公募情報/公開情報
受賞・報道など
2019年度
報道
| 158 | Electronics Weekly. com, "Researchers demo CMOS-compatible SOT MRAM cell", 2019/12/24 |
|---|---|
| 157 | マイナビニュース 「新たな産学連携モデル「B-U-B」で⼤学発ベンチャーの育成を目指す東北⼤学」 2019/12/20 |
| 156 | Communications of the ACM, "Demonstration of High-Speed SOT-MRAM Memory Cell Compatible with 300-mm Si CMOS Technology", 2019/12/17 |
| 155 | Cloudhosting, "Cloud Gateways For File-Based Applications And IEDM Announcements – Forbes", 2019/12/17 |
| 154 | Forbes, "Cloud Gateways For File-Based Applications And IEDM Announcements", 2019/12/16 |
| 153 | Forbes, "MRAM In Perspective", 2019/12/16 |
| 152 | Linkedin_Hprobe, "Industry News from IEDM", 2019/12/13 |
| 151 | 日経xTECH 「東北大が書き込みの速い「SOT-MRAM」、SRAMの1~2次キャッシュ代替も視野に」 2019/12/13 |
| 150 | TechEyes, 「東北大学、SOT-MRAM セルの動作実証に成功」 2019/12/12 |
| 149 | IT media, 「東北⼤学、SOT-MRAMセルの動作実証に成功」 2019/12/12 |
| 148 | EE Times Japan 「新たな磁気メモリの実用化近づく:東北大学、SOT-MRAMセルの動作実証に成功」 2019/12/12 |
| 147 | 電子デバイス産業新聞 「東北大学イノベーターズカンファレンス 東北大・遠藤氏が講演 書き換え耐性の重要性説く」 2019/12/12 |
| 146 | MRAM-info, "Researchers in Japan developed a high-speed SOT-MRAM memory cell compatible with 300mm Si CMOS technology", 2019/12/10 |
| 145 | Power Systems Design, "SOT-MRAM Memory Cell Compatible with 300mm Si CMOS Tech", 2019/12/10 |
| 144 | OPTRONICS ONLINE 「東北大ら,無磁場高速書き換えSOT素子を開発」 2019/12/10 |
| 143 | Yahoo JAPAN ニュース 「SRAMの代替になる不揮発性SOT-MRAMの実用化で大きく前進」 2019/12/10 |
| 142 | PC Watch 「SRAMの代替になる不揮発性SOT-MRAMの実用化で大きく前進」 2019/12/10 |
| 141 | fabcross エンジニア 「SRAM代替を可能にする高速、高耐熱性、データ保持特性を持つスピン軌道トルク素子(SOT)を開発 東北大」 2019/12/10 |
| 140 | themediahq, "Demonstration of fast SOT-MRAM memory cell compatible with 300 mm Si CMOS technology", 2019/12/10 |
| 139 | EureAlert!, "Demonstration of high-speed SOT-MRAM memory cell compatible with 300mm Si CMOS technology", 2019/12/9 |
| 138 | Scienmag, "Demonstration of high-speed SOT-MRAM memory cell compatible with 300mm Si CMOS technology", 2019/12/9 |
| 137 | Parallelstate , "Demonstration of high-speed SOT-MRAM memory cell compatible with 300 mm Si CMOS technology", 2019/12/9 |
| 136 | TechXplore, "Demonstration of high-speed SOT-MRAM memory cell compatible with 300 mm Si CMOS technology", 2019/12/9 |
| 135 | Latest daily news, "Demonstration of fast SOT-MRAM memory cell compatible with 300 mm Si CMOS technology", 2019/12/9 |
| 134 | Asia Research News, "Demonstration of High-speed SOT-MRAM Memory Cell Compatible with 300mm Si CMOS Technology", 2019/12/9 |
| 133 | Technology News_Latest techno news, "Demonstration of high-speed SOT-MRAM memory cell compatible with 300mm Si CMOS technology", 2019/12/9 |
| 132 | CDRinfo, "Researchers Demonstrate High-speed SOT-MRAM Memory Cell Compatible with 300mm Si CMOS Technology", 2019/12/9 |
| 131 | ScienceDaily, "Demonstration of high-speed SOT-MRAM memory cell compatible with 300mm Si CMOS technology", 2019/12/9 |
