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Heterostructure Silicon (including Lecture-Tutorial-Laboratory Modules)

Heterostructure Silicon (including Lecture-Tutorial-Laboratory Modules). Dept. of Electronics & ECE Indian Institute of Technology-Kharagpur. First R & D Centre in Information and Communication Technology (ICT) Development among IITs and Universities in India

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Heterostructure Silicon (including Lecture-Tutorial-Laboratory Modules)

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  1. Heterostructure Silicon(including Lecture-Tutorial-Laboratory Modules) Dept. of Electronics & ECE Indian Institute of Technology-Kharagpur First R & D Centre in Information and Communication Technology (ICT) Development among IITs and Universities in India PI: Prof. C. K Maiti, Co-PI: Prof A. S Dhar, and Prof A. Halder

  2. Research & Development focus • To develop e-learning materials for Heterostructure Silicon Course (including tutorial and laboratory modules) for final year undergraduates and postgraduate students and implement online simulation laboratory — real time simulation laboratory accessed through the Internet which can expand the range of simulation experiments in Heterostructure Silicon, transmit online instructions and study materials for anyone, anywhere and anytime. • development of e-content for an integrated teaching environment which allows for the provision of online live lectures (a 40-lecture module with tutorials) and a laboratory (10-12 simulation experiments) session for geographically dispersed students.

  3. Steps for Development of RealTIME Measurement-based Internet Laboratory Design of Experiment Remote Operation of the Instruments (via LabVIEW, IC/CV lite, Easy Expert, VEE etc) Conversion to Web Application Launching on the Internet

  4. Total Budget Outlay (Rs. in lakhs) Years Head 1st 2nd 3rd Total Capital Equipment Rs. 30.00 - - 30.00 FE Comp. Consumable stores Rs. 10.00 10.00 10.00 30.00 Software/License Fee Duty on import (if any) Rs. nil nil nil nil Manpower (JPA/RS/Eqv.) Rs. 7.00 8.00 9.00 24.00 Travel & Training Rs. 3.00 4.00 5.00 12.00 Contingencies/Accessories Rs. 10.00 13.00 16.00 39.00 Grand Total (FE Comp.) 60.00 35.00 40.00 135.00 Grand Total : Rs. 135.00 lakhs

  5. Course Description Text Book: C. K. Maiti, S. Chattopadhyay, and L. K. Bera, "Strained-Si Heterostructure Field-Effect Devices", CRC Press(Taylor and Francis), USA, 2007. 40-50 lectures including tutorial based on the following contents: Introduction Strain Engineering in Microelectronics Stress Induced During Manufacturing Substrate Engineering Uniaxial vs. Biaxial Strain Engineering Heteroepitaxy and Strain Control Virtual Substrates Hybrid Substrates

  6. Substrate-Induced Strain Engineering Process-Induced Stress Engineering Global vs. Local Strain Substrate-Induced Strain Characterization of Strained Layers Gate Dielectrics on Engineered Substrates Kinetics: Oxidation of Si1-xGex Layers Oxidation of Strained-Si Layers Rapid Thermal Oxidation Plasma Nitridation of Strained-Si High-k GateDielectrics on Strained-Si Nonclassical CMOS Structures Electronic Properties of Engineered Substrates Orientation-Dependent Mobility Engineering Energy Gap and Band Structure Electron Mobility Hole Mobility FieldDependence

  7. Doping Dependence Carrier Lifetime Heterostructure Field-Effect Devices SiGe/SiGeC:Material Parameters SiGe Hetero-FETs: Structures andOperation SiGe p-MOSFETs on SOI SiGeC Hetero-FETs SiGe-based HEMTs Design Issues Strained-Si Technology: Process Integration Uniaxial Stress: Process Flow Biaxial Strain: Process Flow Strain-Engineered Hetero-FETs: Modeling and Simulation Simulation of Hetero-FETs Strained-SiMaterial Parameters forModeling Simulation of Strained-Si n-MOSFETs Characterization of Strained-Si Hetero-FETs SPICE Parameter Extraction

  8. VLSI Engineering Laboratory Module will consist of the following experiments • Doping Profile Determination • Bipolar Device Characterization • MOS Capacitor Characterization • MOSFET Characterization • High Frequency Characteristics of BJT • MOSFET SPICE Parameter Extraction • Bipolar Transistor SPICE Parameter Extraction • 1/f Noise Characterization in Transistors • Low Temperature Characterization of Transistors • LNA Characterization • Noise Modeling in MOSFETs • Cutoff Frequency Determination

