high_scalability high_scalability-2008 high_scalability-2008-420 knowledge-graph by maker-knowledge-mining
Source: html
Introduction: This Sun BluePrint article describes the storage architecture of the Tokyo Institute of Technology TSUBAME grid. The Tokyo Institute of Technology is of the world's leading technical institutes, and recently created the fastest supercomputer in Asia, and one of the largest supercomputers outside of the United States. By deploying Sun Fire x64 servers and data servers in a grid architecture, Tokyo Tech built a cost-effective and flexible supercomputer consisting of hundreds of systems, thousands of processors, terabytes of memory and a petabyte of storage that supports users running common off-the-shelf applications. This is the second of a three-article series. It describes the steps to install and configuring the Lustre file system within the storage architecture.
sentIndex sentText sentNum sentScore
1 This Sun BluePrint article describes the storage architecture of the Tokyo Institute of Technology TSUBAME grid. [sent-1, score-0.493]
2 The Tokyo Institute of Technology is of the world's leading technical institutes, and recently created the fastest supercomputer in Asia, and one of the largest supercomputers outside of the United States. [sent-2, score-1.024]
3 It describes the steps to install and configuring the Lustre file system within the storage architecture. [sent-5, score-0.725]
wordName wordTfidf (topN-words)
[('tokyo', 0.432), ('institute', 0.36), ('supercomputer', 0.285), ('sun', 0.232), ('describes', 0.21), ('institutes', 0.208), ('tsubame', 0.208), ('lustre', 0.176), ('asia', 0.176), ('blueprint', 0.168), ('supercomputers', 0.16), ('united', 0.151), ('consisting', 0.144), ('shelf', 0.142), ('petabyte', 0.123), ('fire', 0.118), ('architecture', 0.113), ('storage', 0.109), ('steps', 0.107), ('configuring', 0.107), ('fastest', 0.105), ('terabytes', 0.104), ('technology', 0.103), ('deploying', 0.099), ('processors', 0.097), ('leading', 0.092), ('outside', 0.085), ('tech', 0.085), ('recently', 0.084), ('install', 0.082), ('supports', 0.08), ('largest', 0.08), ('flexible', 0.078), ('grid', 0.077), ('hundreds', 0.072), ('thousands', 0.068), ('technical', 0.068), ('created', 0.065), ('servers', 0.063), ('article', 0.061), ('common', 0.057), ('within', 0.056), ('file', 0.054), ('second', 0.052), ('built', 0.05), ('world', 0.043), ('memory', 0.043), ('running', 0.042), ('users', 0.038), ('systems', 0.031)]
simIndex simValue blogId blogTitle
same-blog 1 1.0 420 high scalability-2008-10-15-Tokyo Tech Tsubame Grid Storage Implementation
Introduction: This Sun BluePrint article describes the storage architecture of the Tokyo Institute of Technology TSUBAME grid. The Tokyo Institute of Technology is of the world's leading technical institutes, and recently created the fastest supercomputer in Asia, and one of the largest supercomputers outside of the United States. By deploying Sun Fire x64 servers and data servers in a grid architecture, Tokyo Tech built a cost-effective and flexible supercomputer consisting of hundreds of systems, thousands of processors, terabytes of memory and a petabyte of storage that supports users running common off-the-shelf applications. This is the second of a three-article series. It describes the steps to install and configuring the Lustre file system within the storage architecture.
