\u3cp\u3eThe conventional approach of moving stored data to the CPU for computation has become a major performance bottleneck for emerging scale-out data-intensive applications due to their limited data reuse. At the same time, the advancement in integration technologies have made the decade-old concept of coupling compute units close to the memory (called Near-Memory Computing) more viable. Processing right at the 'home' of data can completely diminish the data movement problem of data-intensive applications. This paper focuses on analyzing and organizing the extensive body of literature on near-memory computing across various dimensions: starting from the memory level where this paradigm is applied, to the granularity of the application t...
Over the last decades, a tremendous change toward using information technology in almost every daily...
100 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In the architectural aspect, ...
pre-printWhile Processing-in-Memory has been investigated for decades, it has not been embraced comm...
The conventional approach of moving stored data to the CPU for computation has become a major perfor...
\u3cp\u3eThe conventional approach of moving data to the CPU for computation has become a significan...
The conventional approach of moving data to the CPU for computation has become a significant perform...
The conventional approach of moving stored data to the CPU for computation has become a major perfor...
The limitations of DRAM technology in terms of energy consumption and Bandwidth poses a serious prob...
\u3cp\u3eEmerging computing architectures such as near-memory computing (NMC) promise improved perfo...
Abstract—The end of Dennard scaling has made all sys-tems energy-constrained. For data-intensive app...
The exponential growth of the dataset size demanded by modern big data applications requires innovat...
Near-memory Computing (NMC) promises improved performance for the applications that can exploit the ...
For the past two decades, the scaling of main memory lags behind the advancement of computation in a...
Over the last decades, a tremendous change toward using information technology in almost every daily...
100 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In the architectural aspect, ...
pre-printWhile Processing-in-Memory has been investigated for decades, it has not been embraced comm...
The conventional approach of moving stored data to the CPU for computation has become a major perfor...
\u3cp\u3eThe conventional approach of moving data to the CPU for computation has become a significan...
The conventional approach of moving data to the CPU for computation has become a significant perform...
The conventional approach of moving stored data to the CPU for computation has become a major perfor...
The limitations of DRAM technology in terms of energy consumption and Bandwidth poses a serious prob...
\u3cp\u3eEmerging computing architectures such as near-memory computing (NMC) promise improved perfo...
Abstract—The end of Dennard scaling has made all sys-tems energy-constrained. For data-intensive app...
The exponential growth of the dataset size demanded by modern big data applications requires innovat...
Near-memory Computing (NMC) promises improved performance for the applications that can exploit the ...
For the past two decades, the scaling of main memory lags behind the advancement of computation in a...
Over the last decades, a tremendous change toward using information technology in almost every daily...
100 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In the architectural aspect, ...
pre-printWhile Processing-in-Memory has been investigated for decades, it has not been embraced comm...