  9. Why Heterostructure Silicon ?March of Technology • MOORE’S LAW : Transistor density on integrated circuits doubles about every two years – Intel co-founder Gordon E. Moore (1965) • Microelectronic silicon computer “chips” have grown from a single transistor in the 1950s to hundreds of millions of transistors per chip on today’s microprocessor and memory devices

  10. March of Technology • Geometric scaling of transistors : Making Moore’s prediction true • 90-nm technology → 65-nm technology → 45-nm technology → 32-nm technology HALT IN MARCH ? • Performance Degradation for smaller gate lengths • Physical limits in scaling

  11. March of TechnologyHeterostructure Engineering • Heterostructure Engineering: Will ensure Moore’s law continues to hold true • Novel solution to enhance device performance by inherently increasing the mobility of the charge carriers by straining the MOSFET channel

  12. Strained-Si Epitaxial Layers 2-D lattice view of Tensile strained-Si film Vegard’s law: aSiGe(x)=aSi(1-x)+aGe(x) x= Ge fraction aSi=5.43 Å & aGe=5.66 Å

  13. Band Structure of Tensile Strained-Si (b) Band structure of bulk Ge (a) Band structure of bulk Si • Band gap: (c)

  14. What is Technology CAD (TCAD)Rising Technological Complexity Gate insulator •SiO2/HiK •Leakage •Trapping Gate •Work function •Depletion Channel •Mobility Raised S/D •Material •Activation •Diffusion S/D extension •Activation •Junction (USJ) Device Scaling = More Simulation Needed Application: Design, analyze and optimize semiconductor technologies and devices

  15. Compact multi-level technology/ transistor/subsystem TCAD modeling flow

  16. Advanced TCAD Simulation • Process Simulation Updates • Device Simulation Updates • BSIM4 Model Extraction • Process Optimization using process compact model (PCM) • Sensitivity, uncertainty & yield analysis (Yield Management)

  17. TCAD Optimization and Manufacturability TCAD Simulations PCM Generate new data Manufacturing Visual querying & Visual optimization

  18. Marked process conditions indicate low sensitivity of the device characteristics to the variations in corresponding Set of process (RED marked) Sensitivity, uncertainty & yield analysis Determine the most stable process condition

  19. Yield analysis Devicespec limits

  20. Some Strained-Engineered Devices

  21. Some available facilitiesHardware facilities ELVIS Setup NetLAB Server

  22. Network Analyzer Noise Figure Analyzer Spectrum Analyzer DC Probe station

  23. AFM Setup Agilent Semiconductor Test Analyzer

  24. Software facilities • Instrument Control software LabVIEW, VEE, VSA, IC-CAP, IC/C-V light, EasyExpert, Microsoft Inst., etc. • TCAD software SILVACO, Sentaurus, MEDICI, TSupreme, Taurus, Monte Carlo, HSPICE, Nanosim, PCM studio, PARAMOS, etc.

  25. Requirements: List of Equipment • Four Probe Resistivity Meter (25 lakhs) • Mask Aligner (75 lakhs) • Clean Air station (20 lakhs) • Rapid Thermal Annealing System (45 lakhs) • Semiconductor Test System (35 lakhs) • Microwave/ECR Plasma System (55 lakhs) • DC/RF Sputtering System (45 lakhs) • Probe station (50 lakhs) • Programmable power supply (20 Lakhs) • Thickness Measurement system (30 lakhs) • AFM/STM (30 lakhs) • Spectrum analyzer (10 Lakhs) • LCR Meter (10 lakhs) • Semiconductor Parameter Analyzer (50 lakhs) • Noise Figure Analyzer (55 lakhs) • Network Analyzer up to 26 GHz with calibration kits (200 lakhs) • Parameter extraction and device/process modeling software tools (45 lakhs)

  26. Achievement in ICT Area • NetLAB based Measurement and Analysis • First On Line Laboratory Demonstration at Andhra University (AU) • First short term course on Information Communication Technology (ICT) on Hardware Laboratory at IIT-Kharagpur • Arranged several short term courses on Technology CAD (TCAD) at IIT-Kharagpur • Arranged several short term courses on Technology CAD (TCAD) outside IIT-Kharagpur

  27. Book Published 1. Applications of Silicon-Germanium Heterostructure Devices, Institute of Physics Publishing (IOP), UK, 2001. 2. Silicon Heterostructures: Materials and Devices, Institute of Electrical Engineers (IEE), UK, 2001. 3. Selected Works of Professor Herbert Kroemer, Edited, World Scientific, Singapore 2008. 4. Strained-Si Heterostructure Field-Effect Devices, CRC Press, London, 2007. 5. TCAD for Si, SiGe and GaAs Integrated Circuits, IET, UK, 2008.