2 0.59753573 412 high scalability-2008-10-14-Sun N1 Grid Engine Software and the Tokyo Institute of Technology Super Computer Grid
Introduction: One of the world's leading technical institutes, the Tokyo Institute of Technology (Tokyo Tech) created the fastest supercomputer in Asia, and one of the largest outside of the United States. Using Sun x64 servers and data servers deployed in a grid architecture, Tokyo Tech built a cost-effective, flexible supercomputer that meets the demands of compute- and data-intensive applications. Built in just 35 days, the TSUBAME grid includes hundreds of systems incorporating thousands of processor cores and terabytes of memory, and delivers 47.38 trillion1 floating-point operations per second (TeraFLOPS) of sustained LINPACK benchmark performance and 1.1 petabyte of storage to users running common off-the-shelf applications. Based on the deployment architecture, the grid is expected to reach 100 TeraFLOPS in the future. This Sun BluePrints article provides an overview of the Tokyo Tech grid, named TSUBAME. The third in a series of Sun BluePrints articles on the TSUBAME grid, this document pro
Introduction: One of the world's leading technical institutes, the Tokyo Institute of Technology (Tokyo Tech) created the fastest supercomputer in Asia, and one of the largest outside of the United States. Using Sun x64 servers and data servers deployed in a grid architecture, Tokyo Tech built a cost-effective, flexible supercomputer that meets the demands of compute and data-intensive applications. Built in just 35 days, the TSUBAME grid includes hundreds of systems incorporating thousands of processor cores and terabytes of memory, and delivers 47.38 trillion floating-point operations per second (TeraFLOPS) of sustained LINPACK benchmark performance and 1.1 petabyte of storage to users running common off-the-shelf applications. Based on the deployment architecture, the grid is expected to reach 100 TeraFLOPS in the future. This article provides an overview of the Tokyo Tech grid, named TSUBAME. The first in a series of Sun BluePrints articles on the TSUBAME grid, this document discusses the re
Introduction: The reference configurations described in this blueprint are starting points for building Sun Customer Ready HPC Clusters configured with Sun Fire X2100 M2 and X2200 M2 servers. The configurations define how Sun Systems Group products can be configured in a typical grid rack deployment. This document describes configurations in detail using Sun Fire X2100 M2 and X2200 M2 servers with a Gigabit Ethernet data fabric, as well as configurations using Sun Fire X2200 M2 servers with a high-speed InfiniBand fabric. These configurations focus on single rack solutions, with external connections through uplink ports of the switches. These reference configurations have been architected using Sun's expertise gained in actual, real-world installations. Within certain constraints, as described in the later sections, the system can be tailored to the customer needs. Certain system components described in this document are only available through Sun's factory integration. Although the information
Introduction: Much of the focus of high performance computing (HPC) has centered on CPU performance. However, as computing requirements grow, HPC clusters are demanding higher rates of aggregate data throughput. Today's clusters feature larger numbers of nodes with increased compute speeds. The higher clock rates and operations per clock cycle create increased demand for local data on each node. In addition, InfiniBand and other high-speed, low-latency interconnects increase the data throughput available to each node. Traditional shared file systems such as NFS have not been able to scale to meet this growing demand for data throughput on HPC clusters. Scalable cluster file systems that can provide parallel data access to hundreds of nodes and petabytes of storage are needed to provide the high data throughput required by large HPC applications, including manufacturing, electronic design, and research. This paper describes an implementation of the Sun Lustre file system as a scalable storage
6 0.17896394 545 high scalability-2009-03-19-Product: Redis - Not Just Another Key-Value Store
7 0.15371439 13 high scalability-2007-07-15-Lustre cluster file system
8 0.15118839 458 high scalability-2008-12-01-Web Consolidation on the Sun Fire T1000 using Solaris Containers
9 0.13640766 695 high scalability-2009-09-06-Some Hot Links
10 0.13369291 486 high scalability-2009-01-07-Sun Acquires Q-layer in Cloud Computing Play
11 0.12468784 456 high scalability-2008-12-01-Sun's High-Performance and Reliable Web Proxy Solution
12 0.12282706 543 high scalability-2009-03-17-Sun to Announce Open Cloud APIs at CommunityOne
13 0.11587188 547 high scalability-2009-03-24-Scalability Perspectives #6: Lew Tucker – Virtual Data Centers in the Open Cloud
14 0.11463694 528 high scalability-2009-03-06-Product: Lightcloud - Key-Value Database
15 0.10900253 961 high scalability-2010-12-21-SQL + NoSQL = Yes !
