Title :
MiMAPT: Adaptive multi-resolution thermal analysis at RT and gate level
Author :
Sadri, Mohammadsadegh ; Barolini, A. ; Benini, Luca
Abstract :
Tight timing/area constraints produce on-chip layouts with non-regular shapes for RTL entities. Thus, grid-like floorplans where RTL entities are abstracted as rectangular blocks for thermal simulation lead to inaccurate results. In addition, spatial and temporal variability of chip workload causes localized temperature variations. Exact localization of hotspots at gate-level necessitates an extremely detailed spatial resolution which is very computationally intensive. We propose MiMAPT, a tool capable of performing thermal simulation at RT and gate-level with multiple scales of spatiotemporal resolution. To demonstrate the tool advantages we run various tests for a sample chip. We show that our tool provides high level of flexibility in terms of speed vs. accuracy of results.
Keywords :
circuit layout; floors; thermal analysis; thermal insulation; thermal management (packaging); MiMAPT; RTL entities; adaptive multiresolution thermal analysis; area constraints; chip workload; gate level; gate-level necessitates; grid like floorplans; localized temperature variations; multiple scales; nonregular shapes; on-chip layouts; rectangular blocks; spatial resolution; spatial variability; spatiotemporal resolution; temporal variability; thermal simulation; tight timing; Accuracy; Adaptation models; Computational modeling; Estimation; Logic gates; Spatial resolution; Thermal analysis;
Conference_Titel :
Thermal Investigations of ICs and Systems (THERMINIC), 2012 18th International Workshop on
Conference_Location :
Budapest
Print_ISBN :
978-1-4673-1882-2
