Title :
Lower bound estimation for low power high-level synthesis
Author :
Kruse, Lars ; Schmidt, Eike ; Jochens, Gerd ; Stammermann, Ansgar ; Nebel, Wolfgang
Author_Institution :
OFFIS Res. Inst., Oldenburg, Germany
Abstract :
This paper addresses the problem of estimating lower bounds on the power consumption in scheduled data flow graphs with a fixed number of allocated resources prior to binding. The estimated bound takes into account the effects of resource sharing. It is shown that by introducing Lagrangian multipliers and relaxing the low power binding problem to the assignment problem, which can be solved in O(n3), a tight and fast computable bound is achievable. Experimental results show the good quality of the bound. In most cases, deviations smaller than 5% from the optimal binding were observed. The proposed technique can for example be applied in branch and bound high-level synthesis algorithms for efficient pruning of the design space. The estimated lower bound can also be used as a starting point for low power binding heuristics to find optimal or near optimal binding solutions
Keywords :
computational complexity; data flow graphs; high level synthesis; resource allocation; tree searching; Lagrangian multipliers; branch and bound algorithms; computable bound; data flow graphs; design space pruning; experimental results; low power high-level synthesis; lower bound estimation; optimal binding; power consumption; resource allocation; resource sharing; Algorithm design and analysis; Contracts; Cost function; Decision trees; Energy consumption; Flow graphs; High level synthesis; Lagrangian functions; Resource management; Scheduling;
Conference_Titel :
System Synthesis, 2000. Proceedings. The 13th International Symposium on
Conference_Location :
Madrid
Print_ISBN :
0-7695-0765-4
DOI :
10.1109/ISSS.2000.874047
