We present the TyTra-IR, a new intermediate language intended as a
compilation target for high-level language compilers and a front-end for HDL
code generators. We develop the requirements of this new language based on the
design-space of FPGAs that it should be able to express and the
estimation-space in which each configuration from the design-space should be
mappable in an automated design flow. We use a simple kernel to illustrate
multiple configurations using the semantics of TyTra-IR. The key novelty of
this work is the cost model for resource-costs and throughput for different
configurations of interest for a particular kernel. Through the realistic
example of a Successive Over-Relaxation kernel implemented both in TyTra-IR and
HDL, we demonstrate both the expressiveness of the IR and the accuracy of our
cost model.Comment: Pre-print and extended version of poster paper accepted at
international symposium on Highly Efficient Accelerators and Reconfigurable
Technologies (HEART2015) Boston, MA, USA, June 1-2, 201