Hybrid CMOS-memristor based FPGA architecture

机译：基于混合CMOS存储器的FPGA架构

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摘要

It is understood that FPGAs suffer in terms of area, performance and power consumption relative to ASICs. With increasing demand for greater density and lower power consumption in memory devices, memristors have emerged as a cutting-edge alternative to transistor based circuitry. The basic issue of static power consumption in routing architecture is solved here as there is no static current flow in memristors; they hold their state when no power is applied. In this paper, a single memory cell based on hybrid technology is designed using TEAM model in memristors. In addition, the design of a configurable logic block (CLB), which can be used to fabricate a hybrid CMOS - Memristor FPGA architecture is explained. The paper also presents an Interconnect design based on hybrid technology which is very easy to design and flexible to program. As the routing architecture is the most important factor determining system speed, this hybrid interconnect could create a new generation of fast and power efficient memristor based FPGAs.

机译：可以理解，相对于ASIC，FPGA在面积，性能和功耗方面都受到影响。随着对存储设备中更高密度和更低功耗的需求不断增长，忆阻器已经成为基于晶体管的电路的尖端替代品。由于忆阻器中没有静态电流流动，因此解决了路由架构中静态功耗的基本问题。当不通电时，它们保持其状态。本文采用忆阻器中的TEAM模型设计了基于混合技术的单个存储单元。此外，还解释了可配置逻辑块（CLB）的设计，该结构可用于制造混合CMOS-忆阻器FPGA架构。本文还提出了一种基于混合技术的互连设计，该设计非常容易设计并且编程灵活。由于路由架构是决定系统速度的最重要因素，因此这种混合互连可以创建新一代基于快速，高效节能忆阻器的FPGA。

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来源
《2015 International Conference on VLSI Systems, Architecture, Technology and Applications》|2015年|1-6|共6页
会议地点 Bengaluru(IN)
作者
Sampath Madankumar; Mane Pravin S.; Ramesha C.K.;
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作者单位

K.K. Birla Goa Campus, Dept. of Electr. Electron./Instrum., BITS - Pilani, Zuarinagar, India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Configurable Logic Block(CLB); Field Programmable Gated Array(FPGA); Interconnect; Lookup table(LUT); TEAM model; crossbar array; memristance; memristor; non-volatile memory;

机译：可配置逻辑块（CLB）;现场可编程门控阵列（FPGA）;互连;查找表（LUT）; TEAM模型;交叉开关阵列;忆阻器;忆阻器;非易失性存储器;

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4. Hybrid CMOS-memristor based FPGA architecture [C] . Sampath Madankumar, Mane Pravin S., Ramesha C.K. International Conference on VLSI Systems, Architecture, Technology and Applications . 2015

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Hybrid CMOS-memristor based FPGA architecture

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