GIGABIT Research Papers - Academia.edu (original) (raw)
New research directions will lead to fundamental changes in the design of future WiFi networks. However, with an explosion of wireless mobile applications and services, there are still some challenges on the spectrum crisis and high... more
New research directions will lead to fundamental changes in the design of future WiFi networks. However, with an explosion of wireless mobile applications and services, there are still some challenges on the spectrum crisis and high energy consumption. Wireless system designers have been facing the continuously increasing demand for high data rates and spectrum sharing required by new wireless applications and therefore have started research on future WiFi wireless technologies that are expected to be deployed beyond 2020. In this article we propose WiFi key technologies and there prospective: WiFi CERTIFIED TM ac and Wi Fi CERTIFIED passpoint TM. Also represent super WiFi such as WiGig solution, White Fi, HetNets and Cognitive Fi. Future applications and services facing these potential technologies are also discussed.
Modern processors are capable of working at a very high frequency with the advent of technology scaling. However, memory limits the overall speed of operation. In order to take complete advantage of these modern high-performance... more
Modern processors are capable of working at a very high frequency with the advent of technology scaling. However, memory limits the overall speed of operation. In order to take complete advantage of these modern high-performance processors, it is essential to improve the data transfer rates in the memory. As per open NAND flash interface (ONFI) standard, the current data rate is around 800MBps. Between every successive ONFI standard, a 100% improvement in data rate has been observed. By extrapolating the existing trend, the data rate of next generation of ONFI can be about 1600MBps. This project aims at achieving 1333MBps to support an industrial need. Since the speed focused on Silicon is 1333MBps, the thesis strives to achieve 1400MBps in order to accommodate parasitics. At this high frequency, the channel response deteriorates because of dielectric loss and Inter-Symbol Interference (ISI). Additionally, crosstalk in parallel interface degrades the signal integrity. The technique ...