Open Stack is a platform which is totally free of cost & is used for the cloud computing. Generally Open Stack is a set up like (IaaS). IaaS stands for Infrastructure-as-a-Service.
In present day’s every one prefer Open Stack approximately each organization that is using Open Stack are on the way to success. Some of the popular companies are mention below which are using & prefer Open Stack on others BMW CERN U.S Department of Energy eBay Wal-Mart Face Book Open Stack has 200,000 downloads with 3,500 worldwide contestants which has a support of 200 technology leaders. Open Stack is providing many benefits to organization some of them are referral below Cost Savings For making proper cloud set-up does not mean you required branded servers, storage & license fee, it only depends on condition that you are building cloud set-up with the accurate software. Open Stack not only offers building blocks to the software for build private cloud but due to its registration under the license of Apache 2.0 you don’t have to pay any sort of license fee. Through Open Stack you are able to monitor in such a way it looks like your cloud is running itself. With the usage of Open stack, you can also reduce hardware expenses. Customization With the cost saving benefit Open Stack also give you the facility of Customization. With Open Stack your team could choose infrastructure of its own requirements. You can customize your cloud beyond the ability of any less efficient public provider in exclusive way with CDI. Value-Added Services Open Stack also provide Value Added services to their customers which is helpful in following ways Differentiate Open Stack form others and Move It Up Provide value added services on the top of infrastructure If you are searching a Company that provide best quality of Open Stack in an affordable price, then contact Inspur. We Provide you worldwide services as well as Personal customer service.
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Data center is the most sensitive part of any organization. Data center play a vital role in the favorable outcome and downfall of any Organization. Creating a High Efficiency Data Center, not only require timely maintenance but also quality equipment. Every single step toward the energy management of data center transform that data center in to a High Efficiency Data Center. Efficiency level of data center depends on variety of factors but organizations maximize efficiency of data center by focusing on airflow, free-cooling, usage of energy and quality material.
By implementing steps that are mention below we can transfer simple data center in to High Efficiency Data Center. Usage of Energy Rates General energy usage rates in majority of data centers is below 20% genuinely exact & accurate percentage of energy usage in common data center is just 15% or less. By minimizing the energy usage of complete datacenter along with servers we can reduce the energy usage which can help common data center to become High Efficiency Data Center. Operating Temperature IT specialist of Majority of data centers run computer Room Air Conditioner at temperature of 70 Degree Fahrenheit or below then 70 Degree that is too much cool. By reducing the temperature of computer room air conditioners we can save energy beside it will also optimize the efficiency of the data center. Use containment strategies while cooling air Cooling down whole data center is just a wastage of energy. We have to cool down only the hot spots by effective ducting. Companies must make strategies and arrange servers in such a way that can minimize the usage of Air conditioner, by this way we can reduce energy consumption and make our data center High Efficiency Data Center. Inspur High Efficiency Data Center Servers Requirement & usage of Internet is increasing gradually. With the increase in Internet usage companies required more storage devices at low cost which are able to store massive data. Inspur is the only company that provide quality servers for High Efficiency Data Center that is the reason Inspur is No. 1 company in China & No. 5th company around the world. Data Servers of Inspur are most demanding servers around the world. Inspur, the leading data center product and solution provider, today announced the launch of its InCloud 3000 hyperconverged solutions at the Intel Developer Forum 2016. The new offering provides simplicity, high efficiency and availability, as well as gives large and mid-sized datacenters the freedom to choose hypervisors without being locked in. Customers also benefit from the InCloud 3000's reliability and availability through N+N redundancy, 47% higher density and 15% higher energy efficiency compared to 1U rack-mounted servers.
The Inspur InCloud 3000 integrates compute, storage, networking, preconfigured virtualization resources and a cloud management platform. As a modular solution, it not only supports half-width compute node, full-width 4-8 socket nodes stack, PCIe extension node and storage extension node, but also integrates scale-out and scale-up technologies to provide the residence and flexibility enterprise datacenters need. The InCloud 3000 has 47% higher density compared to 1U rack-mounted server solutions. Its combined power supply and cooling system reduces power consumption by 15%. The InCloud 3000 is based on Inspur's SmartRack, a rack scale converged solution that has been widely adopted by world's leading internet and e-commerce giants – including Baidu, Alibaba and Tencent. The InCloud 3000 utilizes VMware Virtual SAN,and is preconfigured with the new Inspur InCloud OS 4.5 and Quick Deployment Tools (QDT), resulting in a deployment speed that is ten times faster than traditional solutions. Featuring storage policy-based management, VMware Virtual SAN shifts the management model for storage from the device to the application, enabling administrators to provision storage for applications in minutes. With QDT, 4,800 virtual machines or 12,480 virtual desktops can be deployed within two hours. The InCloud 3000 includes a preconfigured InCloud Manager, providing comprehensive features – including resource, operation and domain management, performance and service status monitoring, workflow, metering and billing, and self-service. "VMware and Inspur have enjoyed eight years of cooperation. Since 2008, Inspur has been an OEM partner and provider of VMware virtualization solutions. With Inspur and VMware technologies, mutual customers can realize reduced deployment times and rapidly deliver business benefits, "said Skip Bacon, vice president, Partner Development, Storage and Availability Business Unit, VMware. John Hu, Vice President of Inspur Group said, "As a leading service provider in cloud computing and big data, Inspur has accumulated technology strengths in high-end servers, large-scale storage, cloud OS, information security and IaaS, PaaS and SaaS total solutions. The InCloud 3000 brings our technologies, expertise and capabilities together to best serve our customers." Availability The Inspur InCloud 3000 is available immediately. About Inspur Founded in 1945, Inspur is one of the top 5 server vendors in the world and a leading cloud computing total solutions provider. With the annual manufacturing capacity of 1,000,000+ servers, Inspur has exported its hardware and software solutions to more than 102 countries, worldwide. Inspur is also #1 in Hyperscale Datacenter Deployments, Cloud Solutions and is the Top Software Brand in China. Learn more about Inspur at http://www.inspursystems.com SOURCE Inspur Electronic Information Industry Co.,Ltd The leading data center product and solutions provider Inspur showcased its innovative cloud computing solutions at IDF16. Inspur also launched the rack scale server, SmartRack4.5, which is based on the 2.0 integrated infrastructures. This product is specially designed for public cloud users, cloud service providers and telecommunication operators. With its newly added SAS, PCI-E switching technology and the battery backup node of BBS (Battery Backup System) on top of the centralized power supply, cooling and management. These elements help centralize external IT resources and allow the reconstruction and pooling of internal resources.
