Litcius/Paper detail

Research progress in architecture and application of RRAM with computing-in-memory

Chenyu Wang, Ge Shi, Fei Qiao, Rubin Lin, Shien Wu, Zenan Hu

2023Nanoscale Advances58 citationsDOIOpen Access PDF

Abstract

buses, reducing computing speed and increasing energy loss. Research is underway to increase computing power, such as developing new chips and adopting new system architectures. Computing-in-memory (CIM) technology allows data to be computed directly on the memory, changing the current computation-centric architecture and designing a new storage-centric architecture. Resistive random access memory (RRAM) is one of the advanced memories which has appeared in recent years. RRAM can change its resistance with electrical signals at both ends, and the state will be preserved after power-down. It has potential in logic computing, neural networks, brain-like computing, and fused technology of sense-storage-computing. These advanced technologies promise to break the performance bottleneck of traditional architectures and dramatically increase computing power. This paper introduces the basic concepts of computing-in-memory technology and the principle and applications of RRAM and finally gives a conclusion about these new technologies.

Topics & Concepts

Resistive random-access memoryVon Neumann architectureIn-Memory ProcessingBottleneckComputer scienceComputer architectureArchitectureComputationMemristorMemory architectureUnconventional computingComputing with MemoryEmbedded systemComputer memoryDistributed computingSemiconductor memoryComputer hardwareEngineeringElectrical engineeringInterleaved memoryOperating systemVoltageInformation retrievalSearch engineAlgorithmWeb search queryQuery by ExampleVisual artsArtAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesNeuroscience and Neural Engineering