Title :
System-level power estimation methodology using cycle- and bit-accurate TLM
Author :
Grammatikakis, Miltos D. ; Politis, Stratos ; Schoellkop, Jean-Pierre ; Papadas, Constantine
Author_Institution :
ISD S.A., Athens, Greece
Abstract :
We propose a new system-level methodology for relative power estimation, which is independent of register transfer level models. Our methodology monitors the number of bit transitions for all input/output gate signals on a bit- and cycle-accurate SystemC virtual platform model. For absolute results and reliable technology-based predictions of system power and speed (e.g. in future 32/22nm technology nodes and variations), relative metrics can be multiplied with bit energy coefficients provided by semiconductor technology datasheets and device models.
Keywords :
semiconductor technology; SystemC virtual platform model; bit energy coefficient; bit-accurate TLM; cycle-accurate TLM; device model; register transfer level model; relative power estimation; reliable technology-based prediction; semiconductor technology datasheet; system-level methodology; system-level power estimation methodology; transactional level modeling; Estimation; Multicore processing; Object oriented modeling; Registers; System-on-a-chip; Time domain analysis; Time varying systems; SystemC; TLM; design methodology; mutiicore; network-on-chip; system-on-chip;
Conference_Titel :
Design, Automation & Test in Europe Conference & Exhibition (DATE), 2011
Conference_Location :
Grenoble
Print_ISBN :
978-1-61284-208-0
DOI :
10.1109/DATE.2011.5763187
