%0 Conference Paper %1 yardi2005quality %A Yardi, S. %A Hsiao, M. %A Martin, T. %A Ha, D. %B Design Automation Conference %D 2005 %K DATE Energy Estimation Optimization and %T Quality-Driven Proactive Computation Elimination for Power-Aware Multimedia Processing %U http://date.eda-online.co.uk/proceedings/papers/2005/date05/pdffiles/03f_1.pdf %X We present a novel, quality-driven, architectural-level approach that trades-off the output quality to enable power-aware processing of multimedia streams. The error tolerance of multimedia data is exploited to selectively eliminate computation while maintaining a specified output quality. We construct relaxed, synthesized power macro-models for power-hungry units to predict the cycle-accurate power consumption of the input stream on the fly. The macro-models, together with an effective quality model, are integrated into a programmable architecture that allows both power savings and quality to be dynamically tuned with the available battery-life. In a case study, power monitors are integrated with functional units of the IDCT module of a MPEG-2 decoder. Experiments indicate that, for a moderate power monitor energy overhead of 5%, power savings of 72% in the functional units can be achieved resulting in an increase in battery life by 1.95x.

@inproceedings{yardi2005quality, abstract = {We present a novel, quality-driven, architectural-level approach that trades-off the output quality to enable power-aware processing of multimedia streams. The error tolerance of multimedia data is exploited to selectively eliminate computation while maintaining a specified output quality. We construct relaxed, synthesized power macro-models for power-hungry units to predict the cycle-accurate power consumption of the input stream on the fly. The macro-models, together with an effective quality model, are integrated into a programmable architecture that allows both power savings and quality to be dynamically tuned with the available battery-life. In a case study, power monitors are integrated with functional units of the IDCT module of a MPEG-2 decoder. Experiments indicate that, for a moderate power monitor energy overhead of 5%, power savings of 72% in the functional units can be achieved resulting in an increase in battery life by 1.95x.}, added-at = {2007-04-12T13:07:25.000+0200}, author = {Yardi, S. and Hsiao, M. and Martin, T. and Ha, D.}, biburl = {https://www.bibsonomy.org/bibtex/2dc224dd0b3180d85ae12d1608649e2b7/derkling}, booktitle = {Design Automation Conference}, interhash = {b9082255c2fbf9a689dee5fb02bce37a}, intrahash = {dc224dd0b3180d85ae12d1608649e2b7}, keywords = {DATE Energy Estimation Optimization and}, timestamp = {2007-04-12T13:07:25.000+0200}, title = {Quality-Driven Proactive Computation Elimination for Power-Aware Multimedia Processing}, url = {http://date.eda-online.co.uk/proceedings/papers/2005/date05/pdffiles/03f_1.pdf}, year = 2005 }