The Impulse Adaptable Memory System exposes DRAM access patterns not seen in conventional memory systems. For instance, it can generate 32 DRAM accesses each of which requests a four-byte word in 32 cycles. Conventional DRAM backends are optimized for accesses that request full cache lines. They may not be able to handle smaller accesses effectively
In an extensively data-driven and technology-centric world, there has presently been a high demand f...
When a memory access for a dynamic random access memory (DRAM) is completed, the accessed page is cl...
Modern DRAM devices’ performance and energy efficiency are significantly improved when the ro...
Impulse is a new memory system architecture that adds two important features to a traditional memory...
Impulse is a new memory system architecture that adds two important features to a traditional memory...
This paper presents the Impulse adaptable memory sys-tem, which allows applications to make efficien...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Computing paradigms largely evolved over the last decades mainly driven by continuously increasing p...
The effective bandwidth of the FPGA external memory, usually DRAM, is extremely sensitive to the acc...
For decades, main memory has enjoyed the continuous scaling of its physical substrate: DRAM (Dynamic...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
c © The Authors 2014. This paper is published with open access at SuperFri.org The memory system is ...
Die-stacking technology allows conventional DRAM to be integrated with processors. While numerous op...
<p>Modern DRAM cells are periodically refreshed to prevent data loss due to leakage. Commodity DDR (...
The main memory of modern IT devices mainly uses DRAM to store data. DRAM consists of a MOS transist...
In an extensively data-driven and technology-centric world, there has presently been a high demand f...
When a memory access for a dynamic random access memory (DRAM) is completed, the accessed page is cl...
Modern DRAM devices’ performance and energy efficiency are significantly improved when the ro...
Impulse is a new memory system architecture that adds two important features to a traditional memory...
Impulse is a new memory system architecture that adds two important features to a traditional memory...
This paper presents the Impulse adaptable memory sys-tem, which allows applications to make efficien...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
Computing paradigms largely evolved over the last decades mainly driven by continuously increasing p...
The effective bandwidth of the FPGA external memory, usually DRAM, is extremely sensitive to the acc...
For decades, main memory has enjoyed the continuous scaling of its physical substrate: DRAM (Dynamic...
Dynamic Random Access Memories (DRAM) are the dominant solid-state memory devices used for primary m...
c © The Authors 2014. This paper is published with open access at SuperFri.org The memory system is ...
Die-stacking technology allows conventional DRAM to be integrated with processors. While numerous op...
<p>Modern DRAM cells are periodically refreshed to prevent data loss due to leakage. Commodity DDR (...
The main memory of modern IT devices mainly uses DRAM to store data. DRAM consists of a MOS transist...
In an extensively data-driven and technology-centric world, there has presently been a high demand f...
When a memory access for a dynamic random access memory (DRAM) is completed, the accessed page is cl...
Modern DRAM devices’ performance and energy efficiency are significantly improved when the ro...