Hardware Reference
In-Depth Information
19.
http://www.altera.com/products/devkits/altera/kit-cyc2-2C20N.html
(On-line introduction and
purchase of Cyclone II FPGA Starter Development Kit)
20.
http://www.altera.com/literature/hb/nios2/edh_ed51008.pdf
(Altera Handbook: “Memory sys-
tem design”)
21. S. Kirkpatrick, C. Gelatt, and M. Vecchi, “Optimization by simulated annealing”,
Science
,
vol. 220(4598), pp. 671-680, May 1983.
22. Y.-L. Hsieh, T.-Y. Ho, and K. Chakrabarty, “Design methodology for sample preparation on
digital microfluidic biochips”,
Proceedings of IEEE International Conference on Computer
Design
, pp. 189-194, 2012.
23. S. Roy, B. Bhattacharya, P. Chakrabarti, and K. Chakrabarty, “Layout-aware solution prepa-
ration for biochemical analysis on a digital microfluidic biochip”,
Proc. IEEE International
Conference on VLSI Design
, pp. 171-176, 2011.
24. H. Ren, V. Srinivasan, and R. Fair, “Design and testing of an interpolating mixing architecture
for electrowetting-based droplet-on-chip chemical dilution”,
International Conference on
Solid-State Sensors, Actuators and Microsystems
, pp. 619-622, 2003.
25. P. Paik, V. Pamula, and R. Fair, “Rapid droplet mixers for digital microfluidic systems”,
Lab
onaChip
, vol. 3, pp. 253-259, 2003.
26. T. Bell and B. McKenzie, “Compression of sparse matrices by arithmetic coding”,
Data
Compression Conference
, pp. 23-32, 1998.
27. R. Wainwright and M. Sexton, “A study of sparse matrix representations for solving linear
systems in a functional language”,
Journal of Functional Programming
, Volume 2, Issue 1,
pp. 61-72, 2012.
(Datasheet
of
Cyclone
IV
FPGA Device Family)
31. H. Ren, R. Fair, and M. Pollack, “Automated on-chip droplet dispensing with volume control
by electro-wetting actuation and capacitance metering”,
Sensors and Actuators B
, Issue 98,
pp. 319-327, 2004.
32. B. Bhattacharjee,
Study of Droplet Splitting in An Electrowetting based Digital Microfluidic
System
, PhD Thesis, The University of British Columbia, Okanagan, CA, 2012.
33. J. Yoshida,
Flash Chemistry: Fast Organic Synthesis in Microsystems
, Hoboken, NJ: Wiley,
2008.
34. Y. Zhao, T. Xu, and K. Chakrabarty, “Integrated control-path design and error recovery in
digital microfluidic lab-on-chip”,
ACM JETC
, Vol. 6, No. 3, Article 11, 2010.
35. Y. Luo, K. Chakrabarty, and T.-Y. Ho, “A cyberphysical synthesis approach for error recovery
in digital microfluidic biochips”,
Proc. DATE
, pp. 1239-1244, 2012.
36. D. Grissom and P. Brisk, “Path scheduling on digital microfluidic biochips”,
IEEE/ACM
Design Automation Conference
, pp. 26-35, 2012.
37. H. Lee and J. Cho, “Development of conformal PDMS and Parylene coatings for micro-
electronics and mems packaging”,
Proc. International Mechanical Engineering Congress and
Exposition
, pp. 1-5, 2005.
38. X. Huang, Q. Jia, M. Yan, H. Yu, and K. Yeo, “A super-resolution cmos imager for microfluidic
imaging applications”,
IEEE Biomedical Circuits and Systems Conference
, pp. 338-391, 2012.
39. H. Qian, C.-H. Chang, and H. Yu, “An efficient channel clustering and flow rate allocation
algorithm for non-uniform microfluidic cooling of 3D integrated circuits”,
Integration, the
VLSI Journal
, vol. 46, no.1, pp. 57-68, 2013.
40. D. Huffman, “A method for the construction of minimum-redundancy codes”,
Proceedings of
the IRE
, Volume 40, Issue 9, pp. 1098-1101, 1952.
