From synchronous to GALS: A new architecture for FPGAs

The conflictual demand of faster and larger designs is increasingly difficult to answer by the advances of solid state technology alone. At some point, it is expected that designers and manufacturers will have to give up the traditional synchronous design methodology for a Globally Asynchronous Locally Synchronous (GALS) one. Such changes imply more synchronization constraints, but also more flexibility. Consequently, this paper proposes a novel Field-Programmable Gate Arrays (FPGA) architecture that is compatible with existing devices and that can also support GALS designs. The main objective is simple: the proposed architecture must appear unchanged for synchronous design, but it must also include a minimal amount of basic components to prevent metastability for efficient asynchronous communications. Thus, the paper presents the constraint equations required to implement such a circuit. It also presents a pausible clock generator application and simulation results for the proposed architecture. All results demonstrate that with a few additional customized circuits, a standard FPGA cell can become appropriate for GALS methodologies.