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2. X. Zhang and T. Kahveci. A New Approach for Alignment of Multiple Proteins.
Pacific Symposium on Biocomputing, Maui. 11: pp 339-350, 2006.
3. C. Grasso and C. Lee. Combining partial order alignment and progressive multiple
sequence alignment increases alignment speed and scalability to very large alignment
problems. Bioinformatics, 20(10): pp 1546-1545, 2004.
4. C. Lee, C. Grasso, and M. F. Sharlow. Multiple Sequence Alignment Using Partial
Order Graphs. Bioinformatics, Oxford, England, 18(3): 452-464, 2002.
5. Y. Ye and A. Godzik. Multiple flexible structure alignment using partial order graphs.
Bioinformatic, 21(10): pp 2362-2369, 2005.
6. M. M. Eshaghian-Wilner, L. Lau, S. Navab, and D. Shen. Graph formations of partial-
order multiple-sequence alignments using nano and micro-scale reconfigurable
meshes. In: Proceedings of the 2006 International Conference on Computer Design
CDES: pp 242-250, May 2006.
7. M. M. Eshaghian-Wilner, L. Lau, S. Navab, and D. Shen. Parallel graph formations of
partial-order multiple-sequence alignments using nano-, micro-, and multi-scale re-
configurable meshes. Submitted to the IEEE Transaction on NanoBioScience, 2008.
8. M. M. Eshaghian-Wilner, A. Khitun, S. Navab, and K. Wang. Hierarchical Multi-
Scale Architectures with Spin Waves. Proceedings of the 2006 International Conference
on Computer Design CDES 2006, Las Vegas, Nevada: pp 220-226, June, 2006.
9. M. M. Eshaghian-Wilner, A. Khitun, S. Navab, and K. Wang. A nano-scale
reconfigurable mesh with spin waves. In: Proceedings of the ACM International
Conference on Computing Frontiers: pp 65-70, 2006.
10. M. M. Eshaghian-Wilner and R. Miller. The systolic reconfigurable mesh. Journal of
Parallel Processing Letters, 14(3-4): pp 337-350, 2004.
11. Miller, Russ, V. K. Prasanna-Kumar, D. L. Reisis, and Q. F. Stout. Parallel
computations on reconfigurable meshes. IEEE Transactions on Computers, 42(6): pp
678-692, 1993.
12. M. M. Eshaghian-Wilner. Mapping arbitrary heterogeneous task graphs onto arbitrary
heterogeneous system graphs. International Journal on Foundation of Computer Science,
12(5): pp 599-628, 2001.
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