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ISCAPDCS
2003

Optimal Graph Transformation Assuming Alternate Scheduling Models

14 years 1 months ago
Optimal Graph Transformation Assuming Alternate Scheduling Models
Many computation-intensive iterative or recursive applications commonly found in digital signal processing and image processing applications can be represented by data-flow graphs (DFGs). The execution of all tasks of a DFG is called an iteration, with the average computation time of an iteration the iteration period. A great deal of research has been done attempting to optimize such applications by applying various graph transformation techniques to the DFG in order to minimize this iteration period. Two of the most popular are retiming and unfolding, which can be performed in tandem to achieve an optimal iteration period. In our previous work, we proposed a new technique, extended retiming, which can be combined with minimal unfolding to transform a DFG into one whose iteration period matches that of the optimal schedule under a pipelined design. However, we developed our technique while assuming a particular scheduling model. In this paper, we generalize our previous work so that ...
Timothy W. O'Neil
Added 31 Oct 2010
Updated 31 Oct 2010
Type Conference
Year 2003
Where ISCAPDCS
Authors Timothy W. O'Neil
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