Scaling tape-recording areal densities to 100 Gb/in2

首页> 外文期刊>IBM Journal of Research and Development >Scaling tape-recording areal densities to 100 Gb/in2

【24h】

Scaling tape-recording areal densities to 100 Gb/in2

机译：将磁带记录的面密度扩展到100 Gb / in2

获取原文

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

We examine the issue of scaling magnetic tape-recording to higher areal densities, focusing on the challenges of achieving 100 Gb/in2 in the linear tape format. The current highest achieved areal density demonstrations of 6.7 Gb/in2 in the linear tape and 23.0 Gb/in2 in the helical scan format provide a reference for this assessment. We argue that controlling the head-tape interaction is key to achieving high linear density, whereas track-following and reel-to-reel servomechanisms as well as transverse dimensional stability are key for achieving high track density. We envision that advancements in media, data-detection techniques, reel-to-reel control, and lateral motion control will enable much higher areal densities. An achievable goal is a linear density of 800 Kb/in and a track pitch of 0.2 µm, resulting in an areal density of 100 Gb/in2.

机译：我们研究了将磁带记录扩展到更高的面密度的问题，重点关注以线性磁带格式实现100 Gb / in2的挑战。当前在线性磁带中实现的最高面密度显示为6.7 Gb / in2，在螺旋扫描格式中为23.0 Gb / in2，为该评估提供了参考。我们认为控制磁头带相互作用是获得高线性密度的关键，而磁道跟随和卷盘伺服机制以及横向尺寸稳定性是实现高磁道密度的关键。我们设想，媒体，数据检测技术，卷到卷控制和横向运动控制方面的进步将实现更高的面密度。可以实现的目标是线密度为800 Kb / in，轨道间距为0.2 µm，从而导致面密度为100 Gb / in2。

著录项

来源
《IBM Journal of Research and Development》 |2008年第4期|P.513-527|共15页
作者

展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种
中图分类
关键词

相似文献

外文文献
中文文献
专利

1. Scaling tape-recording areal densities to 100Gb/in~2 [J] . A. J. Argumedo, D. Berman, R. G. Biskeborn, IBM Journal of Research and Development . 2008,第4a5期

机译：将磁带记录的面密度扩展到100Gb / in〜2
2. Sony Develops Magnetic Tape Technology with the World's Highest Areal Recording Density of 148 Gb/in2 [J] . Japan Telecom . 2014,第4期

机译：索尼开发了世界上最高的Areal记录密度148 Gb / in2的磁带技术
3. Laminated antiferromagnetically coupled media for 100 Gb/In{sup}2 areal density and beyond [J] . J. P. Wang, S. N. Piramanayagam, C. H. Hee, 電子情報通信学会技術研究報告. 磁気記録. Magnetic Recording . 2001,第399期

机译：叠层反铁磁耦合介质的面密度为100 Gb / In {sup} 2
4. Perpendicular recording heads for areal densities over 100 Gb/in2 [C] . Nakamoto K., Kawato Y., Yoshida N., Joint NAPMRC 2003. Digest of Technical Papers Perpendicular Magnetic Recording Conference 2003 . -1

机译：垂直密度大于100 Gb / in 2 的垂直记录头
5. Cascaded ROADM filter replication and the effects of statistical variations in the response of cascaded ROADMs on 100 Gb/s DP-QPSK system performance. [D] . Doggart, Clayton. 2017

机译：级联ROADM过滤器复制以及级联ROADM响应中的统计变化对100 Gb / s DP-QPSK系统性能的影响。
6. Scalable Wire‐Type Asymmetric Pseudocapacitor Achieving High Volumetric Energy/Power Densities and Ultralong Cycling Stability of 100 000 Times [O] . Qiuyue Gui, Lingxia Wu, Yuanyuan Li, 2019

机译：可扩展的线型非对称伪电容器可实现高体积能量/功率密度和超长循环稳定性（100000次）
7. Scaling tape-recording areal densities to 100 Gb/in 2 [O] . A. J. Argumedo, D. Berman, R. G. Biskeborn, 2008

机译：将磁带记录的面密度扩展到100 Gb / in 2

Scaling tape-recording areal densities to 100 Gb/in2

摘要

著录项

相似文献

相关主题

期刊订阅