Enterprise customers have organized and are speaking up.
There are tools you can use today to get started. Fast.
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Intel’s involvement has increased over time
1990 1995 2000 2005 2007 2010 Today
Linux is born (on IA)
Red Hat (1994) (Intel Capital investment 1999)
OSDL formed (Intel founder)
Change in strategy:Intel visibly active as
contributor to OSS
Harmony, Tiano, Intellinuxwireless
Xen
Intellinuxgraphics
Moblin, LessWatts,threadbuildingblocks
Intel Graphics PRM published
Yocto, OpenStackKVM
Presenter
Presentation Notes
Intel has been involved since the early 90s. �1991: three critical factors come together A sufficiently capable microprocessor that is available at an affordable price and is fully documented thanks to the Crawford/Gelsinger book Linux happens. This was NOT a result of brilliant Intel enabling – it’s a coincidence, but one that happened because we allowed it to happen – by providing leading Si AND providing full documentation that was publicly available The next few years Intel is invisible to the Linux and open source world as a contributor, but Intel continued to contribute to the kernel. 1999 is the first departure from that strategy – investments in Red Hat, SuSE, TurboLinux, VA Linux. Others to follow in the next few years In 2000 Intel (together with IBM, HP, NEC and other industry players) found the Open Source Development Labs OSDL. The initial goal is to contribute to open source through this organization. In 2002 a fundamental strategic shift, Intel actively and visibly contributes to open source projects. Intel engineers are on the kernel mailing list Soon after that in 2003 the Open Source Technology Center is formed. It bundles many of our core open source competencies in one group and sure starts to create (and hire) a respectable number of key Linux and open source leaders
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PRC Community: Leader & Contributor• CoSoft Union
– National OSS competition Road show– OSS development Summit
• COPU (China OSS Promotion Union)– 2006-2010, Open Source Open World Summit, 5 years, and will continue in 2011– 2008, Linux developer Symposium, Beijing
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More Devices
>15 BillionConnected Devices2
1. IDC “Server Workloads Forecast” 2009. 2.IDC “The Internet Reaches Late Adolescence” Dec 2009, extrapolation by Intel for 2015 2.ECG “Worldwide Device Estimates Year 2020 - Intel One Smart Network Work” forecast 3. Source: http://www.cisco.com/assets/cdc_content_elements/networking_solutions/service_provider/visual_networking_ip_traffic_chart.html extrapolated to 2015
By 2015…
More Users
>1 Billion More Netizen’s1
More Data
>1 ZetabyteInternet Traffic3
Internet and device expansion drives new requirements for Data Centers
Presenter
Presentation Notes
In the next 5 years, there is significant growth expected in the number of connected users, range of devices, and explosion in data. We will add a billion more people to the internet (total of 2.5B). We estimate 15 billion connected devices and visual data growth over 10 times in size increasing the data footprint across the internet to >1000Exabytes! This will create exciting new experiences. What those new experiences will mean for you as a consumer and employee is that everything you want your technology to do “just works.” The impact for leaders of the IT business and developers of those new services will be opportunities to deliver business capabilities around those “just works” experiences for users and customers. But that “Just works” experience with data and services will pose some daunting infrastructure challenges in terms of efficiency, security and resource capability that need to be addressed.
Storyline: To address these key challenges, the IT datacenter needs to continue to evolve – it’s really about evolving from discrete datacenters to today’s virtualized datacenters to an evolution to cloud computing. Cloud, especially public cloud, has been getting a lot of attention. However, the largest cloud sub-segment growth over the next several years is expected in private cloud. The main reason is there are many moving parts to cloud implementation, and IT shops are starting at different points on this continuum with regards to infrastructure and internal expertise. Also, most medium to large IT shops won’t go completely to a public cloud only model, as they want to maintain control of critical business processes and data. Discrete Datacenter Few years ago datacenters used to have independent silo’s of Compute, storage, and multiple networks. Over these years IT has been consolidating servers over discrete and independent networks. Ethernet, Infiniband, and Fibre Channel networks were all prevalent in the discrete data center. The key challenge of discrete data center has been lack of flexibility. Virtualized Datacenter As virtualization is taking hold in the datacenter. We are seeing that the silo of compute, network, and storage are broken. Virtualization is enabling high level of agility and riving lower costs as we get rid of proprietary interfaces and proprietary solutions. And improving each to deliver on demand scalable performance so that as the application needs grow the infrastructure can respond. In each of these areas Intel is delivering critical building blocks that are companions to the Xeon 5600. In the Intel Xeon 5500 platform, we have enhanced the compute virtualization capabilities of the processor with Extended Page Tables, along with enhanced IO virtualization capabilities which allow the use of native drivers by directly assigning network resources to each virtual machine (VT-d and VT-c). Our 10Gb Ethernet solution we have leads in virtualization on the network, and we are leading the next phase toward unifying the data center storage and network fabrics with support for both Fibre Channel or iSCSI technologies over Ethernet. Intel’s Intelligent Power Management technology, Demand Based Switching and emerging technologies such a Node Manager are providing a host of capabilities for end-users to deliver fine grained power management within their virtual environment. Cloud computing is an evolution of IT that delivers IT resources in a flexible, pay as you go model. From an end user perspective, cloud-based services need to provide the illusion of infinite resources, sense of ownership and security and dictate a pay-as-you model. Both internal (behind corporate firewall) and external (via public internet) clouds offer the potential for highly flexible computing and storage resources, provisioned on demand, at theoretically lower cost than buying, provisioning, and maintaining more fixed equivalent capacity. The core element that makes something a “cloud” is the architecture of the underlying compute, network and storage in the datacenter. From a Network perspective the Cloud Datacenter needs a Simplified Network: We had server sprawl, now we have vm sprawl. We increased server utilization through virtualization but have driven network bandwidth through the roof in complexity creating the next bottleneck in the system. IDC estimates that it costs roughly as much to manage a virtual server as a physical one. Business Drivers for Cloud: Cloud is not HYPE for us – we see core business value in using and maximizing the cloud. Benefits align with the key elements of our Data Center Strategy an the needs of our business (agility, efficiency, security and availability). Cloud Computing and the usage models it brings is forcing us to change the way we inside Intel IT look at our architecture: from the client technology to the data center infrastructure and the way in which we deliver services to our business partners and developers.
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World Internet Usage
From: http://www.internetworldstats.com/stats.htm
10 pt. increase in Asia is greater than NA population
