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CCA
2009
Springer
2009
Springer
Real Computation with Least Discrete Advice: A Complexity Theory of Nonuniform Computability
It is folklore particularly in numerical and computer sciences that, instead of solving some general problem f : A → B, additional structural information about the input x ∈ A (that is any kind of promise that x belongs to a certain subset A ⊆ A) should be taken advantage of. Some examples from real number computation show that such discrete advice can even make the difference between computability and uncomputability. We turn this into a both topological and combinatorial complexity theory of information, investigating for several practical problems how much advice is necessary and sufficient to render them computable. Specifically, finding a nontrivial solution to a homogeneous linear equation A · x = 0 for a given singular real n × n-matrix A is possible when knowing rank(A) ∈ {0, 1, . . . , n−1}; and we show this to be best possible. Similarly, diagonalizing (i.e. finding a basis of eigenvectors of) a given real symmetric n × n-matrix A is possible when knowing the...
Real-time TrafficAdditional Structural Information | CCA 2009 | Combinatorial Complexity Theory | Real Number Computation | Theoretical Computer Science |
Related Content
| Added | 26 May 2010 |
| Updated | 26 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | CCA |
| Authors | Martin Ziegler |
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