Title: Post-silicon power characterization using thermal infrared emissions
Abstract: Design-time power analysis is one of the most critical tasks conducted by chip architects and circuit designers. While computer-aided power analysis tools can provide power consumption estimates for various circuit blocks, these estimates can substantially deviate from the actual power consumption of working silicon chips. We propose a novel methodology that provides accurate, detailed post-silicon spatial power estimates using the thermal infrared emissions from the backside of silicon die. We theoretically and empirically demonstrate the inherent difficulties in thermal to power inversion. These difficulties arise from measurement errors and from the inherent spatial low-pass filtering associated with heat diffusion. To address these difficulties we propose new techniques from regularization theory to invert temperature to power. Furthermore, we propose new techniques to compute the emissivities and conductances required for any infrared to power inversion method. To verify our results, a programmable circuit of micro heaters is implemented to create any desired power pattern. The thermal emissions of different known injected power patterns are captured using a state-of-the-art infrared camera, and then our characterization techniques are applied to invert the thermal emissions to power. The estimated power patterns are validated against the injected power patterns to demonstrate the accuracy of our methodology.
Publication Year: 2010
Publication Date: 2010-08-18
Language: en
Type: article
Indexed In: ['crossref']
Access and Citation
Cited By Count: 47
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