Click here to close now.

Welcome!

Agile Computing Authors: Rex Morrow, Datical, Sematext Blog, Liz McMillan, Elizabeth White, Ruxit Blog

News Feed Item

Supermicro® 2U TwinPro™ und TwinPro²™ entfesseln volle E/A- und Netzwerkleistung mit 12Gbs SAS3, NVMe, 10GbE/40GbE und 56Gbs FDR InfiniBand

-- Branchenweit erste 12Gbs-SAS3-Server mit PCI-E-SSD-Unterstützung bieten dank neuer Stromspartechnologie die höchste Leistung pro Watt

SAN JOSE, Kalifornien, 10. Januar 2014 /PRNewswire/ -- Super Micro Computer, Inc. (NASDAQ: SMCI), in den Bereichen hochleistungsfähige und hocheffiziente Server- und Speichertechnologie sowie Green Computing weltweit führend, baut seine preisgekrönte Twin-Architektur mit neuen 2U-TwinPro™- und TwinPro²™-Modellen weiter aus. Die auf der 2U-Twin-Architektur beruhenden Server der nächsten Generation sind in 2-Node- (TwinPro) und 4-Node-Konfiguration (TwinPro²) erhältlich und für Rechenzentren der Oberklasse mit hoher Rechnerdichte sowie Cloud Computing, Unternehmen, HPC und Big-Data-Anwendungen optimiert. Die Server der TwinPro-Reihe sind dank ihrer 12Gbs-SAS-3.0-Controller des Typs LSI 3108/3008 jetzt noch leistungsstärker und bieten neben maximierter Speicher-E/A auch NVM Express (NVMe) für eine sichere, beschleunigte PCI-E-SSD-Leistung. Mit der Onboard-10GbE- oder InfiniBand-56Gbs-FDR- bzw. 40Gbs-QDR-Option garantieren sie zudem maximale Bandbreite im Netzwerk. Zu den weiteren Features der TwinPro-Server zählen Dual-Intel®-Xeon®-E5-2600-v2-Prozessorunterstützung (bis zu 130 W TDP), eine erhöhte Speicherkapazität von bis zu 1 TB ECC-DDR3-1866-MHz-Speicher in 16x DIMMs, zusätzliche PCI-E-3.0-Erweiterungsslots, bis zu 12x hot-swap-fähige 2,5"- oder 6x 3,5"-Zoll-HDD/SSD-Schächte pro Node sowie die Möglichkeit, bei den 2U-TwinPro-Modellen eine GPU in voller Länge und doppelter Breite (2x SXM GPU optional erhältlich) bzw. einen Intel®-Xeon Phi™-Coprozessor pro Node zu verbauen. Wesentliches Merkmal der innovativen Twin-Architektur ist die mittels eines strömungsoptimierten Motherboard- und Gehäusedesigns erzielte Energieeffizienz. Hinzu kommen geteilte 80-mm-Lüfter mit intelligenter Geschwindigkeitssteuerung sowie redundante, hot-swap-fähige und dabei äußerst effiziente (95 %) digitale Schaltnetzteile der Platinum-Klasse (Titanium-Klasse >96 % optional erhältlich). Zudem sind die Systeme dank hot-swap-fähiger Nodes, reduzierter Verkabelung und der sicheren Server-Remoteverwaltung über IPMI auch überaus wartungsfreundlich. Kunden, die in anspruchsvollen IT-Umgebungen auf einen größtmöglichen Wettbewerbsvorteil bestehen, wird so ein äußerst vorteilhaftes Gesamtpaket geboten, das durch die niedrigsten Gesamtbetriebskosten zu überzeugen weiß.

