International audienceThe tipping point for adoption of PIM is imminent for three main reasons: • Firstly, PIM avoids the von Neumann bottleneck, a fundamental limitation to the effective use of computing systems for a large range of important data-centric applications. • Secondly, it matches the community's requirement for efficient application acceleration by reducing the amount of expensive data transfers, and demonstrates orders of magnitude improvements in performance and energy. • Thirdly, PIM has reached a high technological readiness confirmed by various industrial prototypes and products. Wide acceptance of PIM, however, depends on our ability to create an ecosystem in which a number of PIM approaches can be designed and evaluated,...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
Processing-in-memory (PIM) is an approach to address the data transport challenge in future HPC arch...
Abstract. The Data-Intensive Architecture (DIVA) system employs Processing-In-Memory (PIM) chips as ...
International audienceThe tipping point for adoption of PIM is imminent for three main reasons: • Fi...
Decades after being initially explored in the 1970s, Processing in Memory (PIM) is currently experie...
International audienceAll current computing platforms are designed following the von Neumann archite...
International audienceThis paper introduces a new combination of software and hardware PIM (Process-...
Workloads involving higher computational operations require impressive computational units. Computat...
Processing-in-memory (PIM) offers a viable solution to overcome the memory wall crisis that has been...
The Problem: There is a need for computer systems which can provide large amounts of computing power...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
This report details the accomplishments of the 'Building More Powerful Less Expensive Supercomputers...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
Many high performance applications run well below the peak arithmetic performance of the underlying...
Processing-in-memory (PIM) has been explored for decades by computer architects, yet it has never se...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
Processing-in-memory (PIM) is an approach to address the data transport challenge in future HPC arch...
Abstract. The Data-Intensive Architecture (DIVA) system employs Processing-In-Memory (PIM) chips as ...
International audienceThe tipping point for adoption of PIM is imminent for three main reasons: • Fi...
Decades after being initially explored in the 1970s, Processing in Memory (PIM) is currently experie...
International audienceAll current computing platforms are designed following the von Neumann archite...
International audienceThis paper introduces a new combination of software and hardware PIM (Process-...
Workloads involving higher computational operations require impressive computational units. Computat...
Processing-in-memory (PIM) offers a viable solution to overcome the memory wall crisis that has been...
The Problem: There is a need for computer systems which can provide large amounts of computing power...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
This report details the accomplishments of the 'Building More Powerful Less Expensive Supercomputers...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
Many high performance applications run well below the peak arithmetic performance of the underlying...
Processing-in-memory (PIM) has been explored for decades by computer architects, yet it has never se...
Many modern workloads, such as neural networks, databases, and graph processing, are fundamentally m...
Processing-in-memory (PIM) is an approach to address the data transport challenge in future HPC arch...
Abstract. The Data-Intensive Architecture (DIVA) system employs Processing-In-Memory (PIM) chips as ...