Molecular Electronics Materials, Devices and Applications

List of Figures. List of Tables. Part I General introduction Part II State of the Art 1. MOLECULAR ELECTRONICS MATERIALS. 1 Nanowires. 2 Molecular-gated semiconductor nanowire transistor. 3 Carbon nanotubes. 4 Nanotechnology and molecules. 2. MOLECULAR ELECTRONIC ARCHITECTURES. 1 Short overview on Artificial Neural Network. 2 Nanocell: The bottom-up approach. 3 Nanofabric: A programmable and defct-tolerant architecture. 4 Nanoscale FPGA 5 Micro-nano interface. 6 Neuromorphic architecture. 7 Molecular realization of Quantum Cellular Automata. 8 The molecular crossbar. 3. NON-VOLATILE MEMORY CELLS. 1 Short introduction. 2 Conventional non-volatile memory cells. 3 NAND and OR architectures. 4 Emerging non-volatile memories. 5 Memory cell based on nanotechnology. Part III Case study 4. MODELING OF THE MOLECULAR NWFET TRANSISTOR. 1 VHDL-AMS. 2 Modeling. 3 Simulation. 5. PRESENTATION OF THE MOLECULAR MEMORY CELL. 1 The molecular memory cell. 2 The simple memory cell. 3 Speed optimized modeling of the memory cell. 4 Conclusion and perspectives. 6. TECHNOLOGICAL DISPERSIONS TOLERANT ARCHITECTURES. 1 Architecture generation tool. 2 Architectures. 3 Conclusion and perspectives. Appendices. A Simulation results. 1 Raw data for method Reference. 2 Raw data for method Error Sensing. 3 Raw data for method Loop Error Sensing. 4 Raw data for method ECC H4/3b. 5 Raw data for method ECC H5/4b. 6 Raw data for method ECC H5/3b. B VHDL-AMS code examples. 1 VHDL-AMS source code of themodeling of amolecular-gated semiconductor nanowire transistor. 2 VHDL-AMS source code of themodeling of amolecular-gated semiconductor nanowire transistor. 3 VHDL-AMS source code example of a ECC memory state machine (H5/3b). 4 VHDL-AMS source code example: MyPackageH5/3b. References. Index.