Data centers are moving towards more structural, modular and intensified upgrades and modifications. Senior Research Manager of IDC Thomas Zhou said, "In the next five years, more than 60% of the data centers investment growth will come from hyperscale data centers, and the modular isomorphism will be one of the main characteristics of the hyperscale data centers." Inspur developed the SmartRack as the integrated infrastructure solution for the next generation of data centers. Compared with other products, the design of the rack scale server has the enhanced speed of deployment to up to 8-10 times. The density of deployment compared with conventional products, has been doubled. Currently, the iteration of the product has come to generation 4.5, and the shipments have totaled to more than 100 thousand nodes and cover more than 70% of the China rack scale server market, achieving a large scale deployment in cloud service providers, namely with Alibaba and Baidu. The BBS battery backup node that is newly added to the SmartRack 4.5 can maintain the energy efficiency at around 94%, while efficiency of the conventional centralized UPS power supply is less than 80%. BBS, being a plug and play node, increases the energy efficiency by large. What's more, when there is a power failure in the generator, it can supply stable power for at least 15 minutes – ensuring the rack scale server's reliability. Additionally, Inspur has been enhancing the flexibility of the SmartRack. Based on the original five types of high performance storage, high temperature corrosion-resistant, cold storage and high density computing racks, using the switch technology of SAS and PCI-E, SmartRack has developed into two forms of product – specifically, the elastic storage expansion and the PCI-E expansion pooling. The SmartRack PCI-E expansion pooling node, when combined with the BOX node of 1U, can achieve the resource pooling of co-processing computing, high performance storage, and, warm and cold data storage, based on the PCI-E protocol. A single computing node can be docked to several BOX nodes, which can achieve more than eight GPU/MIC/FPGA co-processing computing resource pools, or at least 20 NVMe SSD warm data storage resource pools. The flexible storage node expansion, when combined with the JBOD module, can provide 20 SAS/SATA/SSD hard drive storage resource pools. John Hu, Vice President of Inspur Group, said, "Using the SAS and PCI-E, switching technology can overcome the fundamental limitations of IT resource expansion, allowing the two types of resources - which are storage and PCI-E expansion - to decouple with computing resources. This can achieve the flexible resource allocation of storage and co-processing computing to meet the demands of the increasingly complex applications, and other business needs. In the future, these two types of technology will be broadly used in the application of deep learning, voice search, video conversion, image search, nearline storage, distributed storage and other types of public cloud services." SOURCE Inspur Electronic Information Industry Co.,Ltd Inspur, a leading data center product and solutions provider, showcased its latest innovative products at IDF16. At the conference, John Hu, the CTO and Vice President of Inspur Group, made a presentation on advanced technology in which he analyzed characteristics of current deep learning applications and advanced computing technology infrastructure, stating that KNL+FPGA is a perfect match in the acceleration of deep learning.
When conducting the offline model training, computing systems often need to handle a larger amount of data, so the training time is very long, it is required to large-scale computing resource to train a model. When services related to deep learning applications is released, the energy consumption of the deep learning applications hugely increase because the system has to deal with tens of thousands of visits, per capita. John Hu has proposed that the structure of the deep learning platform should develop high-performance computing solutions according to different application characteristics of offline training and online identification. In June of 2016, Intel launched its latest Xeon Phi Processor, Knights Landing (KNL), which attracted immense attention in the industry. KNL has up to 72 cores, its double-precision floating-point performance is more than 3TFlops while the single-precision is more than 6TFlops, which is seen as a revolutionary product for high-performance computing and deep learning. John Hu believes that KNL's strong performance can adequately meet the demands of structuring deep learning offline training platform. FPGA has an impressive performance per watt, which is five times greater than that of the CPU and is hugely energy-efficient, so it is an ideal choice for structuring the deep learning online identification platform. Therefore, KNL+FPGA is a perfect match for accelerating deep learning applications. Inspur is a leading global service provider for cloud computing, big data and high-performance computing. Inspur's deep learning solutions have been adopted by Baidu, Alibaba, Qihoo360, IFLYTEK and many other Internet companies, covering 60% of the market. A few months back, Inspur launched a worldwide release on the latest deep learning computing framework, Caffe-MPI, of the KNL platform. Its high performance and scalability are able to meet the needs of the compute-intensive and network-intensive model. To learn more about Inspur's deep learning solutions, please visit http://www.inspursystems.com/deep-learning/ SOURCE Inspur Electronic Information Industry Co.,Ltd |
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