Why we need near memory computing Niche application Data reorganization engines Computing near storage FPGAs for computing near memory WHY AREN’T WE THERE YET? § Processing near memory is attractive for high bandwidth, low latency, massive parallelism § 90’s era designs closely integrated logic and DRAM transisto
Abstract—Modern scientific discovery is driven by an in-satiable demand for computing performance. T...
The memory system is a fundamental performance and energy bottleneck in al-most all computing system...
While the compute part keeping scaling for decades, it becomes more and more difficult for the memor...
Efficient data motion has been key in high performance computing almost since the first electronic c...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
The limitations of DRAM technology in terms of energy consumption and Bandwidth poses a serious prob...
The ASC Exascale Hardware Architecture working group is challenged to provide input on the following...
The performance of supercomputers is not growing anymore at the rate it once used to. Several years ...
\u3cp\u3eThe conventional approach of moving stored data to the CPU for computation has become a maj...
The conventional approach of moving stored data to the CPU for computation has become a major perfor...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
Thesis (Ph. D.)--University of Rochester. Department of Electrical and Computer Engineering, 2016.Si...
As the performance of DRAM devices falls more and more behind computing capabilities, the limitation...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
The next frontier of high performance computing is the Exascale, and this will certainly stand as a ...
Abstract—Modern scientific discovery is driven by an in-satiable demand for computing performance. T...
The memory system is a fundamental performance and energy bottleneck in al-most all computing system...
While the compute part keeping scaling for decades, it becomes more and more difficult for the memor...
Efficient data motion has been key in high performance computing almost since the first electronic c...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
The limitations of DRAM technology in terms of energy consumption and Bandwidth poses a serious prob...
The ASC Exascale Hardware Architecture working group is challenged to provide input on the following...
The performance of supercomputers is not growing anymore at the rate it once used to. Several years ...
\u3cp\u3eThe conventional approach of moving stored data to the CPU for computation has become a maj...
The conventional approach of moving stored data to the CPU for computation has become a major perfor...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
Thesis (Ph. D.)--University of Rochester. Department of Electrical and Computer Engineering, 2016.Si...
As the performance of DRAM devices falls more and more behind computing capabilities, the limitation...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
The next frontier of high performance computing is the Exascale, and this will certainly stand as a ...
Abstract—Modern scientific discovery is driven by an in-satiable demand for computing performance. T...
The memory system is a fundamental performance and energy bottleneck in al-most all computing system...
While the compute part keeping scaling for decades, it becomes more and more difficult for the memor...