International Center on Design for Nanotechnology Workshop August, 2006 Hangzhou, Zhejiang, P. R. China

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1 Challenges and opportunities for Designs in Nanotechnologies International Center on Design for Nanotechnology Workshop August, 2006 Hangzhou, Zhejiang, P. R. China Sankar Basu Program Director Computing & Communications Foundations Division Phone:

2 What is nanotechnology? Nano means one billionth. Nanotechnology is moving around individual atoms to create lighter and stronger materials, tiny machines and small computers Average human hair is around 50,000 nanometers wide Nanometer: Meter ~ Inch: Half the distance around the Equator A molecule of DNA is only 2.5 nanometers wide Take one millimeter and divide it into 1,000 pieces. Then take one of those pieces and divide it into 1,000 pieces. One of these pieces is a nanometer long 1.6 Millimeter

3 Nanotechnology: an Interdisciplinary Undertaking Size of structure 0.1 m 1 cm Examples of Size Tools, Pens, --- Wire, Screws, NANO MICRO MACRO 1 mm 0.1 mm 10 μm 1 μm 0.1 μm 10 nm 1 nm 0.1 nm Bottom up Top down System Creation Utilization of Biological principles Physical laws And Chemical properties Fibre Glass Optics, Microprobes Thick Film, Microsensors Hair, Skin Bacteria, CD-bits 64Mb-256Mb-Chip Thickness of Gold foil, G bit-chip Protein Nanoparticels, width Of DNA Molecule/Fullerenes Atom Size Year

4 National Nanotechnology (NNI) Initiative Create materials, devices and systems with fundamentally new properties (because of their small structure) at atomic, molecular levels in the length scale of approximately nm range.» 10 Year vision, 5 years into the program» 16 US federal agencies involved» Significant impact on microelectronics expected in the long run

5 National Nanotechnology Infrastructure Network (NNIN) 100 nm thick shaft 1 µ m t hick mass loading UW Stanford UCSB UNM UT-Austin Cornell Minnesota Michigan PSU NCSU Harvard Howard Georgia Tech An integrated national network of user facilities providing researchers open access to resources, instrumentation and expertise in all domains of nanoscale science, engineering and technology Single Electron Spin Detection using Magnetic Resonance Force Microscopy, Rugar et al., Nature 430, July (2004) Cornell U. Stanford U. U. of Michigan Georgia Institute of Technology U. of Washington Pennsylvania State U. U. of California- Santa Barbara U. of Minnesota U. of New Mexico U. of Texas Austin Harvard U. Howard U. North Carolina State U.

6 Why do we worry about nanocomputing? Major productivity gains in Global economy has been driven by information technology in which microelectronics industry has played a major role in the background. $100B US business of which approximately $4B is design (including CAD) A A technological slowdown may cause a severe downturn in US as well as global economy. Source: Securing the future: etc. National Academy press, 2003.

7 What is the Problem? As devices become smaller approaching the atomic scale new physical phenomena begins to play a role (new technology) bottom driven As billions of transistors are put in a chip new methodologies for robust design verification etc., become imperative (complexity) top driven

8 Novel Building Blocks Carbon nano-tubes (CNT) as transistors, inteconnects Single Electron Transistors (SET) Non-charge based devices (spin/photonic devices) Quantum dots & QCAs Molecular devices Still others, FinFETs, RTDs,.

9 Some Projections Conventional Si - CMOS scaling will continue for the next years Heterogeneous new technologies will begin to be integrated into Si platforms by 2015 Novel nanotech devices needed beyond Compatability with CMOS will leverage production of non-cmos nano-devices Considerable lead time needed

10 Concerns: Will research in nanotechnology lead to the development of more and more fascinating devices that we do not know how to use? Can/should the field of nanoelectronics change to one in which the usage models drive device research?

11 Three Fundamental Questions How will we produce reliable, predictable, systems from unreliable components with unpredictable behavior? How will current or new applications use the huge numbers of devices made available through nanoelectronics? How must we modify and improve our design tools and methodologies to accommodate terascale designs, nanoscale devices, and radical new ways of computing?

12 More questions Are there revolutionary approaches to parallelism that are more suitable to nanoscale electronics, besides the tried and true parallel computers of the past? What kinds of defect/fault tolerance, testing and verification are suitable for nanoelectronics, besides the traditional ones? Can computational neuroscience and brain architecture provide us an inspiration for nanoarchitecture?

13 Emerging Architectures Departure from von Neumann architecture warranted How can use massive parallelism offered by preponderance of tiny devices? Asynchronous (GALS)? Reconfigurable, self-healing? Cross-bar and FPGA-like? Hybrid technologies CMOS + nanowires (e.g., CMOL)? Neuromorphic, CNN- like?

14 CAD Tools for New Technologies Understanding of the computing demands that models place on tools as well as the physics Tools that work with multilevel, multiscale, models Hybrid, heterogeneous, hierarchical design tools Alternate tools and tool flows matched to new technologies and new computational paradigms New tools oriented to atomic scale issues Design tools comprehending extreme heterogeneity Design tools which understand thermal issues of design choices at the nanoscale Tools for Reliable Design» Fault tolerant insertion through architectural synthesis» Explore connection between defect testing and reconfiguration

15 Success in the SNB Era Requires Cooperation at All Levels Systems Architectures Vdd M4 M5 Basic blocks Vin+ Vout+ M19 M18 Vb3 M17 M16 M15 M14 Vcm Vout M6 M7 M1 M2 Vin- M8 M9 Vout+ Vb2 M13 M12 M10 M3 M11 Vb1 Vss Fundamental circuits Devices Materials & structures

16 Epilogue It took 50+ years for transistors to make a real difference in computing. We are at the beginning of the age of nanoscale computing Exponential progress is manifested today in many aspects of scientific endeavor - the most impactful of which is bionano technology, which has the potential to change our lives for ever We live in the most interesting of all times, and are probably at the cusp of a technological revolution

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