Physical phenomena such as temperature have an increasingly important role in performance and reliability of modern process technologies. This trend will only strengthen with future generations. Attempts to minimize the design effort required for reaching closure in reliability and performance constraints are on the fact that higher levels of design abstractions need to be made aware of lower level physical phenomena. In this paper, we investigated techniques to incorporate temperature-awareness into high-level synthesis. Specifically, we developed two temperature-aware resource allocation and binding algorithms that aim to minimize the maximum temperature that can be reached by a resource in a design. Such a control scheme will have an impact on the prevention of hot spots, which in turn is one of the major hurdles in front of reliability for future integrated circuits. Our algorithms are able to reduce the maximum attained temperature by any module in a design by up to 19.6o C compa...