Towards Interfaces for Integrated Performance and Power Analysis and Simulation
Abstract:
In the design and optimization of power-aware computing systems, it is often desired to estimate power consumption at various levels of abstraction, e.g., at the transistor, gate, RTL, behavioral or transaction levels. Tools for power estimation at these different levels of abstraction require specialized expertise, e.g., understanding of device physics for circuit-level power estimation, and as such are necessarily developed by different research communities.
In the optimization of complete platforms however, it is desired to
be able to obtain aggregate power and performance estimates for the different components of a system, and this requires the ability to model the
system at a mixture of levels of abstraction.
One approach to enabling such cross-abstraction modeling, is to define a mechanism for interchange of data between tools at different layers of abstraction, for both static analysis and simulation-based studies. This
document presents preliminary discussions on the requirements of such an interface.
Cites as:
C. Bleakley, T. Clerckx, H. Devos, M. Grumer, A. Janek, U. Kremer, C. W. Probst, P. Stanley-Marbell, C. Steger, V. Venkatachalam and M. Wendt. “Towards Interfaces for Integrated Performance and Power Analysis and Simulation”. Proceedings of the Dagstuhl Seminar 07041, Power-aware Computing Systems, 2007.
Bibtex:
@inproceedings{Experience2020Stanley-Marbell,
author = {C. Bleakley, T. Clerckx, H. Devos, M. Grumer, A. Janek, U. Kremer, C. W. Probst, P. Stanley-Marbell, C. Steger, V. Venkatachalam and M. Wendt.},
title = {Towards Interfaces for Integrated Performance and Power Analysis and Simulation},
year = {2007},
booktitle = {Proceedings of the Dagstuhl Seminar 07041, Power-aware Computing Systems}
}