Litcius/Paper detail

FPGA Architecture: Principles and Progression

Andrew Boutros, Vaughn Betz

2021IEEE Circuits and Systems Magazine190 citationsDOI

Abstract

Since their inception more than thirty years ago, field-programmable gate arrays (FPGAs) have been widely used to implement a myriad of applications from different domains. As a result of their low-level hardware reconfigurability, FPGAs have much faster design cycles and lower development costs compared to custom-designed chips. The design of an FPGA architecture involves many different design choices starting from the high-level architectural parameters down to the transistor-level implementation details, with the goal of making a highly programmable device while minimizing the area and performance cost of reconfigurability. As the needs of applications and the capabilities of process technology are constantly evolving, FPGA architecture must also adapt. In this article, we review the evolution of the different key components of modern commercial FPGA architectures and shed the light on their main design principles and implementation challenges.

Topics & Concepts

ReconfigurabilityField-programmable gate arrayComputer architectureReconfigurable computingEmbedded systemComputer scienceArchitectureKey (lock)Process (computing)TelecommunicationsOperating systemVisual artsArtVLSI and FPGA Design TechniquesEmbedded Systems Design TechniquesVLSI and Analog Circuit Testing