| 130 | 日本経済新聞電子版 「東北⼤、無磁場⾼速書き換えスピン軌道トルク素⼦の開発とCMOS技術との集積化によりSOT-MRAMセルの動作実証に成功」 2019/12/9 |
| 129 | CDO Trends, "Who Needs Pricey Quantum Computers When You Can Have p-bits? ", 2019/12/2 |
| 128 | 河北新報、 「特許発案吹雪の中で」 22面、2019/12/1 |
| 127 | Sciligent, "The first high-speed straight motion of magnetic skyrmions at room temperature demonstrated", 2019/11/22 |
| 126 | Science Feeds at MentalBreezecom, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/20 |
| 125 | Computational Future, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/20 |
| 124 | LongRoom, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/20 |
| 123 | Parallelstate, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/20 |
| 122 | Physics News, "The first high-speed straight motion of magnetic skyrmions at room temperature demonstrated", 2019/11/20 |
| 121 | 15 MINUTE NEWS, "The first high-speed straight motion of magnetic skyrmions at room temperature demonstrated", 2019/11/19 |
| 120 | INDIA NEWS, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/19 |
| 119 | Justdial, "The first high-speed straight motion of magnetic skyrmions at room temperature demonstrated", 2019/11/19 |
| 118 | Sense of Urgency, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/19 |
| 117 | Technology News_Latest techno news, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/19 |
| 116 | EurekAlert!, "The First High-speed Straight Motion of Magnetic Skyrmion at Room Temperature Demonstrated", 2019/11/19 |
| 115 | PHYS ORG, "The first high-speed straight motion of magnetic skyrmions at room temperature demonstrated", 2019/11/19 |
| 114 | Science Daily, "First high-speed straight motion of magnetic skyrmion at room temperature demonstrated", 2019/11/19 |
| 113 | OPTRONICS ONLINE 「東北大、ナノ世界で磁気渦の高速直進運動を観測」 2019/11/15 |
| 112 | 日本経済新聞電子版 「東北大、ナノの世界で現れる磁気の渦の高速直進運動を実現」 2019/11/14 |
| 111 | 電子デバイス産業新聞 「レビュー 第6回電子デバイスフォーラム京都 基調講演」 5面、2019/11/14 |
| 110 | PC Watch 「GF、組み込み向けフラッシュメモリを置き換えるSTT-MRAMの生産を開始」 2019/10/29 |
| 109 | Semiconductor engineering, "Building An MRAM Array", 2019/10/17 |
| 108 | 河北新報社 「ビックデータ時代 需要増」 9面、2019/10/10 |
| 107 | 電子デバイス産業新聞 「自動車、5Gなど最新トレンド網羅」 12面、2019/10/10 |
| 106 | Mashable India, "Poor man's qubit' can solve quantum problems without going quantum", 2019/9/30 |
| 105 | Science Alert, "This New Chip Could Bridge The Gap Between Classical And Quantum Computing ", 2019/9/28 |
| 104 | benzinga, "Poor man's qubit' can solve quantum problems without going quantum", 2019/9/25 |
| 103 | EE Times Japan 「pビットで因数分解を実証:東北大ら、新概念のスピントロニクス素子を開発」 2019/9/25 |
| 102 | Virtual Strategy Magazine, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/25 |
| 101 | The Silicon Review, "Poor man's qubit' can solve quantum problems with quantum computing", 2019/9/23 |
| 100 | Industry Herald 24, "Poor Man’s Qubit", 2019/9/23 |
| 99 | spacedaily, "Poor man's qubit can solve quantum problems without going quantum", 2019/9/23 |
