Add to ORKGAbstract—This paper analyzes the trade-offs in architecting stacked DRAM either as part of main memory or as a hardware-managed cache. Using stacked DRAM as part of main memory increases the effective capacity, but obtaining high performance from such a system requires Operating System (OS) support to migrate data at a page-granularity. Using stacked DRAM as a hardware cache has the advantages of being transparent to the OS and perform data management at a line-granularity but suffers from reduced main memory capacity. This is because the stacked DRAM cache is not part of the memory address space. Ideally, we want the stacked DRAM to contribute towards capacity of main memory, and still maintain the hardware-based fine-granularity of a cach...
<p>Hybrid main memories composed of DRAM as a cache to scalable non-volatile memories such as phase-...
Die-stacking technology allows conventional DRAM to be integrated with processors. While numerous op...
As device technologies scale in the nanometer era, the current off-chip DRAM technologies are very c...
the tight integration of significant quantities of DRAM with high-performance computation logic. How...
Abstract—Recent technology advancements allow for the integration of large memory structures on-die ...
Abstract—Recent research advocates large die-stacked DRAM caches in manycore servers to break the me...
Die-stacking is a new technology that allows multiple integrated circuits to be stacked on top of ea...
Abstract—Die-stacked DRAM caches represent an emerging technology that offers a new level of cache b...
Abstract—The memory bandwidth can dramatically be improved by means of stacking the main memory (DRA...
This paper presents an operating system managed die-stacked DRAM called i-MIRROR that mirrors high l...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
In this paper, we present Bi-Modal Cache - a flexible stacked DRAM cache organization which simultan...
Memory (cache, DRAM, and disk) is in charge of providing data and instructions to a computer\u27s pr...
The memory system is a major bottleneck in achieving high performance and energy efficiency for vari...
DRAM caches have shown excellent potential in capturing the spatial and temporal data locality of ap...
<p>Hybrid main memories composed of DRAM as a cache to scalable non-volatile memories such as phase-...
Die-stacking technology allows conventional DRAM to be integrated with processors. While numerous op...
As device technologies scale in the nanometer era, the current off-chip DRAM technologies are very c...
the tight integration of significant quantities of DRAM with high-performance computation logic. How...
Abstract—Recent technology advancements allow for the integration of large memory structures on-die ...
Abstract—Recent research advocates large die-stacked DRAM caches in manycore servers to break the me...
Die-stacking is a new technology that allows multiple integrated circuits to be stacked on top of ea...
Abstract—Die-stacked DRAM caches represent an emerging technology that offers a new level of cache b...
Abstract—The memory bandwidth can dramatically be improved by means of stacking the main memory (DRA...
This paper presents an operating system managed die-stacked DRAM called i-MIRROR that mirrors high l...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
In this paper, we present Bi-Modal Cache - a flexible stacked DRAM cache organization which simultan...
Memory (cache, DRAM, and disk) is in charge of providing data and instructions to a computer\u27s pr...
The memory system is a major bottleneck in achieving high performance and energy efficiency for vari...
DRAM caches have shown excellent potential in capturing the spatial and temporal data locality of ap...
<p>Hybrid main memories composed of DRAM as a cache to scalable non-volatile memories such as phase-...
Die-stacking technology allows conventional DRAM to be integrated with processors. While numerous op...
As device technologies scale in the nanometer era, the current off-chip DRAM technologies are very c...