Short pages

Showing below up to 100 results in range #1 to #100.

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1. (hist) ‎Fake conference ‎[40 bytes]
2. (hist) ‎2HAM Video Demonstration ‎[43 bytes]
3. (hist) ‎Ph-Controlled Assembly ‎[45 bytes]
4. (hist) ‎Wang Tiling ‎[102 bytes]
5. (hist) ‎ATAM and kTAM Video Demonstration ‎[104 bytes]
6. (hist) ‎DNA Origami ‎[109 bytes]
7. (hist) ‎Simulation Window ‎[121 bytes]
8. (hist) ‎Publications in self assembly ‎[138 bytes]
9. (hist) ‎Baggins-expressions ‎[186 bytes]
10. (hist) ‎Window Movie Lemmas ‎[187 bytes]
11. (hist) ‎Growth Frontier ‎[209 bytes]
12. (hist) ‎Tile Lib ‎[237 bytes]
13. (hist) ‎2PATS-search-ocaml ‎[267 bytes]
14. (hist) ‎Nucleation Errors ‎[298 bytes]
15. (hist) ‎2PATS-tileset-search ‎[300 bytes]
16. (hist) ‎Auto Counter Tiler ‎[316 bytes]
17. (hist) ‎Theory of Algorithmic Self-Assembly ‎[321 bytes]
18. (hist) ‎ISU TAS Tutorials ‎[343 bytes]
19. (hist) ‎Auxetic Two-Dimensional Nanostructures ‎[360 bytes]
20. (hist) ‎Turing Machine Tiler ‎[426 bytes]
21. (hist) ‎Xgrow ‎[557 bytes]
22. (hist) ‎Weak Self-Assembly ‎[564 bytes]
23. (hist) ‎Program Size and Temperature in Self-Assembly ‎[640 bytes]
24. (hist) ‎Self-Assembly of Infinite Structures: A Survey ‎[653 bytes]
25. (hist) ‎Temperature ‎[659 bytes]
26. (hist) ‎Strict Self-Assembly ‎[669 bytes]
27. (hist) ‎Directed (2HAM) ‎[684 bytes]
28. (hist) ‎OxDNA ‎[689 bytes]
29. (hist) ‎Identifying Shapes Using Self-Assembly ‎[767 bytes]
30. (hist) ‎TAM DSL ‎[800 bytes]
31. (hist) ‎DNA Sticky End Design and Assignment for Robust Algorithmic Self-assembly ‎[803 bytes]
32. (hist) ‎Increasing Redundancy Exponentially Reduces Error Rates during Algorithmic Self-Assembly ‎[808 bytes]
33. (hist) ‎Decider Tiler ‎[821 bytes]
34. (hist) ‎Self-Assembly of Decidable Sets ‎[834 bytes]
35. (hist) ‎Tile Assembly Examples ‎[866 bytes]
36. (hist) ‎Co-transcriptional Folding ‎[878 bytes]
37. (hist) ‎Integrating DNA strand-displacement circuitry with DNA tile self-assembly ‎[916 bytes]
38. (hist) ‎Kinetic Slat Assembly Model (kSAM) ‎[925 bytes]
39. (hist) ‎Software self-assembly ‎[935 bytes]
40. (hist) ‎Parallelism and Time in Hierarchical Self-Assembly ‎[958 bytes]
41. (hist) ‎Cooperation ‎[968 bytes]
42. (hist) ‎Replication of arbitrary hole-free shapes via self-assembly with signal-passing tiles (extended abstract) ‎[1,001 bytes]
43. (hist) ‎A Domain-Specific Language for Programming in the Tile Assembly Model ‎[1,002 bytes]
44. (hist) ‎Facet Errors ‎[1,016 bytes]
45. (hist) ‎Self-Assembly of Discrete Self-Similar Fractals ‎[1,030 bytes]
46. (hist) ‎Limitations of Self-Assembly at Temperature 1 ‎[1,033 bytes]
47. (hist) ‎Robust self-replication of combinatorial information via crystal growth and scission ‎[1,039 bytes]
48. (hist) ‎The Three Windows ‎[1,050 bytes]
49. (hist) ‎PH Controlled Assembly ‎[1,053 bytes]
50. (hist) ‎Probablistic assembly ‎[1,058 bytes]
51. (hist) ‎Shape Replication Through Self-Assembly and RNase Enzymes ‎[1,066 bytes]
52. (hist) ‎Crystals that count! Physical principles and experimental investigations of DNA tile self-assembly ‎[1,082 bytes]
53. (hist) ‎Two Hands Are Better Than One (up to constant factors) ‎[1,105 bytes]
54. (hist) ‎Random Number Selection in Self-Assembly ‎[1,117 bytes]
55. (hist) ‎Zig-zag tile assembly system ‎[1,137 bytes]
56. (hist) ‎WebDNA ‎[1,148 bytes]
