Electrospun multifunctional nanofiber nonwovens for bio-inspired computers

Christoph Döpke; Timo Grothe; Michaela Klöcker; Andrea Ehrmann; Tomasz Blachowicz; Pawel Steblinski

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Electrospun multifunctional nanofiber nonwovens for bio-inspired computers

机译：用于生物启发计算机的静电纺多功能纳米纤维无纺布

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Today's computers are based on the so-called von Neumann architecture - processor and memory are separated. For each arithmetic operation, data has to be transported back and forth between these two locations, which costs time and is referred to as the von Neumann bottleneck. In many cases, a bio-inspired architecture would be more efficient that is more like the human brain, where data is processed, stored, and transported within closely spaced small regions and between these areas. In a current project, funded by the Volkswagen Foundation under the funding line "Experiment!", a completely new approach is followed to create hardware for this so-called neuromorphic computing. While other research groups primarily use magnetic tunneling elements and similar modern devices to develop novel bio-inspired computer structures, this project is based on a textile technology -electrospinning.

机译：当今的计算机基于所谓的冯·诺依曼架构-处理器和内存是分开的。对于每个算术运算，必须在这两个位置之间来回传输数据，这会花费时间，并被称为von Neumann瓶颈。在许多情况下，受生物启发的体系结构将更有效，更像人的大脑，在狭窄的小区域内以及这些区域之间处理，存储和传输数据。在由大众基金会资助的“ Experiment！”资助项目下的当前项目中，采用了一种全新的方法来为这种所谓的神经形态计算创建硬件。虽然其他研究小组主要使用磁性隧道元件和类似的现代设备来开发新颖的，受生物启发的计算机结构，但该项目基于纺织技术-静电纺丝。

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《Technische Textilien》 |2019年第1期|45-47|共3页
作者
Christoph Döpke; Timo Grothe; Michaela Klöcker; Andrea Ehrmann; Tomasz Blachowicz; Pawel Steblinski;
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作者单位

Bielefeld University of Applied Sciences, Faculty of Engineering and Mathematics, Bielefeld/Germany;

Bielefeld University of Applied Sciences, Faculty of Engineering and Mathematics, Bielefeld/Germany;

Bielefeld University of Applied Sciences, Faculty of Engineering and Mathematics, Bielefeld/Germany;

Bielefeld University of Applied Sciences, Faculty of Engineering and Mathematics, Bielefeld/Germany;

Silesian University ofTechnology, Institute of Physics, Gliwice/Poland;

Koszalin University of Technology, Faculty of Electronics and Informatics, Koszalin/Poland;

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Electrospun multifunctional nanofiber nonwovens for bio-inspired computers

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