Video describing the Toky Tech Sun HPC Cluster

HPC Sun Tokyo Tech marcatsun

design thesis exploring urban processes as a generator for new architecture. the thesis is tested through a proposal for a new university in odaiba, tokyo.

final movie johndoyletokyo

Host of worlds first GPU-based supercomputer on the Top 500 list, Tokyo Institute of Technology is doing research into the future of supercomputing. They have discovered that the GPU is enabling new possibilities in terms of performance and power consumption. With their high compute density, GPUs allows tremendous scaling and shortening of compute time from months down to days across demanding supercomputing-class problems.

NVIDIA Tesla CUDA GPU parallel computing supercomputing cluster data center Titech Tokyo Institute Tsubame nvidiatesla

Tokyo Institute of Technology uses Novell SUSE Linux in conjunction with its large Supercomputer. The largest Supercomputer in Japan.

SUSE Linux Supercomputer Japan Novell rdastrup

Yoshikawa Laboratory - Tokyo Institute of Technology (English Version)

Yoshikawa Laboratory Tokyo Institute of Technology Kunio Yoshikawa Hydrothermal Treatment Biomass Fuel Emulsified Fuel Gasification Technology Hydrogen Fuel Suzukakedai Campus Bayu Indrawan bayuindrawan

This is the performance of Indang Dance from Indonesia, performed by PPI Tokodai (Tokyo Institute of Technology) in Koudasai 2009.

PPI Tokodai Indang Dance Tari Indang Koudasai 2009 ppitokodai

The Green500 list of supercomputers announced on November 18, 2010 features systems from top HPC organizations including Georgia Tech/Oak Ridge National Laboratory and Tokyo Institute of Technology. Hear from the founder of the Green500 list discuss the future trend of green computing, and how these top institutions achieve high efficiency while maximize performance with GPU acceleration.

Computing supercomputing HPC Green500 Green 500 GPU Tesla NVIDIA Oak Ridge Oakridge Georgia Tech Tokyo Tech titech Tokyo Institute of Tech Tokyo Institute of Technology cluster parallel computing CUDA science climate research weather modeling model forecasting environment simulation power efficient power efficiency datacenter data center nvidiatesla

Sakura season, March-April 2010

MOV00502 psyeilendra

宙博2010での、東京工業大学の3輪ローバ「Tri Star IV」のデモの様子です。ロボタイムズ(robo-times.com

Tri-Star IV Lunar Rover Robot 月・惑星探査ロボット 東京工業大学 Robo Times

DigInfo - www.diginfo.tv 11 Tokyo Institute of Technology Amphibious snake robot "ACM-R5"

diginfo diginfonews Amphibious snake robot ACM-R5 Tokyo Institute Technology University Hirose-Fukushima Lab

In a world first, Osamu Hasegawa, associate professor at the Tokyo Institute of Technology, has developed a system that allows robots to look around their environment and do research on the Internet, enabling them to "think" how best to solve a problem.

Japanese scientist unveils 'thinking' humanoid robot The City

DigInfo TV - diginfo.tv 27 Tokyo Institute of Technology Tri-Star IV

diginfo diginfo News diginfo TV Tri-Star IV Tokyo Institute Technology ROBOTICS Robot Lunar Rover Nuclear Reactor Inspector Inspection Power Fukushima Electricity TEPCO Moon Landing Rocks Collection JAXA Space TIT Shigeo Hirose Research Diginfonews

DigInfo - www.diginfo.tv Tokyo Institute of Technology Hydraulic Exploration Robot - Bari-bari-IV Related Links - www.cm.ctrl.titech.ac.jp - www.nikkan.co.jp (International Robot Exhibition 2009)

yt:quality=high diginfo News Japan Hydraulic Exploration Robot Bari-bari-IV Tokyo Institute Technology International Exhibition 2009 Diginfonews

DigInfo TV - diginfo.tv 29 Tokyo Institute of Technology Artificial Bone From Fish Scale Collagen

diginfo diginfo News diginfo TV Tokyo Institute of Technology MEDICAL Artificial Bone Fish Scale Collagen Cornea Stroma Eye Strong Safe Regeneration Diginfonews

Professor Satoshi Matsuoka speaks to Kris Sangani while visiting Bristol University as a guest lecturer and speaker. He explains how The Tokyo Institute of Technology's Tsubame 2.0 super computer will be used to analyse data gathered from the recent Quake and Tsuname in Japan

Japan Super computer high performance computing Professor Satoshi Matsuoka Kris Sangani Tokyo Institute of Technology Tsubame 2.0 Japan earthquake Tsuname eandtmagazine

A study trip to Tokyo starring some 3rd year students from the Royal Institute of Technology School of Architecture, in Stockholm, Sweden.

