Floating Point Multiplication Mapping on ReRAM Based In-memory Computing Architecture

机译：基于ReRAM的内存计算架构上的浮点乘法映射

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Low leakage power, high endurance and non-volatile storage capabilities have made memristive devices, such as Resistive RAM (ReRAM) popular. ReRAMs also offer in-memory computing capabilities by means of stateful logic operations. However, there are no standard libraries for floating point operations on ReRAM-based in-memory computing platforms. In this paper, we propose a mapping for one such mathematical function, namely multiplication for floating point numbers. We undertook a detailed study to derive a mapping with low memory footprint on ReVAMP architecture, which is an in-memory computing platform based on ReRAM crossbar arrays. For multiplication of two IEEE-754 compliant single (or double) precision numbers, the proposed mapping requires 1.944 Kb (or 8.904 Kb) of computation memory, 374.4 Kb (or 3457 Kb) of instruction memory while consuming an energy equivalent to 5.6 pJ (or 471 pJ).

机译：低泄漏功率，高耐用性和非易失性存储功能已使忆阻器件（例如电阻RAM（ReRAM））流行。 ReRAM还通过状态逻辑操作提供内存中计算功能。但是，在基于ReRAM的内存计算平台上没有用于浮点运算的标准库。在本文中，我们提出了一个这样的数学函数的映射，即浮点数的乘法。我们进行了详细的研究，以得出ReVAMP架构上具有低内存占用量的映射，该架构是基于ReRAM交叉开关阵列的内存计算平台。为了将两个IEEE-754兼容的单（或双）精度数字相乘，建议的映射需要1.944 Kb（或8.904 Kb）的计算存储器，374.4 Kb（或3457 Kb）的指令存储器，同时消耗的能量等于5.6 pJ（或471 pJ）。

著录项

来源
《International Conference on VLSI Design;International Conference on Embedded Systems》|2018年|439-444|共6页
会议地点
作者
Tarun Vatwani; Arko Dutt; Debjyoti Bhattacharjee; Anupam Chattopadhyay;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Adders; Resistive RAM; Libraries; Nonvolatile memory; Memory management; Switches;

机译：加法器;电阻RAM;库;非易失性存储器;存储器管理;开关;

相似文献

外文文献
中文文献
专利

1. Crossbar-Constrained Technology Mapping for ReRAM Based In-Memory Computing [J] . Bhattacharjee Debjyoti, Tavva Yaswanth, Easwaran Arvind, IEEE Transactions on Computers . 2020,第5期

机译：基于RERAM的内存计算的横杆约束技术映射
2. A scalable and reconfigurable in-memory architecture for ternary deep spiking neural network with ReRAM based neurons [J] . Neurocomputing . 2020,第Jana29期

机译：具有基于ReRAM的神经元的三元深度强化神经网络的可扩展且可重新配置的内存结构
3. Circuits and Architectures for In-Memory Computing-Based Machine Learning Accelerators [J] . Ankit Aayush, Chakraborty Indranil, Agrawal Amogh, IEEE Micro . 2020,第6期

机译：基于内存计算的机器学习加速器的电路和架构
4. Floating Point Multiplication Mapping on ReRAM Based In-memory Computing Architecture [C] . Tarun Vatwani, Arko Dutt, Debjyoti Bhattacharjee, International Conference on VLSI Design . 2018

机译：基于RERAM的内存计算架构的浮点乘法映射
5. Modeling, Mapping and Programming on an FPGA Emulated In-Memory Computing Architecture [D] . Dervay, Andrew. 2021

机译：模拟，映射和编程在内存计算架构中的FPGA
6. A RISC-V Processor with Area-Efficient Memristor-Based In-Memory Computing for Hash Algorithm in Blockchain Applications [O] . Xiaoyong Xue, Chenzedai Wang, Wenjun Liu, 2019

机译：具有基于面积忆阻器的内存计算的RISC-V处理器用于区块链应用中的哈希算法
7. Crossbar-Constrained Technology Mapping for ReRAM Based In-Memory Computing [O] . Debjyoti Bhattacharjee, Yaswanth Tavva, Arvind Easwaran, 2020

机译：基于RERAM的内存计算的横杆约束技术映射
8. Distributed design tools: Mapping targeted design tools onto a Web-based distributed architecture for high-performance computing [R] . Holmes, V. P. , Linebarger, J. M. , Miller, D. J. , 1999

机译：分布式设计工具：将目标设计工具映射到基于Web的分布式架构，以实现高性能计算

Floating Point Multiplication Mapping on ReRAM Based In-memory Computing Architecture

摘要

著录项

相似文献

相关主题

期刊订阅