In this paper, we present an RTL design-space exploration method for high-level applications. We formulate the RTL design-space exploration into a performance-driven module selection problem. We devise a dynamic-programming algorithm to solve the problem. We present an exploration flow by integrating commercial synthesis and layout tools with our proposed method. Experimental results have demonstrated that generating AT-curve for all modules is the most time consuming task in the design-space exploration process. Using the proposed 3-point AT projection approach, our method can achieve on an average of 80% speed-up in run time and 90% accuracy in design estimation.

We give a tutorial on high-level synthesis of VLSI. The evolution of digital system synthesis techniques and the need for higher level design automation tools are first discussed. We then point out essential issues to the successful development and acceptance by the designers of a high-level synthesis system. Techniques that have been proposed for various subtasks of high-level synthesis are surveyed. Possible applications of the high level synthesis in area other than chip design are forecast. Finally, we point out several directions for possible future research.