Fault-tolerance is a critical issue for biochemical computation. Recent theoretical work on algorithmic self-assembly has shown that error correcting tile sets are possible, and that they can achieve exponential decrease in error rates with a small increase in the number of tile types and the scale of the construction [24, 4]. Following [17], we consider the issue of applying similar schemes to achieve error correction without any increase in the scale of the assembled pattern. Using a new proofreading transformation, we show that compact proofreading can be performed for some patterns with a modest increase in the number of tile types. Other patterns appear to require an exponential number of tile types....
A novel error detection/correction technique for algo-rithmic self-assembly is presented in this pap...
Abstract. Winfree's pioneering work led the foundations in the area of error-reduction in algor...
Copying and counting are useful primitive operations for computation and construction. We have made ...
For robust molecular implementation of tile-based algorithmic self-assembly, methods for reducing e...
Molecular self-assembly is a promising approach to bottom-up fabrication of complex structures. A ma...
Algorithmic self-assembly, a generalization of crystal growth, has been proposed as a mechanism for ...
Abstract. DNA self-assembly is emerging as a key paradigm for nano-technology, nano-computation, and...
Experiments have demonstrated that DNA molecules can compute like a machine to solve mathematical pr...
Algorithmic DNA tile systems have the potential to allow the construction by self-assembly of large ...
Algorithmic self-assembly has been proposed as a mechanism for autonomous DNA computation and for bo...
Abstract: Algorithmic DNA self-assembly is capable of forming complex patterns and shapes, that have...
While biology demonstrates that molecules can reliably transfer information and compute, design prin...
Algorithmic self-assembly, a generalization of crystal growth processes, has been proposed as a mech...
Summary. Molecular self-assembly appears to be a promising route to bottom-up fabrication of complex...
Biology provides the synthetic chemist with a tantalizing and frustrating challenge: to create comp...
A novel error detection/correction technique for algo-rithmic self-assembly is presented in this pap...
Abstract. Winfree's pioneering work led the foundations in the area of error-reduction in algor...
Copying and counting are useful primitive operations for computation and construction. We have made ...
For robust molecular implementation of tile-based algorithmic self-assembly, methods for reducing e...
Molecular self-assembly is a promising approach to bottom-up fabrication of complex structures. A ma...
Algorithmic self-assembly, a generalization of crystal growth, has been proposed as a mechanism for ...
Abstract. DNA self-assembly is emerging as a key paradigm for nano-technology, nano-computation, and...
Experiments have demonstrated that DNA molecules can compute like a machine to solve mathematical pr...
Algorithmic DNA tile systems have the potential to allow the construction by self-assembly of large ...
Algorithmic self-assembly has been proposed as a mechanism for autonomous DNA computation and for bo...
Abstract: Algorithmic DNA self-assembly is capable of forming complex patterns and shapes, that have...
While biology demonstrates that molecules can reliably transfer information and compute, design prin...
Algorithmic self-assembly, a generalization of crystal growth processes, has been proposed as a mech...
Summary. Molecular self-assembly appears to be a promising route to bottom-up fabrication of complex...
Biology provides the synthetic chemist with a tantalizing and frustrating challenge: to create comp...
A novel error detection/correction technique for algo-rithmic self-assembly is presented in this pap...
Abstract. Winfree's pioneering work led the foundations in the area of error-reduction in algor...
Copying and counting are useful primitive operations for computation and construction. We have made ...