16 0.10261297 85 high scalability-2007-09-08-Making the case for PHP at Yahoo! (Oct 2002)
17 0.095842473 457 high scalability-2008-12-01-Sun FireTM X4540 Server as Backup Server for Zmanda's Amanda Enterprise 2.6 Software
18 0.094540834 413 high scalability-2008-10-14-Sun Storage and Archive Solution for HPC
19 0.091017306 670 high scalability-2009-08-05-Anti-RDBMS: A list of distributed key-value stores
20 0.087241866 875 high scalability-2010-08-09-NoSQL on the Microsoft Platform
topicId topicWeight
[(0, 0.088), (1, 0.012), (2, 0.023), (3, 0.016), (4, -0.055), (5, 0.039), (6, 0.006), (7, -0.116), (8, -0.08), (9, 0.191), (10, -0.01), (11, 0.007), (12, 0.194), (13, 0.131), (14, -0.002), (15, 0.129), (16, -0.02), (17, 0.042), (18, -0.145), (19, -0.047), (20, 0.07), (21, -0.253), (22, 0.16), (23, -0.102), (24, -0.099), (25, -0.117), (26, -0.023), (27, 0.038), (28, -0.048), (29, -0.097), (30, -0.009), (31, -0.049), (32, 0.001), (33, -0.006), (34, -0.041), (35, -0.05), (36, 0.016), (37, -0.091), (38, -0.024), (39, 0.002), (40, -0.013), (41, -0.072), (42, 0.069), (43, -0.12), (44, 0.094), (45, 0.075), (46, 0.01), (47, -0.015), (48, -0.068), (49, -0.025)]
simIndex simValue blogId blogTitle
same-blog 1 0.96500123 420 high scalability-2008-10-15-Tokyo Tech Tsubame Grid Storage Implementation
Introduction: This Sun BluePrint article describes the storage architecture of the Tokyo Institute of Technology TSUBAME grid. The Tokyo Institute of Technology is of the world's leading technical institutes, and recently created the fastest supercomputer in Asia, and one of the largest supercomputers outside of the United States. By deploying Sun Fire x64 servers and data servers in a grid architecture, Tokyo Tech built a cost-effective and flexible supercomputer consisting of hundreds of systems, thousands of processors, terabytes of memory and a petabyte of storage that supports users running common off-the-shelf applications. This is the second of a three-article series. It describes the steps to install and configuring the Lustre file system within the storage architecture.
2 0.94867969 412 high scalability-2008-10-14-Sun N1 Grid Engine Software and the Tokyo Institute of Technology Super Computer Grid
Introduction: One of the world's leading technical institutes, the Tokyo Institute of Technology (Tokyo Tech) created the fastest supercomputer in Asia, and one of the largest outside of the United States. Using Sun x64 servers and data servers deployed in a grid architecture, Tokyo Tech built a cost-effective, flexible supercomputer that meets the demands of compute- and data-intensive applications. Built in just 35 days, the TSUBAME grid includes hundreds of systems incorporating thousands of processor cores and terabytes of memory, and delivers 47.38 trillion1 floating-point operations per second (TeraFLOPS) of sustained LINPACK benchmark performance and 1.1 petabyte of storage to users running common off-the-shelf applications. Based on the deployment architecture, the grid is expected to reach 100 TeraFLOPS in the future. This Sun BluePrints article provides an overview of the Tokyo Tech grid, named TSUBAME. The third in a series of Sun BluePrints articles on the TSUBAME grid, this document pro
Introduction: One of the world's leading technical institutes, the Tokyo Institute of Technology (Tokyo Tech) created the fastest supercomputer in Asia, and one of the largest outside of the United States. Using Sun x64 servers and data servers deployed in a grid architecture, Tokyo Tech built a cost-effective, flexible supercomputer that meets the demands of compute and data-intensive applications. Built in just 35 days, the TSUBAME grid includes hundreds of systems incorporating thousands of processor cores and terabytes of memory, and delivers 47.38 trillion floating-point operations per second (TeraFLOPS) of sustained LINPACK benchmark performance and 1.1 petabyte of storage to users running common off-the-shelf applications. Based on the deployment architecture, the grid is expected to reach 100 TeraFLOPS in the future. This article provides an overview of the Tokyo Tech grid, named TSUBAME. The first in a series of Sun BluePrints articles on the TSUBAME grid, this document discusses the re
Introduction: The reference configurations described in this blueprint are starting points for building Sun Customer Ready HPC Clusters configured with Sun Fire X2100 M2 and X2200 M2 servers. The configurations define how Sun Systems Group products can be configured in a typical grid rack deployment. This document describes configurations in detail using Sun Fire X2100 M2 and X2200 M2 servers with a Gigabit Ethernet data fabric, as well as configurations using Sun Fire X2200 M2 servers with a high-speed InfiniBand fabric. These configurations focus on single rack solutions, with external connections through uplink ports of the switches. These reference configurations have been architected using Sun's expertise gained in actual, real-world installations. Within certain constraints, as described in the later sections, the system can be tailored to the customer needs. Certain system components described in this document are only available through Sun's factory integration. Although the information
5 0.67003018 543 high scalability-2009-03-17-Sun to Announce Open Cloud APIs at CommunityOne
Introduction: One of the key items Sun will be talking about in today's cloud computing announcement (at 9AM EST/6AM PST) will be Sun's opening of the APIs that we'll use for the Sun Cloud. We're making these available so that those who are interested will be able to review and comment on these APIs. Continuing our commitment to openness, we're making these APIs available via the Creative Commons Version 3.0 license. ...
