论文信息 - A study on /spl Rfr//sup m//spl rarr//spl Rfr//sup 1/ maps: application to a 0.16-/spl mu/m via etch process endpoint

A study on /spl Rfr//sup m//spl rarr//spl Rfr//sup 1/ maps: application to a 0.16-/spl mu/m via etch process endpoint

We introduce several endpoint algorithms that map real-time, in situ process signals to a via etch process endpoint. Some of the mathematical techniques include: Andrews plots (Fourier series), Chebyshev polynomials, Legendre polynomials, wavelets, singular value decomposition, and neural networks. We show that many of the techniques work to varying degrees of success for a via etch process on 0.16-/spl mu/m technology. Based on our observations from many lots of manufacturing wafers and experiments with all the endpoint methods, we believe the Chebyshev polynomial area-time curves perform the best, but this statement should be taken with a caveat. It is really best to empirically test the various methods for a given etch process to deduce the endpoint algorithm for that application.

Edward A. Rietman | E. Rietman | N. Layadi | N. Layadi

[1] D. F. Andrews,et al. PLOTS OF HIGH-DIMENSIONAL DATA , 1972 .

[2] B. Noble. Applied Linear Algebra , 1969 .

[3] Ingrid Daubechies,et al. Ten Lectures on Wavelets , 1992 .

[4] Kurt Wiesenfeld,et al. The Benefits of Background Noise , 1995 .

[5] Richard W. Hamming,et al. Numerical methods for scientists and engineers (2nd ed.) , 1986 .

[6] Edward A. Rietman,et al. Dynamic images of plasma processes: Use of Fourier blobs for endpoint detection during plasma etching of patterned wafers , 1998 .

[7] M.H. Hassoun,et al. Fundamentals of Artificial Neural Networks , 1996, Proceedings of the IEEE.

[8] Mary L. Boas,et al. Mathematical Methods in the Physical Sciences , 1968 .

[9] P. Embrechts,et al. Variations of Andrews' plots , 1991 .

[10] Herman Chernoff,et al. The Use of Faces to Represent Points in k- Dimensional Space Graphically , 1973 .