Reconfigurable magnetologic computing using the spin flop switching of a magnetic random access memory cell

A Ney, JS Harris - Applied Physics Letters, 2005 - pubs.aip.org
Today's computers rely on dissipative logic gates that are based on transistors. Increasing
computational power means increasing the integration density and power dissipation …
被引用次数:34 相关文章

Reconfigurable magnetologic computing using the spin flop switching of a magnetic random access memory cell

A Ney, JS Harris Jr - Applied Physics Letters, 2004 - research.ibm.com
Today's computers rely on dissipative logic gates that are based on transistors. Increasing
computational power means increasing the integration density and power dissipation …

[引用][C] Reconfigurable magnetologic computing using the spin flop switching of a magnetic random access memory cell

A Ney, JS Harris - Applied Physics Letters, 2005 - cir.nii.ac.jp
Reconfigurable magnetologic computing using the spin flop switching of a magnetic
random access memory cell | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …

Reconfigurable magnetologic computing using the spin flop switching of a magnetic random access memory cell

A Ney, JS Harris - Applied Physics Letters, 2005 - ui.adsabs.harvard.edu
Today's computers rely on dissipative logic gates that are based on transistors. Increasing
computational power means increasing the integration density and power dissipation …

Reconfigurable magnetologic computing using the spin flop switching of a magnetic random access memory cell

A Ney, JS Harris - Applied Physics Letters, 2005 - pubs.aip.org
Today's computers rely on dissipative logic gates that are based on transistors. Increasing
computational power means increasing the integration density and power dissipation …