2009 MIT Professional Institute Short Courses taught by RLE Faculty

Organic, Molecular and Nanostructured Electronics - Physics and
Technology [6.17s]
June 8-12, 2009
Vladimir Bulovic, Marc A Baldo

Examine the use of organic thin films in active organic devices - including organic LEDs, solar cells, photodetectors, transistors, chemical sensors and memory cells. Then make your own active organic devices in the lab. A text will be provided.

High-Speed I/O Design Techniques [6.22s]
June 8-10, 2009
Vladimir Stojanovic

Explore the circuit and system design of equalized high-speed I/Os. Following an introduction to the basics, focus on different link equalization techniques, comparing them from a system perspective and from the performance of resulting circuit implementations. Course includes one day of hands-on lab experience.

Digital Communication Networks [6.20s]
July 20-24, 2009
Muriel Medard

Apply advanced design and performance evaluation techniques to digital networks. Study network protocols and algorithms. Cover link layer protocols, multiple access, network layer and routing, transport layer, TCP/IP, ATM, wireless, satellite, and optical networks.

Introduction to Network Coding [6.33s]
July 27-31, 2009
Muriel Medard

Network coding is a new area of networking, in which data is manipulated inside the network to increase throughput, reduce delay, and improve robustness. This field has recently found commercial applications in content distribution, peer-to-peer design, and enabling high-throughput wireless networks. The goal of this class is to provide participants with the theoretical and practical tools necessary not only to understand the field of network coding, but also to conduct independent, innovative work in the area. The curriculum reflects this mixture of theoretical foundations and practical approaches.

New course:

Nanostructure Fabrication [6.75s]
July 20-24, 2009
Karl Berggren, Henry Smith
Surveys methods of lithography, microscopy, and pattern transfer in the sub-100-nm to sub-10-nm domain for next-generation and beyond-next-generation nanostructure and nanodevice fabrication. Explains fundamental optics and materials science for processing at these lengths scales. Latest relevant research in the area is discussed and practical topics, relevant to in-the-lab work, are presented.