Temperature is a crucial parameter in many planar technology processing steps. However, the determination of the actual temperature history at the device side of the substrate is not straightforward. We present a novel method for determining the temperature history of the process side of silicon wafers and chips, which is based on well-known silicide formation reactions of metal-Si systems and is determined via (4 point probe) resistance measurements. In this case we explored the Pd-Si system which has a suitable operating range from 100-200??C. We propose a method based on metal layers patterned in different line configurations (using the width and number of the lines as parameters) and anticipate that silicide developments at these structures is geometrically dependent and hence can provide a way for obtaining a refined temperature information. First experiments on bulk Si wafers show that the proposed method yields predictable and stable results.