CS6009 NANO COMPUTING SYLLABUS FOR 8TH SEM CSE REGULATION 2013 - Anna University Internal marks 2018

CS6009 NANO COMPUTING SYLLABUS FOR 8TH SEM CSE REGULATION 2013

ANNA UNIVERSITY CSE SYLLABUS
 CS6009 NANO COMPUTING SYLLABUS
8TH SEM CSE SYLLABUS
REGULATION 2013
 CS6009 NANO COMPUTING SYLLABUS
 CS6009 NANO COMPUTING SYLLABUS
OBJECTIVES:
The student should be made to:
-> Learn nano computing challenges.
-> Be familiar with the imperfections.
-> Be exposed to reliability evaluation strategies.
-> Learn nano scale quantum computing.
-> Understand Molecular Computing and Optimal Computing.

UNIT I NANOCOMPUTING-PROSPECTS AND CHALLENGES
Introduction - History of Computing - Nanocomputing - Quantum Computers – Nanocomputing Technologies - Nano Information Processing - Prospects and Challenges -  Physics of Nanocomputing : Digital Signals and Gates - Silicon Nanoelectronics - Carbon Nanotube Electronics - Carbon Nanotube Field-effect Transistors – Nanolithography.

UNIT II NANOCOMPUTING WITH IMPERFECTIONS
Introduction - Nanocomputing in the Presence of Defects and Faults - Defect Tolerance -  Towards Quadrillion Transistor Logic Systems.

UNIT III RELIABILITY OF NANOCOMPUTING
Markov Random Fields - Reliability Evaluation Strategies - NANOLAB - NANOPRISM - Reliable Manufacturing and Behavior from Law of Large Numbers.

UNIT IV NANOSCALE QUANTUM COMPUTING
Quantum Computers - Hardware Challenges to Large Quantum Computers - Fabrication, Test, and Architectural Challenges - Quantum-dot Cellular Automata (QCA) - Computing with QCA - QCA Clocking - QCA Design Rules.

UNIT V QCADESIGNER SOFTWARE AND QCA IMPLEMENTATION
Basic QCA Circuits using QCA Designer - QCA Implementation - Molecular and Optical Computing: Molecular Computing - Optimal Computing - Ultrafast Pulse Shaping and Tb/sec Data Speeds.

TOTAL: 45 PERIODS

OUTCOMES:

Upon completion of the course, the student should be able to:
-> Discuss nano computing challenges.
-> Handle the imperfections.
-> Apply reliability evaluation strategies.
-> Use nano scale quantum computing.
-> Utilize Molecular Computing and Optimal Computing.

TEXT BOOK:

1. Sahni V. and Goswami D., Nano Computing, McGraw Hill Education Asia Ltd. (2008), ISBN (13): 978007024892.

REFERNCES:
1. Sandeep K. Shukla and R. Iris Bahar., Nano, Quantum and Molecular Computing, Kluwer Academic Publishers 2004, ISBN: 1402080670.
2. Sahni V, Quantum Computing, McGraw Hill Education Asia Ltd. 2007.
3. Jean-Baptiste Waldner, Nanocomputers and Swarm Intelligence, John Wiley & Sons, Inc. 2008, ISBN (13): 978-1848210097.

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