Title :
Lower and upper bounds an the switching activity in scheduled data flow graphs
Author :
Kruse, Lars ; Schmidt, Eike ; Jochens, Gerd ; Nebel, Wolfgang
Author_Institution :
OFFIS Res. Inst., Oldenburg, Germany
Abstract :
In this paper we present an approach to calculate lower and upper bounds for the switching activity in scheduled data flow graphs. The technique can be used to prune the design space in high level synthesis for low power before allocation and binding of functional units and registers. The low power allocation and binding problem is formulated. It is shown that this problem can be relaxed to the bipartite weighted matching problem which is solvable in O(n/sup 3/) where n is the number of functional units or registers, respectively. The application of the technique on benchmarks shows the tightness of the bounds. Most of the investigated bounds were less than 1% off the minimum respectively maximum solutions.
Keywords :
circuit optimisation; data flow graphs; high level synthesis; low-power electronics; switching theory; benchmark circuits; bipartite weighted matching problem; bounds estimation; design space; functional unit binding; high level synthesis; low power allocation; low power design; lower bounds; registers; scheduled data flow graphs; switching activity; upper bounds; Adders; Cost function; Design optimization; Digital systems; Energy consumption; Flow graphs; High level synthesis; Resource management; Scheduling; Upper bound;
Conference_Titel :
Low Power Electronics and Design, 1999. Proceedings. 1999 International Symposium on
Conference_Location :
San Diego, CA, USA
Print_ISBN :
1-58113-133-X
