Some experimental results on placement techniques
Maurice Hanan, Peter K. Wolff, et al.
DAC 1976
We are inspired by the beauty and simplicity of self-organizing materials and the promise they hold for enabling continued improvements in semiconductor technology. Self assembly is the spontaneous arrangement of individual elements into regular patterns; under suitable conditions, certain Materials self organize into useful nanometer-scale patterns of importance to high-performance microelectronics applications. Polymer self assembly is a nontraditional approach to patterning integrated circuit elements at dimensions and densities inaccessible to traditional lithography methods. We review here our efforts in IBM to develop and integrate self-assembly processes as high-resolution patterning alternatives and to demonstrate targeted applications in semiconductor device fabrication. We also provide a framework for understanding key requirements for the adoption of polymer self-assembly processes into semiconductor technology, as well as a discussion of the ultimate dimensional scalability of the technique. © Copyright 2007 by International Business Machines Corporation.
Maurice Hanan, Peter K. Wolff, et al.
DAC 1976
Inbal Ronen, Elad Shahar, et al.
SIGIR 2009
S. Sattanathan, N.C. Narendra, et al.
CONTEXT 2005
Sabine Deligne, Ellen Eide, et al.
INTERSPEECH - Eurospeech 2001