Bibliography

1

The Single-Electron Repository.
http://home1.gte.net/kittypaw/

2

M. G. Ancona.
Design of computationally useful single-electron digital circuits.
J. Appl. Phys, 79(1):526-539, 1996.

3

J. E. Baker.
Reducing bias and inefficiency in the selection algorithm.
In J. J. Grefenstette, editor, Genetic Algorithms and their Applications: Proc. 2nd Int. Conf. on Genetic Algorithms (ICGA), pages 14-21. Lawrence Erlbaum Associates, 1987.

4

F. H. Bennett III, J. R. Koza, J. Shipman, and O. Stiffelman.
Building a parallel computer system for $18,000 that performs a half-petaflop per day.
In W. Banzhaf, J. Daida, A. E. Eiben, et al., editors, Proc. Genetic and Evolutionary Computation conference (GECCO-99), pages 1484-1490. Morgan Kaufmann, 1999.

5

R. Chen, A. Korotkov, and K. Likharev.
Single-electron transistor logic.
Appl. Phys. Lett., 68(14):1954-1956, 1996.

6

D. E. Goldberg.
Genetic Algorithms in Search, Optimization & Machine Learning.
Addison Wesley, 1989.

7

T. Higuchi, M. Iwata, and L. Weixin, editors.
Proc. 1st Int. Conf. on Evolvable Systems: From Biology to Hardware, volume 1259 of LNCS.
Springer-Verlag, 1997.

8

G. Klimeck, C. H. Salazar-Lazaro, A. Stoica, and T. Cwik.
``genetically engineered'' nanoelectronics.
In A. Stoica, D. Keymeulen, and J. Lohn, editors, Proc. 1st NASA/DoD Workshop on Evolvable Hardware, pages 247-248. IEEE Computer Society, 1999.

9

A. N. Korotkov, R. H. Chen, and K. K. Likharev.
Possible performance of capacitively-coupled single-electron transistors in digital circuits.
Journal of Applied Physics, 78(4):2520-2530, 1995.

10

J. R. Koza, F. H. B. III, M. A. Keane, et al.
Searching for the impossible using genetic programming.
In W. Banzhaf, J. Daida, A. E. Eiben, et al., editors, Proc. Genetic and Evolutionary Computation conference (GECCO-99), pages 1083-1091. Morgan Kaufmann, 1999.

11

K. K. Likharev and T. Claeson.
Single electronics.
Scientific American, 266(6):50-55, 1992.

12

M. Sipper and D. Mange (Guest Editors).
Special issue on biology to hardware and back.
IEEE Trans. Evolutionary Computation, 3(3), Sept. 1999.

13

J. Miller, A. Thompson, T. Fogarty, and P. Thomson, editors.
Proc. 3rd Int. Conf. on Evolvable Systems (ICES2000): From Biology to Hardware, volume tba of LNCS.
Springer-Verlag, 2000.
In Press.

14

H. Mühlenbein and D. Schlierkamp-Voosen.
The science of breeding and its application to the breeder genetic algorithm BGA.
Evolutionary Computation, 1(4):335-360, 1994.

15

R. W. Rendell.
Adaptive control of single-electron circuit signatures for computation.
In M. Cahay, D. J. Lockwood, J.-P. Leburton, and S. Bandyopadhyay, editors, Proc. of the ECS 98-19 Quantum Confinement V: Nanostructures, pages 574-581. Electrochemical Society, 1999.

16

R. W. Rendell and M. G. Ancona.
Adaptive computation by interacting quantum dots.
Superlattices and microstructures, 20(4):479-491, 1996.

17

E. Sanchez and M. Tomassini, editors.
Towards Evolvable Hardware: The evolutionary engineering approach, volume 1062 of LNCS.
Springer-Verlag, 1996.

18

M. Sipper, D. Mange, and A. Pérez-Uribe, editors.
Proc. 2nd Int. Conf. on Evolvable Systems (ICES98), volume 1478 of LNCS. Springer-Verlag, 1998.

19

A. Stoica, D. Keymeulen, and J. Lohn, editors.
Proc. 1st NASA/DoD workshop on Evolvable Hardware.
IEEE Computer Society, 1999.

20

A. Thompson.
Evolutionary design for novel technologies.
In IEE Colloquium on Evolutionary Hardware Systems, page 4/1, Savoy Place, London, June 1999.

21

A. Thompson and P. Layzell.
Analysis of unconventional evolved electronics.
Communications of the ACM, 42(4):71-79, Apr. 1999.

22

A. Thompson and P. Layzell.
Evolution of robustness in an electronics design.
In J. Miller, A. Thompson, T. Fogarty, and P. Thomson, editors, Proc. 3rd Int. Conf. on Evolvable Systems: From biology to hardware (ICES2000), volume tba of LNCS. Springer-Verlag, 2000.
In press.

23

A. Thompson, P. Layzell, and R. S. Zebulum.
Explorations in design space: Unconventional electronics design through artificial evolution.
IEEE Trans. Evol. Comp., 3(3):167-196, 1999.

24

C. Wasshuber.
About Single-Electron Devices and Circuits.
PhD thesis, Technical University of Wien, Österreichischer Kunst- und Kulturverlag, 1997.

25

C. Wasshuber, H. Kosina, and S. Selberherr.
SIMON - a simulator for single-electron tunnel devices and circuits.
IEEE Transactions on Computer-Aided Design, 16:937-944, Sept. 1997.

26

X. Yao (Guest Editor).
Special section on evolvable hardware.
Communications of the ACM, 42(4):47-79, Apr. 1999.