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NRAM. CONTENT. INTRODUCTION WHY WE USE NRAM? PROPERTIES INTERNAL STRUCTURE STORAGE IN NRAM ADVANTAGES TO NRAM BENEFITS COMPETITIVE ADVANTAGES PROBLEM QUOTE. INTRODUCTION- COMPANY RAM CARBON NANOTUBES. NRAM. Nano -RAM is being developed by the Japan based company Nantero
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CONTENT INTRODUCTIONWHY WE USE NRAM?PROPERTIES INTERNAL STRUCTURE STORAGE IN NRAMADVANTAGES TO NRAMBENEFITSCOMPETITIVE ADVANTAGES PROBLEMQUOTE..
NRAM • Nano-RAM is being developed by the Japan based company Nantero • Dr. Thomas Rueckes, Nantero's Chief Technology Officer, uses carbon nanotubes as the active memory elements of NRAM • Dr. Rueckes uses nanotubes great conductivity to create clusters of cells to form NRAM chips
The Company • On the cutting-edge of nanotechnology • Developing next-generation semiconductor devices • Attempting to replace the traditional DRAM with NRAM • Every day devices: computers, cell phones, PDAs, MP3 players, digital cameras, etc.
RAM • Random Access Memory • RAM is a form of computer data storage • RAM is a volatile type memory • RAM can also be used as a much faster Hard Drive
Carbon Nanotubes • Carbon nanotubes are the strongest stiffest materials on earth • Metallic nanotubes can have an electrical current density more than 1,000 times greater than metals such as silver and copper. • Nanotube based transistors have been made that operate at room temperature and that are capable of digital switching using a single electron.
Properties • Members of the fullerene family • One Carbon Atom Thick • 100,000 times smaller than a human hair • Conductor of Electricity comparable to Copper • Stronger than Steel • Hard as a Diamond
Nanotube Random Access Memory Thomas Rueckes, Nantero, 2000
STORAGE IN NRAM NRAM works by balancing the on ridges of silicon. Under differing electric charges, the tubes can be physically swung into one or two positions representing one and zeros. Because the tubes are very small-under a thousands of time-this movement is very fast and needs very little power, and because the tubes are a thousand times conductive as copper it is very to sense to read back the data. Once in position the tubes stay there until a signal resets them.
Applied charge make CNT ribbons bend down to touch the substrate or bend up back to its original state. • Ribbon-up gives 'zero' and ribbon-down is 'one'.
Advantages to NRAM • NRAM chips can be much smaller that todays DRAM chips • NRAM is non-volatile • NRAM, unlike Flash RAM, can read/write with much less power. • NRAM can not be erased with magnets, radiation, even power failure will not corrupt data
Benefits • Speed • Storage Capacity • Compatibility • Energy Conserver • Unaffected by Environmental Forces
Competitive Advantages • Saves Money • Saves Time • Saves Energy
Problem • The distance between the crossed wires has to be controlled fairly precisely: one to two nanometers • Assemble and aligning a large number of these cross-wires. To make this pattern of nanotubes with precise control of distance is going to be the difficulty. • Not yet a reliable way to produce separate sets of metallic and semiconducting nanotubes.
Quote • NRAM is also unaffetced by strong magnetic fields and extreme temperature changes like hot and cold. add the fact that they are 100 times stronger than steel and much more conductive than copper, nanotubes are an interesting way of producing the specified results. NRAM is a wonderfull thing in theory, now all that is let is to wait and see. • It has more advantages over problems