57. (hist) ‎Staged Self-Assembly: Nanomanufacture of Arbitrary Shapes with O(1) Glues ‎[1,172 bytes]
58. (hist) ‎Tile Set Designer ‎[1,178 bytes]
59. (hist) ‎Tile Assembly System (TAS) ‎[1,203 bytes]
60. (hist) ‎PH Controlled Assembly of DNA Tiles ‎[1,206 bytes]
61. (hist) ‎WebTAS ‎[1,211 bytes]
62. (hist) ‎Active Self-Assembly of Algorithmic Shapes and Patterns in Polylogarithmic Time ‎[1,228 bytes]
63. (hist) ‎Speed of Assembly in the 2HAM ‎[1,229 bytes]
64. (hist) ‎Computability and Complexity in Self-Assembly ‎[1,238 bytes]
65. (hist) ‎Hierarchical Self-Assembly of Fractals with Signal-Passing Tiles ‎[1,245 bytes]
66. (hist) ‎Simulation of Self-Assembly in the Abstract Tile Assembly Model with ISU TAS ‎[1,263 bytes]
67. (hist) ‎Diagonal and Non-Diagonal Glue Functions ‎[1,277 bytes]
68. (hist) ‎Algorithmic self-assembly ‎[1,303 bytes]
69. (hist) ‎DNA walker circuits: computational potential, design, and verification ‎[1,349 bytes]
70. (hist) ‎Computing in continuous space with self-assembling polygonal tiles ‎[1,365 bytes]
71. (hist) ‎Reflections on Tiles (in Self-Assembly) ‎[1,376 bytes]
72. (hist) ‎Self-Assembly of Arbitrary Shapes Using RNAse Enzymes: Meeting the Kolmogorov Bound with Small Scale Factor (extended abstract) ‎[1,377 bytes]
73. (hist) ‎A Cargo-Sorting DNA Robot ‎[1,386 bytes]
74. (hist) ‎An Introduction to Tile-Based Self-Assembly and a Survey of Recent Results ‎[1,396 bytes]
75. (hist) ‎Randomized Self-Assembly for Approximate Shapes ‎[1,447 bytes]
76. (hist) ‎The tile assembly model is intrinsically universal ‎[1,450 bytes]
77. (hist) ‎Resiliency to Multiple Nucleation in Temperature~1 Self-Assembly ‎[1,466 bytes]
78. (hist) ‎OritatamiSim ‎[1,468 bytes]
79. (hist) ‎On the Equivalence of Cellular Automata and the Tile Assembly Model ‎[1,469 bytes]
80. (hist) ‎Impossibility and Efficiency Comparisions Between aTAM and 2HAM ‎[1,512 bytes]
81. (hist) ‎Running time and program size for self-assembled squares ‎[1,512 bytes]
82. (hist) ‎RodSim ‎[1,538 bytes]
83. (hist) ‎OritatamiShapeMaker ‎[1,566 bytes]
84. (hist) ‎Covert Computation in Self-Assembled Circuits ‎[1,572 bytes]
85. (hist) ‎Small tile sets that compute while solving mazes ‎[1,572 bytes]
86. (hist) ‎DNA Punch Cards for Storing Data ‎[1,574 bytes]
87. (hist) ‎Algorithmic Self-Assembly of DNA Sierpinski Triangles ‎[1,577 bytes]
88. (hist) ‎One Tile to Rule Them All: Simulating Any Tile Assembly System with a Single Universal Tile ‎[1,585 bytes]
89. (hist) ‎SlatTAS ‎[1,592 bytes]
90. (hist) ‎One Tile to Rule Them All: Simulating Any Turing Machine, Tile Assembly System, or Tiling System with a Single Puzzle Piece ‎[1,613 bytes]
91. (hist) ‎The Power of Duples (in Self-Assembly): It's Not So Hip To Be Square ‎[1,642 bytes]
92. (hist) ‎Self-Assembly with Geometric Tiles ‎[1,666 bytes]
93. (hist) ‎Intrinsic universality in tile self-assembly requires cooperation ‎[1,686 bytes]
94. (hist) ‎Reducing Tile Complexity for Self-Assembly Through Temperature Programming ‎[1,714 bytes]
95. (hist) ‎Binary pattern tile set synthesis is NP-hard ‎[1,723 bytes]
96. (hist) ‎PyTAS ‎[1,732 bytes]
97. (hist) ‎Multiple Temperature Model ‎[1,742 bytes]
98. (hist) ‎Growth Errors ‎[1,774 bytes]
99. (hist) ‎Temperature 1 Self-Assembly: Deterministic Assembly in 3D and Probabilistic Assembly in 2D ‎[1,783 bytes]
100. (hist) ‎Staged Tile Assembly Model ‎[1,791 bytes]

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