With the growing demand for more energy efficient computing hardware to support edge computing applications, Logic-in-Memory (LiM) computing architectures are a promising candidate for implementing ultra-low-power in-memory hardware accelerators of logic operations. In this work, future opportunities for LiM solutions and their main reliability challenges are discussed
The aim of the project is to propose a RISC-Vlim microprocessor that supports Logic-in-Memory operat...
Reliability of logic circuits is emerging as an important concern that may limit the benefits of con...
In the last decades, the computing technology experienced tremendous developments. For instance, tra...
With the growing demand for more energy efficient computing hardware to support edge computing appli...
Logic circuits based on Resistive RAM (RRAM) devices and the material implication logic (IMPLY) are ...
The speed of modern digital systems is severely limited by memory latency (the “Memory Wall” problem...
Logic-in-memory (LiM) circuits based on resistive random access memory (RRAM) devices and the materi...
Low-power smart devices are becoming pervasive in our world. Thus, relevant research efforts are dir...
The need for processing the continuously growing amount of data that is produced every day is promot...
As the fraction of integrated circuit area dedicated to embedded memory continues to increase, the e...
Edge computing has been shown to be a promising solution that could relax the burden imposed onto th...
The Logic-in-Memory paradigm is considered a promising solution for improving the energy efficiency ...
Presented at Phase Change Workshop, Villars sur Ollon (Switzerland)Edge computing requires highly en...
International audienceThe technology evolution addresses the demand for faster computers. Despite th...
Non-volatile memory does not consume a lot of energy hence it is good to use in low power applicatio...
The aim of the project is to propose a RISC-Vlim microprocessor that supports Logic-in-Memory operat...
Reliability of logic circuits is emerging as an important concern that may limit the benefits of con...
In the last decades, the computing technology experienced tremendous developments. For instance, tra...
With the growing demand for more energy efficient computing hardware to support edge computing appli...
Logic circuits based on Resistive RAM (RRAM) devices and the material implication logic (IMPLY) are ...
The speed of modern digital systems is severely limited by memory latency (the “Memory Wall” problem...
Logic-in-memory (LiM) circuits based on resistive random access memory (RRAM) devices and the materi...
Low-power smart devices are becoming pervasive in our world. Thus, relevant research efforts are dir...
The need for processing the continuously growing amount of data that is produced every day is promot...
As the fraction of integrated circuit area dedicated to embedded memory continues to increase, the e...
Edge computing has been shown to be a promising solution that could relax the burden imposed onto th...
The Logic-in-Memory paradigm is considered a promising solution for improving the energy efficiency ...
Presented at Phase Change Workshop, Villars sur Ollon (Switzerland)Edge computing requires highly en...
International audienceThe technology evolution addresses the demand for faster computers. Despite th...
Non-volatile memory does not consume a lot of energy hence it is good to use in low power applicatio...
The aim of the project is to propose a RISC-Vlim microprocessor that supports Logic-in-Memory operat...
Reliability of logic circuits is emerging as an important concern that may limit the benefits of con...
In the last decades, the computing technology experienced tremendous developments. For instance, tra...
DOI
Add to ORKG