| 98 | Hpcwire, "Is there a probabilistic computer in your future", 2019/9/23 |
| 97 | Focus Technica, "Poor Man’s Qubit: First Hardware of a Probabilistic Computer Now Available", 2019/9/20 |
| 96 | INTERESING ENGINEERING, "Poor Man's Qubit: First Hardware of a Probabilistic Computer Now Available", 2019/9/20 |
| 95 | AIP Scilight, "Increasing the thermal tolerance of reference layer for STT-MRAM manufacturing", 2019/9/20 |
| 94 | CDRinfo, "Researchers Create "Poor-man's q-bit" Device Based on Spintronics That Solves Quantum Problems at Room Temperature ", 2019/9/19 |
| 93 | TechNewSources, "Poor Man’s Qubit Can Solve Quantum Problems Without Going Quantum", 2019/9/19 |
| 92 | bit-tech, "Researchers build working probabilistic computer", 2019/9/19 |
| 91 | Primeur magazine, "Poor-man's q-bit based on spintronics can solve quantum problems at room temperature", 2019/9/19 |
| 90 | natureasia.com 「コンピューティング:スピンによる確率論的コンピューティング」 2019/9/19 |
| 89 | sciglow, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/19 |
| 88 | alphagalileo, "Poor-man's q-bit" based on spintronics can solve quantum problems at room temperature, 2019/9/19 |
| 87 | ENERGY METAL NEWS, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/19 |
| 86 | The qubitreport, "Purdue University Pushes Forward With Probabilistic Bits, P-bits; “Poor Man’s Q-bit”", 2019/9/19 |
| 85 | JPRALVES.NET, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/19 |
| 84 | LITHIUM NEWS, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/19 |
| 83 | 日刊工業新聞Newsウェーブ21 「東北大、スピントロニクス素子を開発 室温中で効率計算」 2019/9/19 |
| 82 | Xinhuanet, "Engineers create first hardware linking classical, quantum computing ", 2019/9/19 |
| 81 | sense of urgency, "Poor man’s qubit can solve quantum problems without going quantum ", 2019/9/18 |
| 80 | Nation News, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/18 |
| 79 | vixra.org, "Poor Man's Qubit", 2019/9/18 |
| 78 | 日経プレスリリース 「東北大、室温動作スピントロニクス素子を用いて量子アニーリングマシンの機能を実現」 2019/9/18 |
| 77 | Justdial, "Poor man's qubit' can solve quantum problems without going quantum", 2019/9/18 |
| 76 | overclock, "[Phys.org]'Poor man's qubit' can solve quantum problems without going quantum", 2019/9/18 |
| 75 | TechRepublic, "Researchers are performing integer factorization using modified MRAM", 2019/9/18 |
| 74 | reddit, "Poor man's qubit' can solve quantum problems without going quantum", 2019/9/18 |
| 73 | SuperPosition, "Poor Mans until Quantum computer comes", 2019/9/18 |
| 72 | PHYS ORG, "Poor man's qubit' can solve quantum problems without going quantum", 2019/9/18 |
| 71 | Science Spies, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/18 |
| 70 | ScienceDaily, "Poor man's qubit' can solve quantum problems without going quantum", 2019/9/18 |
| 69 | Nature Japan com.、Volume 573 Number 7774 「コンピューティング:量子ビットに匹敵する確率的磁気ビット」 2019/9/18 |
