The landscape of exascale research: A data-driven literature analysis
S Heldens, P Hijma, BV Werkhoven… - ACM Computing …, 2020 - dl.acm.org
The next generation of supercomputers will break the exascale barrier. Soon we will have
systems capable of at least one quintillion (billion billion) floating-point operations per …
systems capable of at least one quintillion (billion billion) floating-point operations per …
Architecture of computing system based on chiplet
Computing systems are widely used in medical diagnosis, climate prediction, autonomous
vehicles, etc. As the key part of electronics, the performance of computing systems is crucial …
vehicles, etc. As the key part of electronics, the performance of computing systems is crucial …
Cost-effective design of scalable high-performance systems using active and passive interposers
Cutting-edge high-performance systems demand larger and denser processors, but future
lithographic nodes are expected to introduce higher manufacturing costs and yield …
lithographic nodes are expected to introduce higher manufacturing costs and yield …
Warped-slicer: Efficient intra-SM slicing through dynamic resource partitioning for GPU multiprogramming
As technology scales, GPUs are forecasted to incorporate an ever-increasing amount of
computing resources to support thread-level parallelism. But even with the best effort …
computing resources to support thread-level parallelism. But even with the best effort …
On-chip communication network for efficient training of deep convolutional networks on heterogeneous manycore systems
Convolutional Neural Networks (CNNs) have shown a great deal of success in diverse
application domains including computer vision, speech recognition, and natural language …
application domains including computer vision, speech recognition, and natural language …
IRIS: A portable runtime system exploiting multiple heterogeneous programming systems
Across embedded, mobile, enterprise, and high performance computing systems, computer
architectures are becoming more heterogeneous and complex. This complexity is causing a …
architectures are becoming more heterogeneous and complex. This complexity is causing a …
Silicon-interconnect fabric for fine-pitch (≤ 10 μm) heterogeneous integration
The apparent saturation of aggressive Moore's law scaling of semiconductor technologies is
pushing the boundaries of traditional packaging and integration schemes to accommodate …
pushing the boundaries of traditional packaging and integration schemes to accommodate …
{FineStream}:{Fine-Grained}{Window-Based} stream processing on {CPU-GPU} integrated architectures
Accelerating SQL queries on stream processing by utilizing heterogeneous coprocessors,
such as GPUs, has shown to be an effective approach. Most works show that heterogeneous …
such as GPUs, has shown to be an effective approach. Most works show that heterogeneous …
Opportunistic computing in gpu architectures
Data transfer overhead between computing cores and memory hierarchy has been a
persistent issue for von Neumann architectures and the problem has only become more …
persistent issue for von Neumann architectures and the problem has only become more …
Multi-FSR silicon photonic Flex-LIONS module for bandwidth-reconfigurable all-to-all optical interconnects
This article proposes and experimentally demonstrates the first bandwidth-reconfigurable all-
to-all optical interconnects using a multi-Free-Spectral-Ranges (FSR) integrated 8× 8 SiPh …
to-all optical interconnects using a multi-Free-Spectral-Ranges (FSR) integrated 8× 8 SiPh …