Article at DEEPSTUFF.ORG

Nanomagnets able to solve complex functions significantly faster than conventional computers
Read more at http://www.deepstuff.org/nanomagnets-able-to-solve-complex-functions-significantly-faster-than-conventional-computers/

Phys.Org--Study finds new way of computing with interaction-dependent state change of nanomagnets

Researchers from the University of South Florida College of Engineering have proposed a new form of computing that uses circular nanomagnets to solve quadratic optimization problems orders of magnitude faster than that of a conventional computer.

Read more at: http://phys.org/news/2015-10-interaction-dependent-state-nanomagnets.html#jCp

Researchers from the University of South Florida College of Engineering have proposed a new form of computing that uses circular nanomagnets to solve quadratic optimization problems orders of magnitude faster than that of a conventional computer.

Read more at: http://phys.org/news/2015-10-interaction-dependent-state-nanomagnets.html#jCp

Study finds new way of computing with interaction-dependent state change of nanomagnets. Read more at http://phys.org/news/2015-10-interaction-dependent-state-nanomagnets.html

Researchers from the University of South Florida College of Engineering have proposed a new form of computing that uses circular nanomagnets to solve quadratic optimization problems orders of magnitude faster than that of a conventional computer.

Read more at: http://phys.org/news/2015-10-interaction-dependent-state-nanomagnets.html#jCp

Researchers from the University of South Florida College of Engineering have proposed a new form of computing that uses circular nanomagnets to solve quadratic optimization problems orders of magnitude faster than that of a conventional computer.

Read more at: http://phys.org/news/2015-10-interaction-dependent-state-nanomagnets.html#jCphttp://phys.org/news/2015-10-interaction-dependent-state-nanomagnets.html

Scicasts---Team Finds New Way of Computing with Interaction-Dependent State Change of Nanomagnets

Researchers from the University of South Florida College of Engineering have proposed a new form of computing that uses circular nanomagnets to solve quadratic optimization problems orders of magnitude faster than that of a conventional computer. Read more at

https://scicasts.com/scientific-computing/1864-nanotechnology/10225-team-finds-new-way-of-computing-with-interaction-dependent-state-change-of-nanomagnets/

EurekaAlert--USF team finds new way of computing with interaction-dependent state change of nanomagnets

University of South Florida engineering researchers find nano-scale magnets could compute complex functions significantly faster than conventional computers

Read more at  http://www.eurekalert.org/pub_releases/2015-10/uosf-utf102815.php

Sanjukta Bhanja-- Featured Engineering at EEWeb (week of 2/16/15)

Sanjukta Bhanja was featured  Engineer of the week of 2/16/15. To see the interview visit 

Interview with Dr. Sanjukta Bhanja 

Team "Secret" comprising of Jayita Das and Kevin Scott is the first-place winner of NYU organized Cybersecurity event "The Embedded Security Challenge"

The Embedded Security Challenge deals with the security and trustworthiness of hardware. This year, students were challenged to focus on emerging technologies and materials and to prove to us why they are valuable and secure. Representatives of 10 student teams were invited to the finals, where they presented their research to judges. All three winners were from Florida:

1^st place: SECurity Researchers in Emerging Technology (SECRET), University of South Florida—Jayita Das and Kevin P. Scott

USF teams receive grants to develop socially beneficial products

Sanjukta Bhanja's I-Corps Project was featured in http://www.83degreesmedia.com

Read more--

http://www.83degreesmedia.com/innovationnews/NSF120214.aspx