ANNA UNIVERSITY CSE SYLLABUS
CS6009 NANO COMPUTING SYLLABUS
8TH SEM CSE SYLLABUS
REGULATION 2013
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.
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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