High Density STT-MRAM compiler design, validation and characterization methodology in 28nm FDSOI technology

被引:0
|
作者
Jain, Piyush [1 ]
Kumar, Akshay [1 ]
Van Winkelhoff, Nicolaas [2 ]
Gayraud, Didier [2 ]
Gupta, Surya [1 ]
El Amraoui, Abdelali [2 ]
Palma, Giorgio [2 ]
Gourio, Alexandra [2 ]
Vachez, Laurent [2 ]
Palau, Luc [2 ]
Buy, Jean-Christophe [2 ]
Dray, Cyrille [2 ]
机构
[1] ARM Embedded Technol Pvt Ltd, Noida, India
[2] ARM France, Sophia Antipolis, France
来源
PROCEEDINGS OF THE 2020 DESIGN, AUTOMATION & TEST IN EUROPE CONFERENCE & EXHIBITION (DATE 2020) | 2020年
关键词
STT-MRAM; eMRAM; memory compiler; characterization; architecture;
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
Spin Transfer Torque Magneto-resistive Random-Access Memory (STT-MRAM) is emerging as a promising substitute for flash memories due to scaling challenges for flash in process nodes beyond 28nm. STT-MRAM's high endurance, fast speed and low power makes it suitable for wide variety of applications. An embedded MRAM (eMRAM) compiler is highly desirable to enable SoC designers to use eMRAM instances in their designs in a flexible manner. However, the development of an eMRAM compiler has added challenges of handling multi-fold higher density and maintaining analog circuits accuracy, on top of the challenges associated with conventional SRAM memory compilers. In this paper, we present a successful design methodology for a high density 128Mb eMRAM compiler in a 28nm fully depleted SOI (FDSOI) process. This compiler enables optimized eMRAM instance generation with varying capacity ranges, word -widths, and optional features like repair and error correction. eMRAM compiler design is achieved by evolving various architecture design, validations and characterization methods. A hierarchical and modular characterization methodology is presented to enable high accuracy characterization and industry-standard EDA view generation from the eMRAM compiler.
引用
收藏
页码:1327 / 1330
页数:4
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