| 68 | EurekAlert!, "Poor man's qubit' can solve quantum problems without going quantum ", 2019/9/18 |
| 67 | La ciencia de la mula francis, "Factorizan el número 945 usando un ordenador probabilístico con 8 probits", 2019/9/18 |
| 66 | Purdue University, "Poor man’s qubit can solve quantum problems without going quantum", 2019/9/18 |
| 65 | Science & Technology Research News, "Accelerating Development of STT-MRAM: Observing Ultrathin MgO Chemical Bonding States", 2019/8/7 |
| 64 | nano werk, "Accelerating development of STT-MRAM: Observing ultrathin MgO chemical bonding states", 2019/8/5 |
| 63 | Physics News, "Accelerating development of STT-MRAM", 2019/8/5 |
| 62 | PHYS ORG, "Accelerating development of STT-MRAM", 2019/8/5 |
| 61 | AlphaGalileo, "Accelerating Development of STT-MRAM: Observing Ultrathin MgO Chemical Bonding States", 2019/8/5 |
| 60 | EurekAlert 「高輝度放射光(SPring-8)を用いて STT-MRAM用極薄MgOトンネル障壁膜の化学結合状態の微視的変化の観測に初めて成功」 2019/8/5 |
| 59 | The National Tribune, "Accelerating Development of STT-MRAM: Observing Ultrathin MgO Chemical Bonding States", 2019/8/2 |
| 58 | 化学工業日報 「特許庁、年次報告19年版、国際特許出願は中国増加続く」 2面、2019/7/30 |
| 57 | 電子デバイス産業新聞 「パワースピン 事業活動を本格化」 3面、2019/7/25 |
| 56 | 特許行政年次報告書 2019年版 「コラム:大学研究者の責務であり本来業務とは?」 P174-177、2019/7/12 |
| 55 | 電子デバイス産業新聞 「CIES MTJを高温で動作 自動車などにも適用可」 3面、2019/7/11 |
| 54 | Tech News, "Neuron and synapse-mimetic spintronics devices developed", 2019/7/02 |
| 53 | The Latest, "Neuron and synapse-mimetic spintronics devices developed", 2019/7/02 |
| 52 | 日本経済新聞電子版 「東北大、大学発ベンチャー「パワースピン」を設立-スピントロニクス技術でIoTデバイスとAIシステム中心に事業展開」 2019/7/01 |
| 51 | OPTRONICS ONLINE 「東北大ら,硬X線光電子分光でMgOの化学結合を解明」 2019/6/28 |
| 50 | @engineer 「高輝度放射光(SPring-8)を用いて STT-MRAM用極薄MgOトンネル障壁膜の 化学結合状態の微視的変化の観測に...【東北大学】(6/27) 」 2019/6/27 |
| 49 | 牧岡ふうふ堂 「高輝度放射光(SPring-8)を用いて STT-MRAM用極薄MgOトンネル障壁膜の 化学結合状態の微視的変化の観測に初めて成功 ~原子拡散挙動を決定する化学結合状態の 微視的観測により高性能STT-MRAMの開発を加速~(東北大学)」 2019/6/27 |
| 48 | 日本経済新聞電子版 「東北大と高輝度光科学研究センター、STT-MRAM用極薄MgOトンネル障壁膜の化学結合状態の微視的変化の観測に成功」 2019/6/27 |
| 47 | Elektor MAGAZINE, "New MJT Structure Makes STT-MRAMs Robust", 2019/6/25 |
| 46 | 日経エレクトロニクス 「Breakthrough:もっと大学-第1部:大学の挑戦 公費削減が壊す学術の園 共創の競争で産業界入り」 P22-27、2019/6/20 |
| 45 | EE Times Japan 「150℃でも十分な熱安定性を実現: 東北大学、車載用途に対応可能なMTJ技術を開発」 2019/6/17 |
| 44 | IT media 「150℃でも十分な熱安定性を実現: 東北大学、車載用途に対応可能なMTJ技術を開発」 2019/6/17 |
| 43 | Elector, "Verbesserte Tunnelstrukturen für STT-MRAM", 2019/6/17 |
| 42 | Phys. org, "Development of durable MTJ under harsh environment for STT-MRAM at 1Xnm technology node", 2019/6/14 |
| 41 | EurecAlert!, "Development of durable MTJ under harsh environment for STT-MRAM at 1Xnm technology node", 2019/6/14 |
| 40 | CDRinfo, "Researchers Prove That 1Xnm STT-MRAM Could be Used in Automotives and Harsh Environments", 2019/6/14 |
| 39 | 日本経済新聞電子版 「東北大、150℃の耐環境下でデータ保持時間を100万倍に延ばせる1Xnm世代向け高信頼MTJの開発に成功」 2019/6/12 |
