The 26th International Conference on Microelectronic Test Structures will be held at Osaka<br>University Nakanoshima Center, Osaka, Japan, bringing together designers and users of test<br>structures to discuss recent developments and future directions. The conference will be held on<br>March 26–28, 2013, preceded by a one–day Tutorial Short Course on Microelectronic Test Structures<br>on March 25. There will be an equipment exhibition relating to test structure measurements. Original<br>papers are solicited presenting new developments in test structures, as well as their implementation<br>and/or application, related to silicon, semiconductors, nanotechnology and MEMS. A Best Paper<br>award will be presented by the Technical Program Committee. The conference will be held in<br>cooperation with the Institute of Electronics, Information and Communication Engineers and, the<br>Japan Society of Applied Physics, and will be sponsored by the IEEE Electron Devices Society, and<br>the Association for Promotion of Electrical, Electronic and Information Engineering.<br>Suggested topics include (but are not limited to):<br>Material and Process Characterization: Evaluation of wafer start materials (Si, SiGe, strained<br>silicon, SOI, III–V, II–VI, etc.), dielectrics (high–k gate, low–k interconnect), homoepitaxial and<br>heteroepitaxial layers. Resistivity, mobility, stress, contact resistance, dielectric, and interconnect<br>measurements.<br>Replicated Feature Metrology: Electrical and non–electrical characterization of level–to–level<br>registration, feature placement, critical dimension, mask and reticle process control.<br>Manufacturing of Integrated Circuits and MEMS: Evaluation of individual and groups of<br>integrated circuits, device and MEMS process steps and elements: transistors, diodes, mechanical<br>structures, device isolation, memory cells and interconnect. Assessment of MMICs, RF components,<br>3D integration and multi chip packages.<br>MEMS, NEMS, and Microfluidics: Test structures and methods for evaluating electro–mechanical<br>devices, such as actuators, sensors, switches, and microfluidic devices.<br>Large Area Electronics and Emerging Devices: Test structures for evaluating displays, printed /<br>flexible devices, power devices, photovoltaics, as well as emerging devices, such as organic /<br>oxide–based / biomolecular / spintronic devices, ReRAMs, nano–structures, and related materials.<br>Device and Circuit Modeling, Parameter Extraction: Model parameter extraction, RF device<br>modeling, de–embedding, pulsed measurements, DC / AC / high frequency measurement techniques<br>and applications.<br>Reliability Test Structures: Test structures and methods for transistor / thin film / dielectric /<br>interconnect reliability evaluation, quality assurance, thermal monitoring and analysis, accelerated<br>wafer level tests, wafer level burn–in, and reliability prediction.<br>Matching and Variability Test Structures: Mismatch / variability characterization and modeling<br>of components (transistors, resistors, capacitors, inductors, mechanical components) and circuits.<br>Technology R&D, Integration, and DFM: Test structures for FEOL or BEOL evaluation, design<br>rule determination, process uniformity and worst–case analysis, assessment of integration and new<br>technologies. Calibration of DFM models such as lithography, OPC, CMP, or parametric variation.<br>Evaluation and optimization of standard cell macros and other product circuits.<br>Yield Enhancement and Production Process Control: Yield enhancement structures and methods,<br>yield modeling, statistical process control, defect estimation structures and methods, failure<br>identification and characterization, many–component / matrix test circuitry for technology assessment,<br>evaluation of design–manufacturing interactions (DFY).<br>Test Structure Design Methods: Design flows for automated design, verification strategies, design<br>for analysis, parameterized design, and related design issues.<br>Test Structure Utilization Strategy: Test equipment, probing and programmable testing for process<br>diagnostics, test throughput optimization, database and data analysis methods, statistical data<br>analysis, expert systems, and related techniques.<br>Authors are asked to submit an abstract of up to four pages in PDF format (font–embedded). The first<br>cover page must consist of a title, a 50–words summary, author’s name, the full address, fax number<br>and e–mail address of the lead author, and author preference for oral or poster session presentation, if<br>any. The body of the abstract should be of three pages or less consisting of one page text (typically<br>800 to 1000 words) followed by up to two pages containing major figures and tables. Please visit the<br>ICMTS official web site http://www.see.ed.ac.uk/ICMTS/ for paper submission.<br>The selection process will be based on the technical merit and will be highly weighted in favor of<br>papers that have a high test structure content, include measurement data and analysis together with<br>illustrations of the test structures involved. Abstracts received by September 21, 2012 will be<br>considered for the conference. A notice of paper acceptance with instructions for manuscript<br>preparation for the conference proceedings will be sent to the authors of the papers selected for<br>presentation by early November, 2012. The deadline for the final paper will be January 14, 2013.
Abbrevation
ICMTS
City
Osaka
Country
Japan
Deadline Paper
Start Date
End Date
Abstract