DRAM caches have shown excellent potential in capturing the spatial and temporal data locality of applications capitalizing on advances of 3D-stacking technology; however, they are still far from their ideal performance. Besides the unavoidable DRAM access to fetch the requested data, tag access is in the critical path, adding significant latency and energy costs. Existing approaches are not able to remove these overheads and in some cases limit DRAM cache design options. For instance, caching DRAM cache tags adds constant latency to every access; accessing the DRAM cache using the TLB calls for OS support and DRAM cachelines as large as a page; reusing the last-level cache (LLC) tags to access the DRAM cache limits LLC performance as it re...
This paper presents an operating system managed die-stacked DRAM called i-MIRROR that mirrors high l...
We propose to overcome the memory capacity limitation of GPUs with a Heterogeneous Memory Stack (HMS...
Die stacking memory technology can enable gigascale DRAM caches that can operate at 4x-8x higher ban...
DRAM caches have been shown to be an effective way to utilize the bandwidth and capacity of 3D stack...
Abstract—Recent research advocates large die-stacked DRAM caches in manycore servers to break the me...
The bandwidth of traditional DRAM is pin limited and so does not scale wellwith the increasing deman...
© 2017 Association for Computing Machinery. Placing the DRAM in the same package as a processor enab...
Recent research advocates large die-stacked DRAM caches in manycore servers to break the memory late...
In this paper, we present Bi-Modal Cache - a flexible stacked DRAM cache organization which simultan...
IEEE Due to the large storage capacity, high bandwidth and low latency, 3D DRAM is proposed to be th...
<p>Hybrid main memories composed of DRAM as a cache to scalable non-volatile memories such as phase-...
the tight integration of significant quantities of DRAM with high-performance computation logic. How...
Abstract—This paper analyzes the trade-offs in architecting stacked DRAM either as part of main memo...
Die-stacking is a new technology that allows multiple integrated circuits to be stacked on top of ea...
This paper proposes a novel cache architecture suitable for merged DRAM/logic LSIs, which is called ...
This paper presents an operating system managed die-stacked DRAM called i-MIRROR that mirrors high l...
We propose to overcome the memory capacity limitation of GPUs with a Heterogeneous Memory Stack (HMS...
Die stacking memory technology can enable gigascale DRAM caches that can operate at 4x-8x higher ban...
DRAM caches have been shown to be an effective way to utilize the bandwidth and capacity of 3D stack...
Abstract—Recent research advocates large die-stacked DRAM caches in manycore servers to break the me...
The bandwidth of traditional DRAM is pin limited and so does not scale wellwith the increasing deman...
© 2017 Association for Computing Machinery. Placing the DRAM in the same package as a processor enab...
Recent research advocates large die-stacked DRAM caches in manycore servers to break the memory late...
In this paper, we present Bi-Modal Cache - a flexible stacked DRAM cache organization which simultan...
IEEE Due to the large storage capacity, high bandwidth and low latency, 3D DRAM is proposed to be th...
<p>Hybrid main memories composed of DRAM as a cache to scalable non-volatile memories such as phase-...
the tight integration of significant quantities of DRAM with high-performance computation logic. How...
Abstract—This paper analyzes the trade-offs in architecting stacked DRAM either as part of main memo...
Die-stacking is a new technology that allows multiple integrated circuits to be stacked on top of ea...
This paper proposes a novel cache architecture suitable for merged DRAM/logic LSIs, which is called ...
This paper presents an operating system managed die-stacked DRAM called i-MIRROR that mirrors high l...
We propose to overcome the memory capacity limitation of GPUs with a Heterogeneous Memory Stack (HMS...
Die stacking memory technology can enable gigascale DRAM caches that can operate at 4x-8x higher ban...