11,523 research outputs found
Hyperdrive: A Multi-Chip Systolically Scalable Binary-Weight CNN Inference Engine
Deep neural networks have achieved impressive results in computer vision and
machine learning. Unfortunately, state-of-the-art networks are extremely
compute and memory intensive which makes them unsuitable for mW-devices such as
IoT end-nodes. Aggressive quantization of these networks dramatically reduces
the computation and memory footprint. Binary-weight neural networks (BWNs)
follow this trend, pushing weight quantization to the limit. Hardware
accelerators for BWNs presented up to now have focused on core efficiency,
disregarding I/O bandwidth and system-level efficiency that are crucial for
deployment of accelerators in ultra-low power devices. We present Hyperdrive: a
BWN accelerator dramatically reducing the I/O bandwidth exploiting a novel
binary-weight streaming approach, which can be used for arbitrarily sized
convolutional neural network architecture and input resolution by exploiting
the natural scalability of the compute units both at chip-level and
system-level by arranging Hyperdrive chips systolically in a 2D mesh while
processing the entire feature map together in parallel. Hyperdrive achieves 4.3
TOp/s/W system-level efficiency (i.e., including I/Os)---3.1x higher than
state-of-the-art BWN accelerators, even if its core uses resource-intensive
FP16 arithmetic for increased robustness
HPC Accelerators with 3D Memory
ArtĂculo invitado, publicado en las actas del congreso por IEEE Society Press. Páginas 320 a 328. ISBN: 978-1-5090-3593-9.DOI 10.1109/CSE-EUC-DCABES-2016.203After a decade evolving in the High Performance Computing arena, GPU-equipped supercomputers have con- quered the top500 and green500 lists, providing us unprecedented levels of computational power and memory bandwidth. This year, major vendors have introduced new accelerators based on 3D memory, like Xeon Phi Knights Landing by Intel and Pascal architecture by Nvidia. This paper reviews hardware features of those new HPC accelerators and unveils potential performance for scientific applications, with an emphasis on Hybrid Memory Cube (HMC) and High Bandwidth Memory (HBM) used by commercial products according to roadmaps already announced.Universidad de Málaga. Campus de Excelencia Internacional Andalucia Tec
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