A Circuit-Architecture Co-optimization Framework for Exploring Nonvolatile Memory Hierarchies

XIANGYU DONG; NORMAN P. JOUPPI; YUAN XIE

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A Circuit-Architecture Co-optimization Framework for Exploring Nonvolatile Memory Hierarchies

机译：用于探索非易失性存储器层次结构的电路架构协同优化框架

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Many new memory technologies are available for building future energy-efficient memory hierarchies. It is necessary to have a framework that can quickly find the optimal memory technology at each hierarchy level. In this work, we first build a circuit-architecture joint design space exploration framework by combining RC circuit analysis and Artificial Neural Network (ANN)-based performance modeling. Then, we use this framework to evaluate some emerging nonvolatile memory hierarchies. We demonstrate that a Resistive RAM (ReRAM)-based cache hierarchy on an 8-core Chip-Multiprocessor (CMP) system can achieve a 24% Energy Delay Product (EDP) improvement and a 36% Energy Delay Area Product (EDAP) improvement compared to a conventional hierarchy with SRAM on-chip caches and DRAM main memory.

机译：许多新的内存技术可用于构建未来的节能型内存层次结构。必须有一个可以在每个层次结构级别上快速找到最佳内存技术的框架。在这项工作中，我们首先将RC电路分析与基于人工神经网络（ANN）的性能建模相结合，构建了电路与架构的联合设计空间探索框架。然后，我们使用此框架评估一些新兴的非易失性存储器层次结构。我们证明，与之相比，在8核芯片多处理器（CMP）系统上基于电阻RAM（ReRAM）的缓存层次结构可以实现24％的能量延迟乘积（EDP）改进和36％的能量延迟区域乘积（EDAP）改进。到具有SRAM片上缓存和DRAM主存储器的常规体系结构。

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《ACM Transactions on Architecture and Code Optimization 》 |2013年第4期| 共22页
作者
XIANGYU DONG; NORMAN P. JOUPPI; YUAN XIE;
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正文语种 eng
中图分类计算技术、计算机技术 ;
关键词
Memory; Cache; Nonvolatile; Design exploration; SRAM; DRAM; ReRAM; STTRAM; PCRAM;

机译：内存;高速缓存;非易失性;设计探索;SRAM;DRAM;ReRAM;STTRAM;PCRAM;

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专利

1. A Circuit-Architecture Co-optimization Framework for Exploring Nonvolatile Memory Hierarchies [J] . XIANGYU DONG, NORMAN P. JOUPPI, YUAN XIE ACM Transactions on Architecture and Code Optimization . 2013 ,第4期

机译：用于探索非易失性存储器层次结构的电路架构协同优化框架
2. CACF: A Novel Circuit Architecture Co-optimization Framework for Improving Performance, Reliability and Energy of ReRAM-based Main Memory System [J] . Zhang Yang, Feng Dan, Tong Wei, ACM Transactions on Architecture and Code Optimization . 2018 ,第2期

机译：CACF：一种新型电路架构共同优化框架，用于提高基于Reram的主要内存系统的性能，可靠性和能量
3. BACH：A Bandwidth-Aware Hybrid Cache Hierarchy Design with Nonvolatile Memories [J] . Jishen Zhao, Cong Xu, Tao Zhang, 计算机科学技术学报（英文版） . 2016 ,第001期

机译：BACH：具有非易失性内存的带宽感知混合缓存层次结构设计
4. A circuit-architecture co-optimization framework for evaluating emerging memory hierarchies [C] . Dong Xiangyu, Jouppi Norman P., Xie Yuan IEEE International Symposium on Performance Analysis of Systems and Software . 2013

机译：用于评估新兴内存层次结构的电路架构协同优化框架
5. Rethinking the memory hierarchy design with nonvolatile memory technologies. [D] . Zhao, Jishen. 2014

机译：重新考虑采用非易失性存储器技术的存储器层次结构设计。
6. Transistor Memory: 45‐Diazafluorene‐Based Donor–Acceptor Small Molecules as Charge Trapping Elements for Tunable Nonvolatile Organic Transistor Memory (Adv. Sci. 12/2018) [O] . Yang Yu, Lin‐Yi Bian, Jian‐Guo Chen, 2018

机译：晶体管存储器：45-二氮杂芴基供体-受体小分子作为可调非易失性有机晶体管存储器的电荷俘获元件（Adv。Sci。12/2018）
7. Exploring Latency-Power Tradeoffs in Deep Nonvolatile Memory Hierarchies [O] . Doe Hyun Yoon, Tobin Gonzalez, Parthasarathy Ranganathan, 2014

机译：探索深度非易失性存储器层次结构中的延迟 - 功耗权衡
8. 2K nonvolatile shadow RAM and 265K EEPROM SONOS nonvolatile memory development [R] . Nasby, R. D. , Murray, J. R. , Habermehl, S. D. , 1998

机译：2K非易失性影子Ram和265K EEpROm sONOs非易失性存储器开发

A Circuit-Architecture Co-optimization Framework for Exploring Nonvolatile Memory Hierarchies

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