In this paper, we present Bi-Modal Cache - a flexible stacked DRAM cache organization which simultaneously achieves several objectives: (i) improved cache hit ratio, (ii) moving the tag storage overhead to DRAM, (iii) lower cache hit latency than tags-in-SRAM, and (iv) reduction in off-chip bandwidth wastage. The Bi-Modal Cache addresses the miss rate versus off-chip bandwidth dilemma by organizing the data in a bi-modal fashion - blocks with high spatial locality are organized as large blocks and those with little spatial locality as small blocks. By adaptively selecting the right granularity of storage for individual blocks at run-time, the proposed DRAM cache organization is able to make judicious use of the available DRAM cache capacity...
DRAM caches have been shown to be an effective way to utilize the bandwidth and capacity of 3D stack...
Abstract—Die-stacked DRAM caches represent an emerging technology that offers a new level of cache b...
The twin demands of energy-efficiency and higher performance on DRAM are highly emphasized in multic...
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...
Abstract—Recent research advocates large die-stacked DRAM caches in manycore servers to break the me...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Die-stacking technology allows conventional DRAM to be integrated with processors. While numerous op...
DRAM caches have shown excellent potential in capturing the spatial and temporal data locality of ap...
Die-stacking is a new technology that allows multiple integrated circuits to be stacked on top of ea...
Abstract—This paper analyzes the trade-offs in architecting stacked DRAM either as part of main memo...
© 2017 Association for Computing Machinery. Placing the DRAM in the same package as a processor enab...
<p>Hybrid main memories composed of DRAM as a cache to scalable non-volatile memories such as phase-...
Recent research advocates large die-stacked DRAM caches in manycore servers to break the memory late...
Die-stacked DRAM has been proposed for use as a large, high-bandwidth, last-level cache with hundred...
DRAM caches have been shown to be an effective way to utilize the bandwidth and capacity of 3D stack...
Abstract—Die-stacked DRAM caches represent an emerging technology that offers a new level of cache b...
The twin demands of energy-efficiency and higher performance on DRAM are highly emphasized in multic...
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...
Abstract—Recent research advocates large die-stacked DRAM caches in manycore servers to break the me...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Die-stacking technology allows conventional DRAM to be integrated with processors. While numerous op...
DRAM caches have shown excellent potential in capturing the spatial and temporal data locality of ap...
Die-stacking is a new technology that allows multiple integrated circuits to be stacked on top of ea...
Abstract—This paper analyzes the trade-offs in architecting stacked DRAM either as part of main memo...
© 2017 Association for Computing Machinery. Placing the DRAM in the same package as a processor enab...
<p>Hybrid main memories composed of DRAM as a cache to scalable non-volatile memories such as phase-...
Recent research advocates large die-stacked DRAM caches in manycore servers to break the memory late...
Die-stacked DRAM has been proposed for use as a large, high-bandwidth, last-level cache with hundred...
DRAM caches have been shown to be an effective way to utilize the bandwidth and capacity of 3D stack...
Abstract—Die-stacked DRAM caches represent an emerging technology that offers a new level of cache b...
The twin demands of energy-efficiency and higher performance on DRAM are highly emphasized in multic...