(Foto: http://photos.prnewswire.com/prnh/20140110/AQ44166)

„Supermicros neue 2U-Server der TwinPro- und TwinPro²-Reihe bieten maximale Leistung und Energieeinsparung, da sie die schnellsten derzeit verfügbaren Speicher- und Netzwerktechnologien in unserer ressourcenoptimierten und energieeffizienten 2U-Twin-Architektur vereinen", so Charles Liang, der Präsident und CEO von Supermicro. „Bei dieser Weiterentwicklung der Twin-Architektur haben wir die E/A-Leistung durch die Integration von 12Gbs SAS3 und NVM Express weiter erhöht und können so das volle Leistungspotenzial von SSD-Speicher abrufen. Darüber hinaus sind nun auch 10GbE, 40GbE und 56Gbs FDR InfiniBand optional erhältlich, was maximale Bandbreite und niedrigste Latenzen garantiert. In Kombination mit den Vorteilen in puncto Energieeffizienz unserer TwinPro-Architektur bieten wir Kunden so die preisgünstigen Serverlösungen für datenintensive Anwendungen – inklusive maximaler Leistung pro Watt, Dollar und Quadratfuß."

Highlights des TwinPro™-Systems
2U-TwinPro™ mit 2 Nodes
NVMe mit 4x 2,5"-PCI-E-SSD-Unterstützung, GPU/Intel® Xeon Phi™-Unterstützung und redundanten 1280-Watt-Netzteilen der Platinum-Klasse

  • SYS-2027PR (12x hot-swap-fähige 2,5"-Einschubschächte je Node), SYS-6027PR (6x hot-swap-fähige 3,5"-Einschubschächte je Node)
  • -DC0TR (SAS3 LSI 3008 S/W RAID mit 10GBase-T)
  • -DC1FR (SAS3 LSI 3108 H/W RAID mit FDR IB oder 40GbE)
  • -DC1QR (SAS3 LSI 3108 H/W RAID mit QDR IB)

2U-TwinPro²™ mit 4 Nodes
Redundante 2000-Watt-Netzteile der Platinum-Klasse

  • SYS-2027PR (6x hot-swap-fähige 2,5"-Einschubschächte je Node), SYS-6027PR (3x hot-swap-fähige 3,5"-Einschubschächte je Node)
  • -HC0TR (SAS3 LSI 3008 S/W RAID mit 10GBase-T)
  • -HC1FR (SAS3 LSI 3108 H/W RAID mit FDR IB oder 40GbE)
  • -HC1QR (SAS3 LSI 3108 H/W RAID mit QDR IB)

Besuchen Sie www.supermicro.com/2UTwinPro für weitere TwinPro™-Modelle.

Folgen Sie Supermicro auf Facebook und Twitter, um die neuesten Meldungen und Ankündigungen immer im Blick zu haben.

Informationen zu Super Micro Computer, Inc.

Supermicro® (NASDAQ: SMCI), der führende Wegbereiter im Bereich hochleistungsfähiger und hocheffizienter Servertechnologie, zählt zu den führenden Anbietern fortschrittlicher Server-Building Block Solutions® für Rechenzentren, Cloud Computing, die Unternehmens-IT, Hadoop/Big Data, HPC sowie eingebettete Systeme weltweit. Im Rahmen der „We Keep IT Green®"-Initiative setzt sich Supermicro engagiert für den Umweltschutz ein und bietet Kunden die energieeffizientesten und umweltfreundlichsten Lösungen am Markt.

Supermicro, TwinPro, TwinPro², Building Block Solutions und We Keep IT Green sind Marken und/oder eingetragene Marken von Super Micro Computer, Inc.

Alle weiteren in diesem Dokument erwähnten Marken, Namen und Schutzmarken sind Eigentum ihrer jeweiligen Inhaber.

SMCI-F

More Stories By PR Newswire

Copyright © 2007 PR Newswire. All rights reserved. Republication or redistribution of PRNewswire content is expressly prohibited without the prior written consent of PRNewswire. PRNewswire shall not be liable for any errors or delays in the content, or for any actions taken in reliance thereon.

