StreamDrive: a Dynamic Dataflow Framework for Clustered Embedded Architectures

Abstract

In this paper, we present StreamDrive, a dynamic dataflow framework for programming clustered embedded multicore architectures. StreamDrive simplifies development of dynamic dataflow applications starting from sequential reference C code and allows seamless handling of heterogeneous and application-specific processing elements by applications. We address issues of efficient implementation of the dynamic dataflow runtime system in the context of constrained embedded environments, which have not been sufficiently addressed by previous research. We conducted a detailed performance evaluation of the StreamDrive implementation on our Application Specific MultiProcessor (ASMP) cluster using the Oriented FAST and Rotated BRIEF (ORB) algorithm typical of image processing domain. We have used the proposed incremental development flow for the transformation of the ORB original reference C code into an optimized dynamic dataflow implementation. Our implementation has less than 10% parallelization overhead, near-linear speedup when the number of processors increases from 1 to 8, and achieves the performance of 15 VGA frames per second with a small cluster configuration of 4 processing elements and 64KB of shared memory, and of 30 VGA frames per second with 8 processors and 128KB of shared memory.