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Create the page "Nano Electronic" on this wiki! See also the search results found.
- * [[:Category:Nano-TCAD|Nano-TCAD]] ** [[Flexible Electronic Systems and Embedded Epidermal Devices]]5 KB (540 words) - 12:31, 8 May 2024
- reliable computing system in nano-meter technology operating in [[Category:Nano Electronic]]3 KB (409 words) - 10:52, 27 March 2014
- This project is sponsored by [[:Category:UltrasoundToGo|UltrasoundToGo Nano-Tera Project]] [[Category:Nano Electronic]]4 KB (614 words) - 20:10, 17 February 2015
- [[Category:Nano Electronic]]3 KB (405 words) - 16:13, 29 December 2016
- [[Category:Nano Electronic]]3 KB (382 words) - 20:00, 26 September 2017
- [[Category:Nano Electronic]]3 KB (392 words) - 12:33, 15 April 2016
- [[Category:Nano Electronic]]3 KB (385 words) - 11:13, 14 April 2016
- [[Category:Nano Electronic]]3 KB (508 words) - 11:12, 14 April 2016
- [[Category:Nano Electronic]]2 KB (300 words) - 14:11, 13 March 2014
- : Interest in Electronic Design automation (EDA) [[Category:Nano Electronic]]3 KB (386 words) - 16:23, 30 October 2020
- [[Category:Nano Electronic]]3 KB (492 words) - 12:34, 7 November 2017
- heterogeneous computing system in nano-meter technology. You will learn [[Category:Nano Electronic]]3 KB (407 words) - 10:57, 5 November 2019
- [[Category:Nano Electronic]]3 KB (429 words) - 09:42, 12 October 2017
- [[Category:Nano Electronic]]2 KB (329 words) - 17:44, 21 December 2017
- [[Category:Nano Electronic]]2 KB (319 words) - 17:43, 21 December 2017
- ...xperiments. The first task consists in automatizing the calculation of the electronic bandstructure of the considered semiconductors using a commercial ab-initio : [http://www.nano-tcad.ethz.ch/en/general-information/people/professors/uid/6326.html Mathieu3 KB (456 words) - 15:43, 4 September 2019
- : Nano-Tera: [[:Category:Qcrypt| Qcrypt]] ...at highest data rates. The research task of ETHZ-IIS and HESSO-REDS in the nano-tera project [[:Category:Qcrypt|QCRYPT]] was the development of the 100 Gbi2 KB (359 words) - 20:06, 17 February 2015
- ...ment (circuit) have precise deterministic values, as well as the fact that electronic chips are powered at nominal voltages for increased performances, have been * [http://www.nano-tera.ch/projects/451.php Nano Tera project page for IcySoC]4 KB (568 words) - 12:48, 9 February 2015
- ...have proven being a cost efficient solution for controlling many kinds of electronic devices: Home entertainment, air condition, home lighting. For this reason3 KB (515 words) - 19:55, 9 February 2015
- ...nterfaces and derive the parameters describing them. For this purpose, the electronic structure of exemplary systems represinting the different reaction stage ...strongly influences the growth,dissolutionand stabilityof the filament.The Nano-TCAD group has developed an electrochemical model in COMSOL to simulate ON/4 KB (488 words) - 17:12, 16 September 2021
- [[Category:Nano Electronic]]4 KB (518 words) - 16:07, 6 May 2019
- [[Category:Nano Electronic]]2 KB (348 words) - 20:01, 26 September 2017
- [[Category:Nano Electronic]]3 KB (413 words) - 16:05, 21 July 2016
- [[Category:Nano Electronic]]3 KB (501 words) - 14:26, 2 September 2015
- [[Category:Nano Electronic]]3 KB (378 words) - 11:52, 10 January 2017
- [[Category:Nano Electronic]]3 KB (420 words) - 11:22, 14 April 2016
- ...preprogrammed time-window. Circuit elements are constructed using discrete electronic components (operational amplifiers, comparators, passives etc.). Wake-up si [[Category:Nano-TCAD]]7 KB (895 words) - 17:02, 28 July 2017
- [[Category:Nano Electronic]]3 KB (366 words) - 13:05, 27 April 2018
- [[Category:Nano Electronic]]2 KB (368 words) - 18:58, 19 December 2016
- [[Category:Nano Electronic]]3 KB (375 words) - 17:46, 2 May 2017
- [[Category:Nano Electronic]]3 KB (358 words) - 11:40, 20 August 2021
- [[Category:Nano Electronic]]3 KB (362 words) - 17:35, 21 December 2017
- consists in applying electronic warfare concepts to estimate the [[Category:Nano-TCAD]]4 KB (609 words) - 11:38, 21 July 2017
- [[Category:Nano Electronic]]3 KB (428 words) - 11:45, 20 August 2021
- [[Category:Nano Electronic]]3 KB (453 words) - 11:45, 20 August 2021
- [[Category:Nano Electronic]]4 KB (514 words) - 15:51, 20 August 2021