  28. OUR Publications on INTERNET LABORATORY on MICROELECTRONICS • A. Maiti and S. S. Mahato, Online Semiconductor Device Characterization and Parameter Extraction Using World Wide Web, Proc. NCNTE, Feb. 29 – Mar. 01, pp.160-163, 2008. • A. Maiti and S. S. Mahato, Web-based Semiconductor Technology CAD (TCAD) Laboratory, 50th Intl. Symp. ELMAR-2008, Zadar, CROATIA, 10-12 September 2008. • A. Maiti and S. S. Mahato, Web-based Semiconductor Process and Device Simulation Laboratory, Proc. of ICEE2008, Intl. Conf. on Engineering Education, "New Challenges in Engineering Education and Research in the 21st Century", PÉCS-BUDAPEST, HUNGARY, JULY 27-31, 2008. • S. C. Pandey, A. Maiti, T. K. Maiti and C. K. Maiti, Online MOS Capacitor Characterization in LabVIEW Environment, International Journal of Online Engineering (iJOE), vol.5, pp.57-60, 2009. • A. Maiti, M. K. Hota, T. K. Maiti and C. K. Maiti, Online Microelectronics and VLSI Engineering Laboratory, International Workshop on Technology for Education, Bangalore, Aug 04-06, 2009.

  29. Currently Available Experiments via INTERNET from IIT-KHARAGPUR(RealTIME Online Measurement-based) • Gummel Plot of a BJT • Output Characteristics of a BJT • Threshold Voltage of a MOSFET • Output Characteristics of a MOSFET • MOSFET Parameter Extraction • BJT SPICE Parameter Extraction • Low Noise Amplifier Characterization • Surface Analysis using AFM/STM • Circuit Analysis Using NI-Elvis

  30. NetLAB Webpage

  31. Partner/USER Institutions Our Current Partners are VIT, Vellore NIST, Berhampur OUR ONLINE LABORATORY HAS BEEN USED and TESTED BY More Than 50 ENGINEERING COLLEGES and 10 UNIVERSITIES

  32. Short Term Course/Workshop AICTE/MHRD sponsored SUMMER SCHOOL at IIT KHARAGPUR May 17-23, 2009 Applications of ICT for Hardware Laboratory 52 participants from 40 Engineering Colleges

  33. List of Participating Institutions • VIT University, Vellore • NIST, Berhampur • West Bengal University of Technology, Kolkata • University of Calcutta • Inst. of Radiophysics and Electronics • North Bengal University, Siliguri • NIT, Durgapur • Bengal Engg. and Science University, Shibpur • Tezpur (Central) University, Tezpur

  34. IMPS College of Engg. and Technology, Malda • Gurgaon College of Engg., Haryana • Hi-Tech Institute of Technology, Khurda • National Institute of Technology, Warangal • SSN College of Engg., Tamilnadu • Synergy Institute of Engg. and Technology, Dhenkanal • Medi-caps Institute of Technology Management, Indore • Dr. BR Ambedkar National Institute of Technology, Punjab • Jaypee Univ. Of Information Tech., Solan, H.P. • Dronacharya College of Engg., Gurgaon, Haryana • CVR College of Engg., Hyderabad, A.P. • Sai Spurthi Institute of Technology, A.P. • Lingaya's Institute of Mgt and Technology, Faridabad

  35. Purushottam Institute of Engg. Tech., Rourkela, Orissa • National Institute of Science & Technology, Orissa • Hi-Tech Institute of Tech., Orissa • GLAITM, Mathura, U.P. • Dr. B. C. Roy Engg. College, Durgapur • Tradient Academy of Tech., Orissa • Modern Engg. & Management Studies, Orissa • GLA Institute of Tech. & Management, Mathura • Synergy Institute of Engg. & Tech., Orissa • ITER, Bhubaneswar • Synergy Institute of Engg. & Tech., Orissa • DRIEMS, Cuttack • Lingaya’s University, Faridabad • Birla Institute of Technology, Patna • Dr. Sivanthi Aditanar College of Engg., Tamilnadu

  36. PSN Group of Institutions, Tamilnadu • Orissa Engg. College, Bhubaneswar • JIET, Cuttack • Raajdhani Eng. College, Bhubaneswar • World Institute of Technology, Gurgaon • Dept. of Bio-Medical Engg., Andhra University • Andhra University College of Engg., Visakhapatnam • GITAM University, Visakhapatnam • Chaitanya college of Engg., Visakhapatnam • SRKR Engg. College, Visakhapatnam • Govt. Polytechnic, Bheemili • Sanketika Vidya Parishad Engg. College, Visakhapatnam • JNTU College of Engg., Hyderabad • National Engg. College, Tamilnadu • Institute of Technology and Management, Gurgaon

  37. Thank You

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