Tokyo Architecture Royal Institute of Technology KTH study trip personal Matern

Persatuan Pelajar Indonesia Tokyo Institute of Technology presenting "Tokyo Tech Indonesian Commitment Award (TICA) 2011" Scientific Paper Contest for Undergraduate Clusters: 1. Business, Social Science, & Urban Planning 2. Electronic-Electrical & Information Technology 3. Applied Science & Technology Deadline: September 14th, 2011 Procedure & Details: website: commitment.ppitokodai.org email: tica@ppitokodai.org

TICA PPI Tokodai Science & Technology Research Contest arun st

[Keio Spintronics Network - Fujisawa Laboratory, Tokyo Institute of Technology] The Fujisawa Group at Tokyo Institute of Technology is working to find out how precisely the behavior of single electrons can be controlled and measured. To do this, the researchers fabricate semiconductor nanostructures, and investigate their behavior on timescales at or below the nanosecond level. In this way, they study the particle and wave properties of electrons, as well as their interaction. Q."In our research, we look not only at steady states of a single electron, but how the electron behaves dynamically; that is, "single-electron dynamics." In particular, by using nanostructures, we can control the dynamics very precisely and measure it very accurately. And in our research, we see what sort of applications can be envisaged by investigating electron properties in such nanostructures." Electrons behaving dynamically can have various states -- not only groud states, but also excited states or superposition states. On the other hand, in today's electronics, the minimum current detectable is one femtoampere; that is, 10000 electrons per second. So the Fujisawa Group is developing a device called a "single-electron ammeter." The researchers utilize semiconductor nanostructures to integrate quantum dots and a semiconductor point-contact charge detector in one device. This has enabled the Group to detect the flow of single electrons -- an achievement that wasn't possible until now. Q."If you <b>...</b>

Tokyo Institute of Technology Toshimasa Fujisawa single-electron electronic dynamics quantum dots ammeter keiouniversity

MAKE TOKYO MEETING 2007 was held in Tokyo Institute of Technology. This is an very exciting event of not only geeks, but for all DIY-creators. You can see a lot of masterpieces made by hackers, krafters. All are the works of a handmaid. The first problem is that it is difficult for there to be too many people and to move forward in the hall. I thought Japanese Maker is very inquisitive and they are meticulous about their own technology. I myself love pursuing excellence and thoroughly analyzing.

MAKE DTY moyane 11

DigInfo TV - diginfo.tv 28 Tokyo Institute of Technology Intelligent humanoid robot capable of learning and decision-making in a real environment

diginfo diginfo News diginfo TV Tokyo Institute of Technology ROBOTICS Robot Autonomous Learn Think Act SOINN neural network Brain Computer Pour Water Decide Make Decisions Problem Solving Hasegawa Group Terminator HIRO Diginfonews

[Keio Spintronics Network - Yoshino Laboratory, Tokyo Institute of Technology] The Yoshino Group at Tokyo Institute of Technology is working to develop high-quality spintronics materials. In terms of physics, the researchers aim to analyze surface dynamic processes associated with crystal growth on a semiconductor surface, and investigate tunnel magnetoresistance and reversal of magnetization by current injection. Q."The electric properties are mainly dominated by the group of electrons with highest energy. In the conventional magnetic materials, those electrons are consisted of the electrons having both two possible spin orientations. Materials, in which those electrons consist of only one of the possible spin orientations, are called half-metals. When you pass a current through such a material, actually, only the electrons with spins aligned in one direction flow. When you form the spintronics devices consisting of such a material and semiconductors, the results are very interesting, and you can greatly enhance the device performance. One of our aims is to fabricate devices like that." In general, device structures are made using methods based on ultra-high vacuum. But because the atoms deposited onto the surface are aligned self-organizingly, the desired properties are not necessarily obtained. The Yoshino Group considers that first of all, it's important to understand the process by which the materials are formed on the surfaces. So the researchers use electron <b>...</b>

Tokyo-Tech Junji Yoshino Laboratory Electron diffraction Scanning tunneling microscope ultra-high vacuum keiouniversity

TOKYO CITY 2011.3.18 Tokyo Institute of Technology - Meguro - Harajuku - Shinjuku

Tokyo earthquake radioactivity Japan 東京 放射能 パニック fujitanaoya

DigInfo TV - diginfo.tv 21 Tokyo Institute of Technology Low Cost Personal Porter Robot

diginfo diginfo News diginfo TV Low Cost Personal Porter Robot Tokyo Institute of Technology Innovation Japan 2011 ROBOTICS Robot Porter university Diginfonews

Masdar Institute (MI) is the MENA regions first graduate-level, research-driven scientific institution focused entirely on education and research in energy and sustainability. It lies at the core of Masdars effort to develop the scientific and human capital required for the new clean technology sector to thrive. MI is being developed in cooperation with the Massachusetts Institute of Technology and will offer full-time, two-year masters of Science programs including engineering, information technology, materials science, mechanical engineering, and water and environment. In September 2007, HRH the Prince of Wales accepted an invitation to become a patron of MI. MI will open its doors to talented students from around the world in September 2009, and has recently accepted its pre-class of 24 students and 14 faculty members from some of the worlds most prestigious academic institutions. The Institute also encompasses the Masdar Research Network (MRN), a network of universities across the world in conducting advanced research in energy and sustainability technologies, including: •Columbia University, US •Imperial College of London, UK •RWTH Aachen University, Germany •University of Waterloo, Canada •Tokyo Institute of Technology, Japan •The German Aerospace Centre (DLR) •Ciemat: Energy Research Centre, Spain

Masdar Insitute; Masdar; MIT; Abu Dhabi; City; Renewable Energy Future

DigInfo TV - diginfo.tv 7 Tokyo Institute of Technology Teddy Bear Robot With Soft Arms and Legs

diginfo diginfo News diginfo TV Tokyo Institute of Technology CEDEC 2011 ROBOTICS Robot Teddy Bear University CEDEC Diginfonews

Morgan Webb reports via Yodobashi Camera to look at all the crazy tech available in Japan, like a gold bath tub, motion sensor toilets and more. Will any of these make an appearance at CES 2011? For more from AOTS Exclusive, go here: g4tv.com

CES2011 CES Morgan Webb Tokyo Japan Yodobashi Camera Attack Of The Show