OVONIC UNIFIED MEMORY

SEMINAR ON OVONIC UNIFIED MEMORY : We now live in a world governed by different electronic equipment. Semiconductors form the basic elements modern electronics giving the brain and memory Products all around us in the washing machines super computers. semi-conductors in the array of transistors in each The transistor is a simple exchange of e 0 and 1 and Time often associated with there 10 million of which are very complex, smart chips, reliable semiconductor, which are small and cheap enough for the proliferation of products all around us. Identification of new materials has been and still is, main tools in the development of next generation semiconductors. Over the past 30 years, scaling of CMOS IC implacable technology to smaller dimensions led to the continuous introduction of micro complex system functions. However, this trend is likely to continue indefinitely beyond semiconductor technology roadmap. As the silicon technology material to reach the limit, and when we arrived at the end roadmap, an understanding of new search features role in identifying new materials to solve the corresponding technological requirements. If the ladder is to keep the 65 nm node and below, alternatives to CMOS models are needed to provide a path to device enlargement beyond the end of the road map. However, these Research emerging technologies face an uphill technology challenge. For digital applications, these challenges are the exponential growth of the leakage current (gate, channel, and source / drain junctions), short channel effects, etc, while for analog and RF applications, including the challenges are compatible linearity, low noise, power added efficiency and transistor correspondent. One of the basic approaches to handling this challenge by using new materials to build the next generation transistor.