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Ppt of nanocomputing

This document discusses nanocomputing and quantum computing. It covers architectures like quantum dot cellular automata and crossbar switching. It discusses how nanocomputers would work using quantum states and spins. Applications of quantum computing include breaking codes and optimization problems. Challenges include maintaining the fragile quantum states long enough to perform computations. Overall, nanoscale quantum computing could revolutionize computing by massively increasing computing power.

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Presented by Shweta Rathi to Dr. Sanjay Bhargav, Roll No. 35.

Nanocomputing includes definitions, architectures, Moore's law, quantum mechanics, applications, and risks.

Nanocomputing involves components utilizing nanoscale devices.

New circuits and architectures are driven by innovations in device principles and processing technologies, including 3D integration and quantum computing.

Quantum-dot CA utilizes arrays of quantum dots where electron arrangements in a Boolean logic framework convey computational output.

Crossbar switching architecture incorporates molecules at wire intersections, enabling computational functions.

Emerging technologies integrate microprocessors and molecular materials, focusing on mixed technology solutions.

Moore's law predicts transistor growth in silicon chips, expanding from 40 million to 5 billion by 2012, predicting a 1-nanometer feature size by 2020.

Nanocomputers use atomic quantum states for data storage; research includes electron transistors and quantum dots.

Quantum devices use qubits, modified quantum wave functions, sensitive to their environment for computation.

Depicts quantum computing devices.

Quantum computers provide exponential speed advantages over supercomputers, able to solve complex problems faster.

Potential applications include breaking ciphers, statistical analysis, and solving optimization problems among others.

Long stability of qubit states is critical for computation completion, with few problems showcasing quantum advantages.

Scientists are developing circuits for nano-scale electronics, focusing on carbon nanotube transistors and cooling solutions for ultracapacitors.

Nanobased quantum computers promise to revolutionize computing by enhancing power and scalability through advanced technologies.

A list of external sources and URLs for additional research on nanotechnology and nanocomputing.

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Submitted To : Submitted By: Dr. Sanjay Bhargav Shweta Rathi Roll No. 35
 What is nanocomputing  Architectures  Moore’s law  How nanocomputer works  Application of nanocomputing  Quantum Mechanics  Quantum vs Classical Computing  Prospects Of quantum computing  Risks in nanocomputing  Conclusion
Nanocomputing describes those componants that uses extremely small or nanoscale devices.
 Two forces driving the need for new circuits design and architectures.  Invention of devices and technologies that have completly different physical principles from FET.  New processing technologies combining CMOS functions with other functions.  3D Integration Quantam Cell Automata Quantum Computing
 Array of quantum dots.  An extension of the CNN concept is that of quantum-dot cellular automata (QCA). This architecture uses arrangements of single electrons that communicate with each other by Coulomb repulsion over large arrays.  The arrangement of electrons at the edges provides the computational output. The electron arrangements of QCA are controlled by an external clock and operate according to the rules of Boolean logic.
Another potential architecture is that of "crossbar switching" in which molecules are placed at the intersections of nanometer-scale wires. These molecules provide coupling between the wires and provide computing functionality.
 Physical integrate emerging devices that have different technology.  Microprocessors with ASCIs etc.  Molecular with plastic,or quantam conductors . CMOS with dissimilar material systems Reduce global inteconnect Enables mixed technology solution..  It is associated with the need to integrate dissimilar technologies on a common platform to deliver an optimum info processing solution.
 According to moore’s law,the no of transistors that will fit on a silicon chip doubles every 18 months.  Presently microprocessors have more than 40 million transistors; by 2012 they could have up to 5 billions.  By the year 2020 the trend line of moore’s law states that there should be a 1 nanometer feature size…..
 Nanocomputer would work by storing data in the form of atomic quantum states or spin..(SEM and quantum dots)  There are several methods of nanoelectronic data storage currently being researched.Among the most promising are set electron transistors and quantum dots.  All of these devices function based upon the principles of quantum mechanics…
 Quantum devices store info. By using the phase of a quantum wave function c/d a qubit.  Qubit are sensitive to external environment  Qubits are very small properties being made of atoms,ions,photons or electrons.  Can control this entanglement using physical gates.  To perform a useful function,we can manipulate wave functions and then read the result.  In general quantum 2 state system ,c/d a quantum bit or qubit.
 Quantum computer  Displays
 Quantum computer would be exponentialy faster than modern computer. (e.g. A supercomputer trying to find one phone number in a database of all the world's phone books would take a month, Chuang says. A quantum computer could do it in 27 minutes.)  It would break the most sophisticated code.  Its fast enough to do computer simulations for nuclear explosions.
Quantum computers might prove especially useful in the following applications :  Breaking ciphers  Statistical analysis  Factoring large numbers  Solving problems in theoretical physics  Solving optimization problems in many variables.
 It requires that the state of qubits be mainted for a long time for a computation to complete.  Only few problems have been exhibited for which quntum mechanics offers an advantage.
 Electrons scientists need to develop new circuits to cope with nano circuits working with carbon nanotubes.  The transistors will be 100 times smaller than the thickness of human hair.  The ultracapacitors produces high heat till today there is no remedy given to cool it.
Nanobased quantum computers would revolutionize computing and increse their computing power tremendously. It covers the underlying physics ,reliability and nanoscale quantum,optical and molecular computing.
 http://www.mitre.org/tech/nanotech/ourwor k/nano_papers.html#nanoelectronics  http://www.nanocare-ag.com/produkte  http://www.nanotechproject.org/inventories/ consumer/browse/products/canola_active_oil  http://nanocomputer.flyingelectron.com  http://forum.s1mp3.org/viewforum.php  http://www.nanonewsnet.com  http://en.wikipedia.org/wiki/Nanocomputer

