Monday, February 15, 2016

Non-Boolean computing with nanomagnets for computer vision applications-- Nature nanotechnology (2015).


Stages in object recognition.

Bhanja, Sanjukta, D. K. Karunaratne, Ravi Panchumarthy, Srinath Rajaram, and Sudeep Sarkar. "Non-Boolean computing with nanomagnets for computer vision applications." Nature nanotechnology (2015).
http://www.nature.com/nnano/journal/v11/n2/full/nnano.2015.245.html 


Abstract:  The field of nanomagnetism has recently attracted tremendous attention as it can potentially deliver low-power, high-speed and dense non-volatile memories. It is now possible to engineer the size, shape, spacing, orientation and composition of sub-100 nm magnetic structures. This has spurred the exploration of nanomagnets for unconventional computing paradigms. Here, we harness the energy-minimization nature of nanomagnetic systems to solve the quadratic optimization problems that arise in computer vision applications, which are computationally expensive. By exploiting the magnetization states of nanomagnetic disks as state representations of a vortex and single domain, we develop a magnetic Hamiltonian and implement it in a magnetic system that can identify the salient features of a given image with more than 85% true positive rate. These results show the potential of this alternative computing method to develop a magnetic coprocessor that might solve complex problems in fewer clock cycles than traditional processors.

NCRG in National Science Foundation News

Nanoscale magnets could compute complex functions significantly faster than conventional computers--News from the Field, National Science Foundation. Read more at

http://www.nsf.gov/news/news_summ.jsp?cntn_id=136758&org=NSF



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