7 0.55909032 457 high scalability-2008-12-01-Sun FireTM X4540 Server as Backup Server for Zmanda's Amanda Enterprise 2.6 Software
8 0.52976358 413 high scalability-2008-10-14-Sun Storage and Archive Solution for HPC
9 0.5280242 486 high scalability-2009-01-07-Sun Acquires Q-layer in Cloud Computing Play
10 0.52681977 456 high scalability-2008-12-01-Sun's High-Performance and Reliable Web Proxy Solution
11 0.5049746 46 high scalability-2007-07-30-Product: Sun Utility Computing
12 0.49162394 1060 high scalability-2011-06-14-Shakespeare on Why Other People Like Such Stupid Stuff
14 0.4770287 547 high scalability-2009-03-24-Scalability Perspectives #6: Lew Tucker – Virtual Data Centers in the Open Cloud
15 0.47006068 458 high scalability-2008-12-01-Web Consolidation on the Sun Fire T1000 using Solaris Containers
16 0.46611032 333 high scalability-2008-05-28-Webinar: Designing and Implementing Scalable Applications with Memcached and MySQL
17 0.44526511 528 high scalability-2009-03-06-Product: Lightcloud - Key-Value Database
18 0.4304806 555 high scalability-2009-04-04-Performance Anti-Pattern
19 0.38648263 545 high scalability-2009-03-19-Product: Redis - Not Just Another Key-Value Store
20 0.3805795 395 high scalability-2008-09-25-Is your cloud as scalable as you think it is?
topicId topicWeight
[(1, 0.201), (2, 0.123), (79, 0.08), (98, 0.457)]
simIndex simValue blogId blogTitle
same-blog 1 0.7720347 420 high scalability-2008-10-15-Tokyo Tech Tsubame Grid Storage Implementation
Introduction: This Sun BluePrint article describes the storage architecture of the Tokyo Institute of Technology TSUBAME grid. The Tokyo Institute of Technology is of the world's leading technical institutes, and recently created the fastest supercomputer in Asia, and one of the largest supercomputers outside of the United States. By deploying Sun Fire x64 servers and data servers in a grid architecture, Tokyo Tech built a cost-effective and flexible supercomputer consisting of hundreds of systems, thousands of processors, terabytes of memory and a petabyte of storage that supports users running common off-the-shelf applications. This is the second of a three-article series. It describes the steps to install and configuring the Lustre file system within the storage architecture.
