Recent Trends in Analog Design and Digital Devices

In this work, analyzed the crosstalk of CMOS buffer-driven SLGNR interconnects for the improvement of delay, peak overshoot and undershoot. The simulations carried to observe the delay by varying the different interconnect lengths and Mean Free Path. It has been observed that as the length increases the delay is increases and with respect to Mean Free path (MFP), as MFP Decreases delay will be increases. All simulations have done for 16nm to 45nm technologies. Out of 3 technologies 16nm technology is having more delay. Hence, as technology advances from 45nm to 16nm the delay increases. Further, analyzed the peak overshoot and undershoot by varying interconnect lengths and MFP. It is observed that as the length increases the peak overshoot and undershoot are also increased, but if the MFP is decreases then peak overshoot and undershoots decreased. All the simulations have done by using the HSpice simulator at different technologies.

Venkataiah, C., Ramanjaneyulu, N., Rao, Y. M., Prakash, V. N. V., Murthy, M. K., & Rao, N. S. (2022). Design and performance analysis of buffer inserted on-chip global nano interconnects in VDSM technologies. Nanotechnology for Environmental Engineering, 1-7.

Sulochana, V., Venkataiah, C., Agrawal, S., & Singh, B. (2021). Novel Circuit Model of Multi-walled CNT Bundle Interconnects Using Multi-valued Ternary Logic. IETE Journal of Research, 1-13.

Venkataiah, C., Satya-Prakash, V. N. V., Mallikarjuna, K., & Prasad, T. J. (2019). Investigating the effect of chirality, oxide thickness, temperature and channel length variation on a threshold voltage of MOSFET, GNRFET, and CNTFET. J Mech Continua Math Sci. https://doi. org/10.26782/jmcms. spl, 3(2019.09), 00018.

Kumbhare, V. R., Paltani, P. P., Venkataiah, C., & Majumder, M. K. (2019). Analytical study of bundled MWCNT and edged MLGNR interconnects: impact on propagation delay and area. IEEE Transactions on Nanotechnology, 18, 606-610.

Venkataiah, C., Satyaprasad, K., & Jayachandra Prasad, T. (2019). Insertion of an Optimal Number of Repeaters in Pipelined Nano-interconnects for Transient Delay Minimization. Circuits, Systems, and Signal Processing, 38(2), 682-698.

Venkataiah, C., Satyaprasad, K., & Prasad, T. J. (2018). FDTD algorithm to achieve absolute stability in performance analysis of SWCNT interconnects. Journal of computational electronics, 17(2), 540-550.

Jayamma, M., Boya, R.S. (2022). Design of high performance repeater for high speed VLSI interconnects. Journal of advancement in communication systems, 5(3), 1-8.

Jayamma, M., Boya, R.S. (2022). Design of different interconnect circuit techniques for future interconnects. Journal of optoelectronics and communication, 4(3), 1-8.

Venkataiah, C., Satyaprasad, K., & Prasad, T. J. (2018). Crosstalk Induced Performance Analysis of Single Wall Carbon Nanotube Interconnects Using Stable Finite-Difference Time-Domain Model. Journal of nanoelectronics and optoelectronics, 13(6), 846-855.

Venkataiah, C., Satyaprasad, K., & Prasad, T. J. (2018). Signal integrity analysis for coupled SWCNT interconnects using stable recursive algorithm. Microelectronics journal, 74, 13-23.