一个灵活的DRAM子系统设计空间探索框架

Q4 Engineering

IPSJ Transactions on System LSI Design Methodology Pub Date : 2015-01-01 DOI:10.2197/ipsjtsldm.8.63

Matthias Jung, C. Weis, N. Wehn

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引用次数: 55

摘要

在从移动设备到服务器的各种系统中，动态随机存取存储器(DRAM)对性能有很大的影响，并且贡献了总消耗功率的很大一部分。传统的基于ddr3的解决方案被拉长了，因为它们的最大带宽受到I/O计数和接口速度的限制。随着新的解决方案(JEDEC DDR4, JEDEC WIDE I/O，美光的混合存储立方体:HMC或JEDEC的高带宽内存:HBM)进入市场，评估这些解决方案的性能并评估它们对特定应用的适用性至关重要。此外，在具有3D堆叠的系统中，高功率密度和散热的挑战加剧了。关键是要有一个灵活和全面的DRAM子系统框架，以详尽的设计空间探索，它可以处理所有这些不同类型的存储器，以及性能，功耗和温度方面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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DRAMSys: A Flexible DRAM Subsystem Design Space Exploration Framework

In systems ranging from mobile devices to servers, Dynamic Random Access Memories (DRAM) have a big impact on performance and contributes a significant part of the total consumed power. Conventional DDR3-based solutions are stretched thin as their maximum bandwidth is limited by the I/O count and interface speed. As new solutions are coming onto the market (JEDEC DDR4, JEDEC WIDE I/O, Micron’s hybrid memory cube: HMC or JEDEC’s high bandwidth memory: HBM) it is critical to evaluate the performance of these solutions and assess their suitability for specific applications. Furthermore, in systems with 3D stacking, the challenges of high power densities and thermal dissipation are exacerbated. It is crucial to have a flexible and holistic DRAM subsystem framework for exhaustive design space explorations, which can handle all this different types of memories, as well as the aspects of performance, power and temperature.

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来源期刊

IPSJ Transactions on System LSI Design Methodology Engineering-Electrical and Electronic Engineering

CiteScore

1.20

自引率

0.00%

发文量