The FPOA, a Medium-grained Reconfigurable Architecture for High-level Synthesis

Abstract

In this article, we present a novel type of medium-grained reconfigurable architecture that we term the Field Programmable Operation Array (FPOA). This device has been designed specifically for the implementation of HLS-generated circuitry. At the core of the FPOA is the OP-block. Unlike a standard LUT, an OP-block performs multi-bit operations through gate-based logic structures, translating into greater speed and efficiency in digital circuit implementation. Our device is not optimized for a specific application domain. Rather, we have created a device that is optimized for a specific circuit structure, namely those generated by HLS. This gives the FPOA a significant advantage as it can be used across all application domains. In this work, we add support for both distributed and block memory to the FPOA architecture. Experimental results show up to a 13.5× reduction in logic area and a 9.5× reduction in critical path delay for circuit implementation using the FPOA compared to a standard FPGA.