The von Neumann architecture, in which the memory and the computation units are separated, demands massive data traffic between the memory and the CPU. To reduce data movement, new technologies and computer architectures have been explored. The use of memristors, which are devices with both memory and computation capabilities, has been considered for different processing-in-memory (PIM) solutions, including using memristive stateful logic for a programmable digital PIM system. Nevertheless, all previous work has focused on a specific stateful logic family, and on optimizing the execution for a certain target machine. These solutions require new compiler and compilation when changing the target machine, and provide no backward compatibility ...
\u3cp\u3eComputation-in-memory reverses the trend in von-Neumann processors by bringing the computat...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
Processors based on the von Neumann architecture show inefficient performance on many emerging data-...
International audienceThe von Neumann architecture, in which the memory and the computation units ar...
Processing-in-memory (PIM) is rapidly rising as a viable solution for the memory wall crisis, reboun...
Memristive devices are promising candidates as a complement to CMOS devices. These devices come with...
In-memory computing is a promising computing paradigm due to its capability to alleviate the memory ...
The memory-wall problem is a big challenge that classical Von Neumann-based computer systems face. T...
Decades after being initially explored in the 1970s, Processing in Memory (PIM) is currently experie...
Workloads involving higher computational operations require impressive computational units. Computat...
The explosive increase in data volume in emerging applications poses grand challenges to computing s...
Processing-in-memory (PIM) has been explored for decades by computer architects, yet it has never se...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
General purpose processors and accelerators including system-on-a-chip and graphics processing units...
In recent years, we are witnessing a trend toward in-memory computing for future generations of comp...
\u3cp\u3eComputation-in-memory reverses the trend in von-Neumann processors by bringing the computat...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
Processors based on the von Neumann architecture show inefficient performance on many emerging data-...
International audienceThe von Neumann architecture, in which the memory and the computation units ar...
Processing-in-memory (PIM) is rapidly rising as a viable solution for the memory wall crisis, reboun...
Memristive devices are promising candidates as a complement to CMOS devices. These devices come with...
In-memory computing is a promising computing paradigm due to its capability to alleviate the memory ...
The memory-wall problem is a big challenge that classical Von Neumann-based computer systems face. T...
Decades after being initially explored in the 1970s, Processing in Memory (PIM) is currently experie...
Workloads involving higher computational operations require impressive computational units. Computat...
The explosive increase in data volume in emerging applications poses grand challenges to computing s...
Processing-in-memory (PIM) has been explored for decades by computer architects, yet it has never se...
In recent years, we are witnessing a trend moving away from conventional computer architectures towa...
General purpose processors and accelerators including system-on-a-chip and graphics processing units...
In recent years, we are witnessing a trend toward in-memory computing for future generations of comp...
\u3cp\u3eComputation-in-memory reverses the trend in von-Neumann processors by bringing the computat...
Conventional computing architectures and the CMOS technology that they are based on are facing major...
Processors based on the von Neumann architecture show inefficient performance on many emerging data-...