@ThingsExpo Stories
"People are a lot more knowledgeable about APIs now. There are two types of people who work with APIs - IT people who want to use APIs for something internal and the product managers who want to do something outside APIs for people to connect to them," explained Roberto Medrano, Executive Vice President at SOA Software, in this SYS-CON.tv interview at Cloud Expo, held Nov 4–6, 2014, at the Santa Clara Convention Center in Santa Clara, CA.
Almost everyone sees the potential of Internet of Things but how can businesses truly unlock that potential. The key will be in the ability to discover business insight in the midst of an ocean of Big Data generated from billions of embedded devices via Systems of Discover. Businesses will also need to ensure that they can sustain that insight by leveraging the cloud for global reach, scale and elasticity.
The 4th International Internet of @ThingsExpo, co-located with the 17th International Cloud Expo - to be held November 3-5, 2015, at the Santa Clara Convention Center in Santa Clara, CA - announces that its Call for Papers is open. The Internet of Things (IoT) is the biggest idea since the creation of the Worldwide Web more than 20 years ago.
In their session at @ThingsExpo, Shyam Varan Nath, Principal Architect at GE, and Ibrahim Gokcen, who leads GE's advanced IoT analytics, focused on the Internet of Things / Industrial Internet and how to make it operational for business end-users. Learn about the challenges posed by machine and sensor data and how to marry it with enterprise data. They also discussed the tips and tricks to provide the Industrial Internet as an end-user consumable service using Big Data Analytics and Industrial Cloud.
Building low-cost wearable devices can enhance the quality of our lives. In his session at Internet of @ThingsExpo, Sai Yamanoor, Embedded Software Engineer at Altschool, provided an example of putting together a small keychain within a $50 budget that educates the user about the air quality in their surroundings. He also provided examples such as building a wearable device that provides transit or recreational information. He then reviewed the resources available to build wearable devices at home including open source hardware, the raw materials required and the options available to power s...
How do APIs and IoT relate? The answer is not as simple as merely adding an API on top of a dumb device, but rather about understanding the architectural patterns for implementing an IoT fabric. There are typically two or three trends: Exposing the device to a management framework Exposing that management framework to a business centric logic Exposing that business layer and data to end users. This last trend is the IoT stack, which involves a new shift in the separation of what stuff happens, where data lives and where the interface lies. For instance, it's a mix of architectural styles ...
We certainly live in interesting technological times. And no more interesting than the current competing IoT standards for connectivity. Various standards bodies, approaches, and ecosystems are vying for mindshare and positioning for a competitive edge. It is clear that when the dust settles, we will have new protocols, evolved protocols, that will change the way we interact with devices and infrastructure. We will also have evolved web protocols, like HTTP/2, that will be changing the very core of our infrastructures. At the same time, we have old approaches made new again like micro-services...
Connected devices and the Internet of Things are getting significant momentum in 2014. In his session at Internet of @ThingsExpo, Jim Hunter, Chief Scientist & Technology Evangelist at Greenwave Systems, examined three key elements that together will drive mass adoption of the IoT before the end of 2015. The first element is the recent advent of robust open source protocols (like AllJoyn and WebRTC) that facilitate M2M communication. The second is broad availability of flexible, cost-effective storage designed to handle the massive surge in back-end data in a world where timely analytics is e...
Collecting data in the field and configuring multitudes of unique devices is a time-consuming, labor-intensive process that can stretch IT resources. Horan & Bird [H&B], Australia’s fifth-largest Solar Panel Installer, wanted to automate sensor data collection and monitoring from its solar panels and integrate the data with its business and marketing systems. After data was collected and structured, two major areas needed to be addressed: improving developer workflows and extending access to a business application to multiple users (multi-tenancy). Docker, a container technology, was used to ...
The true value of the Internet of Things (IoT) lies not just in the data, but through the services that protect the data, perform the analysis and present findings in a usable way. With many IoT elements rooted in traditional IT components, Big Data and IoT isn’t just a play for enterprise. In fact, the IoT presents SMBs with the prospect of launching entirely new activities and exploring innovative areas. CompTIA research identifies several areas where IoT is expected to have the greatest impact.
The Industrial Internet revolution is now underway, enabled by connected machines and billions of devices that communicate and collaborate. The massive amounts of Big Data requiring real-time analysis is flooding legacy IT systems and giving way to cloud environments that can handle the unpredictable workloads. Yet many barriers remain until we can fully realize the opportunities and benefits from the convergence of machines and devices with Big Data and the cloud, including interoperability, data security and privacy.
