-Gate structure for Fully Depleted SOI RF-CMOS technology" published in the proceedings of the 2004 Indian Microelectronics Society Conference, Chandigarh, INDIA. DOC

• Bansal S.M., Gupta N. "Molecular Digital Logic Circuits" published in the proceedings of the 1st International Conference on Advanced Nanotechnology (Oct 2004), Washington DC, USA. abstract

Details of Completed Projects (In Reverse Chronological Order)

• Developing a Ultra Low Power 16-bit RISC processor based on the 0.13 micron Fully Depleted SOI technology with 500mV supply voltage. The processor was used in a security system based on identification using the Iris of the eye. It incorporated arithmetic, logical and conditional instructions and the clock to the registers was gated using And gates and control signals to reduce power consumption during the clock cycles when the registers were not in use. The multiplexers whose inputs do not change during a particular clock cycle were not provided the clock pulse to reduce the power consumption further. The complete VHDL code is here. A clock period of 24ns was used in the testbench. The project report provides all the results of synthesis. This project was carried out at Institut Superieur D`Electronique de Paris under the guidance of Dr. Amara.

• Implementation of a feedback circuit model as a correcting circuit for canceling the effects of self heating on the output characteristics of a SOI MOSFET. Also I proposed a device level correcting technique that took advantage of the simple fact that increase in temperature causes changes in threshold voltage and mobility but these changes are such that they have contradictory effects on the drain current, change in threshold voltage tries to increase drain current and change in mobility tries to decrease it. I verified by simulation using HSPICE the possibility of a device with such an architecture that could negate the effects of changes in Vth and mobility with the drain current remaining constant even with increase in temperature. Download ppt

• Developing 0.8 micron cell library (112 cells) using Cadence Virtuoso and Tanner Tools for Semiconductors Complex Limited

• I also worked on  a project in robotics on a line follower robot without using a microcontroller. The robot finished amongst the final 20 contestants out of 105 participants in an international robotics competition in IIT Bombay.