| 38 | Semiconductor engineering, "Accurate Error Bit Mode Analysis Of STT-MRAM Chip With A Novel Current Measurement Module", 2019/6/11 |
| 37 | 河北新報 「省エネ社会構築目指す」 2019/5/22 |
| 36 | 日経xTECH 「東北大新キャンパスのイノベーション創出戦略とは」 2019/5/15 |
| 35 | 電子デバイス産業新聞 ウェブサイト 「東北大学はスピントロニクスマイコン開発しAIチップで世界最先行」 2019/5/10 |
| 34 | 大学ジャーナル 「ニューロンとシナプスの動作を再現する素子を東北大学が開発、脳に似た情報処理実現に期待」 2019/4/26 |
| 33 | SPACE DAILY, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/23 |
| 32 | Space Media Network, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/23 |
| 31 | Innovation Toronto, "New spintronics devices behave like neurons and synapses in the human brain", 2019/4/23 |
| 30 | Revolution-Green, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/20 |
| 29 | 日経エレクトロニクス 「東北大が不揮発性マイコン200MHzで平均47μWに」 2019/4/20 |
| 28 | OPTRONICS ONLINE, 「東北大,脳の神経回路網をスピントロニクス素子で再現」 2019/4/18 |
| 27 | PSYCHOLOGY ROOTS, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/18 |
| 26 | One News Page, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 25 | World News Monitors, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 24 | Stories Flow, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 23 | Green Wisdom Health, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 22 | Newstral, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 21 | 7th Space, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 20 | Healthglu, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 19 | The Indian Perspective, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 18 | JUSTBALANCINGHEALTH, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 17 | Medicine news line, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 16 | nano werk, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 15 | PHYS ORG, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 14 | innovations report, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 13 | ScienceDaily, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 12 | fabcross エンジニア、 「ニューロンとシナプスに似た動作を示す新型のスピントロニクス素子を開発――脳を模した新型コンピュータ開発に期待 東北大」 2019/4/17 |
| 11 | 脳科学メディア、 「ニューロンとシナプスに似た動作を示す新型のスピントロニクス素子を開発――脳を模した新型コンピュータ開発に期待 東北大」 2019/4/17 |
| 10 | EurekAlert!, "Neuron and synapse-mimetic spintronics devices developed", 2019/4/17 |
| 9 | EurekAlert! 「ニューロンとシナプスの動作を再現する変幻自在なスピントロニクス素子を開発 ~脳を模した革新的情報処理への応用に期待~」 2019/4/17 |
| 8 | 日本の研究.com 「ニューロンとシナプスの動作を再現する変幻自在なスピントロニクス素子を開発 ~脳を模した革新的情報処理への応用に期待~」 2019/4/17 |
| 7 | 日本経済新聞 電子版 「東北大、ニューロンとシナプスの動作を再現する変幻自在なスピントロニクス素子を開発 」 2019/4/17 |
| 6 | 日経xTECH 「高速動作のまま桁違いの低消費電力化、東北大学が不揮発性マイコン開発 電源や電池なしでの動作を目指す」 2019/4/17 |
| 5 | excite ニュース 「ニッポン半導体の本格復活は新型メモリーの開発ラッシュにあり」 2019/4/4 |
| 4 | limo.media 「ニッポン半導体の本格復活は新型メモリーの開発ラッシュにあり パワースピンのMRAM、富士通のFRAM、ソニーのReRAMに注目」 2019/4/4 |
| 3 | Yahoo JAPAN ニュース 「ニッポン半導体の本格復活は新型メモリーの開発ラッシュにあり」 2019/4/4 |
| 2 | auone 「ニッポン半導体の本格復活は新型メモリーの開発ラッシュにあり」 2019/4/4 |
| 1 | semiconportal 「MRAMはマイコンやプロセッサへの集積化で超低消費電力の威力を発揮」 2019/4/3 |