A Deep Neural Network based efficient Software-Hardware Co-design Architecture for Sparsity Exploration

The presence of many zero values – is a pervasive
property of modern deep neural networks, as it is inherently
induced by state-of-the-art algorithmic optimizations. Recent efforts in hardware design for acceleration of neural networks have targeted the structure of computation of these workloads. However, when run on these value-agnostic accelerators, value sparsity is not exploited to provide performance or efficiency benefits, and instead results in wasted computation. This paper presents the architectural optimizations that efficiently leverage value sparsity in network weights in order to achieve significant
performance benefits, with minimal hardware overhead. The
culmination of this work is a hardware front-end (data fetching and staging unit) which, when paired with our novel, co-designed software scheduling algorithm, achieves more than a 2× speedup on average for the networks studied, with just an 8.2% overhead in compute area.