The Internet of Things is tied together with a thin strand that is known as time. Coincidentally, at the core of nearly all data analytics is a timestamp. When working with time series data there are a few core principles that everyone should consider, especially across datasets where time is the common boundary. In his session at Internet of @ThingsExpo, Jim Scott, Director of Enterprise Strategy & Architecture at MapR Technologies, discussed single-value, geo-spatial, and log time series data. By focusing on enterprise applications and the data center, he will use OpenTSDB as an example t...
The Internet of Things is not only adding billions of sensors and billions of terabytes to the Internet. It is also forcing a fundamental change in the way we envision Information Technology. For the first time, more data is being created by devices at the edge of the Internet rather than from centralized systems. What does this mean for today's IT professional? In this Power Panel at @ThingsExpo, moderated by Conference Chair Roger Strukhoff, panelists will addresses this very serious issue of profound change in the industry.
Scott Jenson leads a project called The Physical Web within the Chrome team at Google. Project members are working to take the scalability and openness of the web and use it to talk to the exponentially exploding range of smart devices. Nearly every company today working on the IoT comes up with the same basic solution: use my server and you'll be fine. But if we really believe there will be trillions of these devices, that just can't scale. We need a system that is open a scalable and by using the URL as a basic building block, we open this up and get the same resilience that the web enjoys.
We are reaching the end of the beginning with WebRTC, and real systems using this technology have begun to appear. One challenge that faces every WebRTC deployment (in some form or another) is identity management. For example, if you have an existing service – possibly built on a variety of different PaaS/SaaS offerings – and you want to add real-time communications you are faced with a challenge relating to user management, authentication, authorization, and validation. Service providers will want to use their existing identities, but these will have credentials already that are (hopefully) i...
All major researchers estimate there will be tens of billions devices - computers, smartphones, tablets, and sensors - connected to the Internet by 2020. This number will continue to grow at a rapid pace for the next several decades. With major technology companies and startups seriously embracing IoT strategies, now is the perfect time to attend @ThingsExpo, June 9-11, 2015, at the Javits Center in New York City. Learn what is going on, contribute to the discussions, and ensure that your enterprise is as "IoT-Ready" as it can be
Container frameworks, such as Docker, provide a variety of benefits, including density of deployment across infrastructure, convenience for application developers to push updates with low operational hand-holding, and a fairly well-defined deployment workflow that can be orchestrated. Container frameworks also enable a DevOps approach to application development by cleanly separating concerns between operations and development teams. But running multi-container, multi-server apps with containers is very hard. You have to learn five new and different technologies and best practices (libswarm, sy...
SYS-CON Events announced today that DragonGlass, an enterprise search platform, will exhibit at SYS-CON's 16th International Cloud Expo®, which will take place on June 9-11, 2015, at the Javits Center in New York City, NY. After eleven years of designing and building custom applications, OpenCrowd has launched DragonGlass, a cloud-based platform that enables the development of search-based applications. These are a new breed of applications that utilize a search index as their backbone for data retrieval. They can easily adapt to new data sets and provide access to both structured and unstruc...
The Internet of Things is a misnomer. That implies that everything is on the Internet, and that simply should not be - especially for things that are blurring the line between medical devices that stimulate like a pacemaker and quantified self-sensors like a pedometer or pulse tracker. The mesh of things that we manage must be segmented into zones of trust for sensing data, transmitting data, receiving command and control administrative changes, and peer-to-peer mesh messaging. In his session at @ThingsExpo, Ryan Bagnulo, Solution Architect / Software Engineer at SOA Software, focused on desi...
An entirely new security model is needed for the Internet of Things, or is it? Can we save some old and tested controls for this new and different environment? In his session at @ThingsExpo, New York's at the Javits Center, Davi Ottenheimer, EMC Senior Director of Trust, reviewed hands-on lessons with IoT devices and reveal a new risk balance you might not expect. Davi Ottenheimer, EMC Senior Director of Trust, has more than nineteen years' experience managing global security operations and assessments, including a decade of leading incident response and digital forensics. He is co-author of t...