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Ppt of nanocomputing

  • 1.
    Submitted To : Submitted By: Dr. Sanjay Bhargav Shweta Rathi Roll No. 35
  • 2.
     What isnanocomputing  Architectures  Moore’s law  How nanocomputer works  Application of nanocomputing  Quantum Mechanics  Quantum vs Classical Computing  Prospects Of quantum computing  Risks in nanocomputing  Conclusion
  • 3.
    Nanocomputing describes those componants thatuses extremely small or nanoscale devices.
  • 4.
     Two forcesdriving the need for new circuits design and architectures.  Invention of devices and technologies that have completly different physical principles from FET.  New processing technologies combining CMOS functions with other functions.  3D Integration Quantam Cell Automata Quantum Computing
  • 5.
     Array ofquantum dots.  An extension of the CNN concept is that of quantum-dot cellular automata (QCA). This architecture uses arrangements of single electrons that communicate with each other by Coulomb repulsion over large arrays.  The arrangement of electrons at the edges provides the computational output. The electron arrangements of QCA are controlled by an external clock and operate according to the rules of Boolean logic.
  • 6.
    Another potential architectureis that of "crossbar switching" in which molecules are placed at the intersections of nanometer-scale wires. These molecules provide coupling between the wires and provide computing functionality.
  • 7.
     Physical integrate emerging devices that have different technology.  Microprocessors with ASCIs etc.  Molecular with plastic,or quantam conductors . CMOS with dissimilar material systems Reduce global inteconnect Enables mixed technology solution..  It is associated with the need to integrate dissimilar technologies on a common platform to deliver an optimum info processing solution.
  • 8.
    According to moore’s law,the no of transistors that will fit on a silicon chip doubles every 18 months.  Presently microprocessors have more than 40 million transistors; by 2012 they could have up to 5 billions.  By the year 2020 the trend line of moore’s law states that there should be a 1 nanometer feature size…..
  • 10.
     Nanocomputer would work by storing data in the form of atomic quantum states or spin..(SEM and quantum dots)  There are several methods of nanoelectronic data storage currently being researched.Among the most promising are set electron transistors and quantum dots.  All of these devices function based upon the principles of quantum mechanics…
  • 11.
     Quantum devicesstore info. By using the phase of a quantum wave function c/d a qubit.  Qubit are sensitive to external environment  Qubits are very small properties being made of atoms,ions,photons or electrons.  Can control this entanglement using physical gates.  To perform a useful function,we can manipulate wave functions and then read the result.  In general quantum 2 state system ,c/d a quantum bit or qubit.
  • 12.
  • 13.
    Quantum computer would be exponentialy faster than modern computer. (e.g. A supercomputer trying to find one phone number in a database of all the world's phone books would take a month, Chuang says. A quantum computer could do it in 27 minutes.)  It would break the most sophisticated code.  Its fast enough to do computer simulations for nuclear explosions.
  • 14.
    Quantum computers mightprove especially useful in the following applications :  Breaking ciphers  Statistical analysis  Factoring large numbers  Solving problems in theoretical physics  Solving optimization problems in many variables.
  • 15.
    It requires that the state of qubits be mainted for a long time for a computation to complete.  Only few problems have been exhibited for which quntum mechanics offers an advantage.
  • 16.
     Electrons scientistsneed to develop new circuits to cope with nano circuits working with carbon nanotubes.  The transistors will be 100 times smaller than the thickness of human hair.  The ultracapacitors produces high heat till today there is no remedy given to cool it.
  • 17.
    Nanobased quantum computerswould revolutionize computing and increse their computing power tremendously. It covers the underlying physics ,reliability and nanoscale quantum,optical and molecular computing.
  • 20.
    http://www.mitre.org/tech/nanotech/ourwor k/nano_papers.html#nanoelectronics  http://www.nanocare-ag.com/produkte  http://www.nanotechproject.org/inventories/ consumer/browse/products/canola_active_oil  http://nanocomputer.flyingelectron.com  http://forum.s1mp3.org/viewforum.php  http://www.nanonewsnet.com  http://en.wikipedia.org/wiki/Nanocomputer