2 0.55241191 707 high scalability-2009-09-17-Hot Links for 2009-9-17
Introduction: Save 25% on Hadoop Conference Tickets Apache Hadoop is a hot technology getting traction all over the enterprise and in the Web 2.0 world. Now, there's going to be a conference dedicated to learning more about Hadoop. It'll be Friday, October 2 at the Roosevelt Hotel in New York City. Hadoop World, as it's being called, will be the first Hadoop event on the east coast. Morning sessions feature talks by Amazon, Cloudera, Facebook, IBM, and Yahoo! Then it breaks out into three tracks: applications, development / administration, and extensions / ecosystems. In addition to the conference itself, there will also be 3 days of training prior to the event for those looking to go deeper. In addition to general sessions speakers, presenters include Hadoop project creator Doug Cutting, as well as experts on large-scale data from Intel, Rackspace, Softplayer, eHarmony, Supermicro, Impetus, Booz Allen Hamilton, Vertica, About.com, and other companies. Readers get a 25% discount if you register b
Introduction: One of the world's leading technical institutes, the Tokyo Institute of Technology (Tokyo Tech) created the fastest supercomputer in Asia, and one of the largest outside of the United States. Using Sun x64 servers and data servers deployed in a grid architecture, Tokyo Tech built a cost-effective, flexible supercomputer that meets the demands of compute and data-intensive applications. Built in just 35 days, the TSUBAME grid includes hundreds of systems incorporating thousands of processor cores and terabytes of memory, and delivers 47.38 trillion floating-point operations per second (TeraFLOPS) of sustained LINPACK benchmark performance and 1.1 petabyte of storage to users running common off-the-shelf applications. Based on the deployment architecture, the grid is expected to reach 100 TeraFLOPS in the future. This article provides an overview of the Tokyo Tech grid, named TSUBAME. The first in a series of Sun BluePrints articles on the TSUBAME grid, this document discusses the re
4 0.51801586 412 high scalability-2008-10-14-Sun N1 Grid Engine Software and the Tokyo Institute of Technology Super Computer Grid
Introduction: One of the world's leading technical institutes, the Tokyo Institute of Technology (Tokyo Tech) created the fastest supercomputer in Asia, and one of the largest outside of the United States. Using Sun x64 servers and data servers deployed in a grid architecture, Tokyo Tech built a cost-effective, flexible supercomputer that meets the demands of compute- and data-intensive applications. Built in just 35 days, the TSUBAME grid includes hundreds of systems incorporating thousands of processor cores and terabytes of memory, and delivers 47.38 trillion1 floating-point operations per second (TeraFLOPS) of sustained LINPACK benchmark performance and 1.1 petabyte of storage to users running common off-the-shelf applications. Based on the deployment architecture, the grid is expected to reach 100 TeraFLOPS in the future. This Sun BluePrints article provides an overview of the Tokyo Tech grid, named TSUBAME. The third in a series of Sun BluePrints articles on the TSUBAME grid, this document pro
5 0.51117176 1014 high scalability-2011-03-31-8 Lessons We Can Learn from the MySpace Incident - Balance, Vision, Fearlessness
Introduction: A surprising amount of heat and light was generated by the whole Micrsoft vs MySpace discussion. Why people feel so passionate about this I'm not quite sure, but fortunately for us, in the best sense of the web, it generated an amazing number of insightful comments and observations. If we stand back and take a look at the whole incident, what can we take a way that might help us in the future? All computer companies are technology companies first. A repeated theme was that you can't be an entertainment company first. You are a technology company providing entertainment using technology. The tech can inform the entertainment side, the entertainment side drives features, but they really can't be separated. An awesome stack that does nothing is useless. A great idea on a poor stack is just as useless. There's a difficult balance that must be achieved and both management and developers must be aware that there's something to balance. All pigs are equal . All business f
6 0.47163731 10 high scalability-2007-07-15-Book: Building Scalable Web Sites
7 0.47030821 1342 high scalability-2012-10-17-World of Warcraft's Lead designer Rob Pardo on the Role of the Cloud in Games
8 0.4675014 140 high scalability-2007-11-02-How WordPress.com Tracks 300 Servers Handling 10 Million Pageviews
9 0.46668187 504 high scalability-2009-01-29-Event: MySQL Conference & Expo 2009
10 0.46664864 1641 high scalability-2014-05-01-Paper: Can Programming Be Liberated From The Von Neumann Style?
11 0.46640337 617 high scalability-2009-06-04-New Book: Even Faster Web Sites: Performance Best Practices for Web Developers
12 0.46618712 769 high scalability-2010-02-02-Scale out your identity management
13 0.46597385 822 high scalability-2010-05-04-Business continuity with real-time data integration
14 0.46531168 799 high scalability-2010-03-23-Digg: 4000% Performance Increase by Sorting in PHP Rather than MySQL
15 0.46491265 625 high scalability-2009-06-10-Managing cross partition transactions in a distributed KV system
16 0.46475363 560 high scalability-2009-04-08-Learned lessons from the largest player (Flickr, YouTube, Google, etc)
17 0.46417427 1205 high scalability-2012-03-07-Scale Indefinitely on S3 With These Secrets of the S3 Masters
18 0.46309054 1306 high scalability-2012-08-16-Stuff The Internet Says On Scalability For August 17, 2012
19 0.46222728 55 high scalability-2007-08-02-Product: Mashery
20 0.46210796 1472 high scalability-2013-06-07-Stuff The Internet Says On Scalability For June 7, 2013