- ...h performance electronic devices. The research on the development of these electronic devices is crucial for quantum computers based on these systems. Quantum co [[Category:Nano-TCAD]]5 KB (599 words) - 09:03, 21 December 2017
- [[Category:Nano Electronic]]3 KB (382 words) - 11:44, 20 August 2021
- [[Category:Nano Electronic]]3 KB (358 words) - 15:59, 18 February 2019
- : Interest in creative electronic design [[Category:Nano Electronic]]3 KB (447 words) - 16:11, 18 September 2018
- [[Category:Nano Electronic]]2 KB (359 words) - 16:06, 6 May 2019
- [[Category:Nano Electronic]]2 KB (356 words) - 15:55, 6 May 2019
- [[Category:Nano Electronic]]2 KB (347 words) - 11:43, 20 August 2021
- ...r actually owns the coins that he spends. ZCash would enable a distributed electronic cash systems with no compromises in user privacy. [[Category:Nano-TCAD]]5 KB (614 words) - 15:02, 4 March 2019
- [[Category:Nano Electronic]]3 KB (350 words) - 14:52, 25 September 2019
- ...roscience and its neuroprosthetic applications is to interface intelligent electronic devices with the biological brain to cure neurological diseases. Neural cod [[Category:Nano-TCAD]]5 KB (634 words) - 19:20, 9 March 2020
- ...rich in potential for both scientific and technical applications, because electronic systems operating in low THz frequency range would offer great cost and por [[Category:Nano-TCAD]]4 KB (517 words) - 17:09, 16 September 2021
- ...ation in semiconductors is fundamental to the design and the robustness of electronic devices. : [http://www.nano-tcad.ethz.ch/en/general-information/people/professors/uid/6326.html Mathieu5 KB (665 words) - 10:30, 5 June 2019
- Failure mechanisms in power electronic devices that are caused by single event and dose-related effects due to ion : [http://www.nano-tcad.ethz.ch/en/general-information/people/professors/uid/6326.html Mathieu4 KB (493 words) - 16:31, 5 June 2019
- ...y entering in our life and they are more and more pushing the interest big electronic producer. Then, today many company are offering wearable "smart" objects to [[Category:Nano-TCAD]]4 KB (519 words) - 15:41, 10 November 2020
- ...rcalation-based devices. Familiarity with experimental characterization of electronic devices is desirable. [[Category:Nano-TCAD]]5 KB (640 words) - 14:13, 23 June 2021
- simulations in vibrational, optical, and electronic properties and transport properties of functional devices, [[Category:Nano-TCAD]]3 KB (372 words) - 17:06, 16 September 2021
- ...rials have seen a surge of interest in recent years for their advantageous electronic properties. For [[Category:Nano-TCAD]]2 KB (327 words) - 17:06, 16 September 2021
- ...roscience and its neuroprosthetic applications is to interface intelligent electronic devices with the biological brain to cure neurological diseases. Neural cod [[Category:Nano-TCAD]]5 KB (619 words) - 19:58, 10 March 2024
- ...of the incoming signals [2]. With a meta-surface equipped with integrated electronic circuits, RIS has the power to combat adversarial effects of wireless propa [[Category:Nano-TCAD]]8 KB (1,011 words) - 12:25, 16 November 2023
- ...peration with the University of Arts London to combine the latest wearable electronic trends with fashion. Although there is no limit to your creativity, your po [[Category:Nano-TCAD]]3 KB (463 words) - 08:38, 23 November 2022
- ...n-memory computing”. Most specifically you will build and understand the electronic phase-change synapses, broadly referred to by phase change memory in-memory : [http://www.nano-tcad.ethz.ch/en/general-information/people/professors/uid/6326.html Mathieu4 KB (546 words) - 13:07, 23 July 2021
- ...igital VLSI designs are synchronous due to the availability of easy-to-use electronic design automation (EDA) software that significantly facilitates circuit des [[Category:Nano-TCAD]]6 KB (725 words) - 17:36, 20 October 2021
- ...hemical design,they are predicted to find applications in a large range of electronic, optoelectronic and spintronics devices. One of such applications is as a q Interest in quantum transport theory and nano-device modeling.3 KB (460 words) - 17:28, 20 February 2023
- ...conventional piezos, they are quite lossy, placing special demands on the electronic drive system. Therefore, characterisation of these transducers is essential [[Category:Nano-TCAD]]7 KB (903 words) - 10:04, 24 July 2023