Breadcrumbs Section. Click here to navigate to respective pages.
Chapter
Chapter
through the lattice unchanged are called "gliders"; Von Neumann proved mathematically that gliders travelling through a sufficiently large cellular automaton can solve virtually any problem. Wolfram (1984) observed that mechanisms for information processing in natural systems are more similar to those in cellular automata which are highly parallel, than to conventional computers. The "results" are given the configuration obtained; the "medium
DOI link for through the lattice unchanged are called "gliders"; Von Neumann proved mathematically that gliders travelling through a sufficiently large cellular automaton can solve virtually any problem. Wolfram (1984) observed that mechanisms for information processing in natural systems are more similar to those in cellular automata which are highly parallel, than to conventional computers. The "results" are given the configuration obtained; the "medium
through the lattice unchanged are called "gliders"; Von Neumann proved mathematically that gliders travelling through a sufficiently large cellular automaton can solve virtually any problem. Wolfram (1984) observed that mechanisms for information processing in natural systems are more similar to those in cellular automata which are highly parallel, than to conventional computers. The "results" are given the configuration obtained; the "medium
ABSTRACT
Protein Conformational Dynamics