Cloud environment dr inż. Piotr Boryło 7.03.2018, Kraków
Agenda Cloud fundamentals Greening the cloud Intercloud Fog/Edge Computing Network Function Virtualization SDN for clouds Testing the cloud vs cloud testing 2
Agenda Cloud fundamentals Greening the cloud Intercloud Fog/Edge Computing Network Function Virtualization SDN for clouds Testing the cloud vs cloud testing 3
Cloud - definition It is all about food Home meal vs. restaurant http://www.telegraph.co.uk/travel/destinations/asia/india/articles/indian-food-a-regional-tour-of-the-countrys-best-curries/ 4
Infrastructure as a Service (IaaS) More like self-service Take care of all the components Flexibility https://www.pinterest.com/pin/148196643961912589/ 5
Platform as a Service (PaaS) More like dish from menu Integrated components Provider-dependent https://wall.alphacoders.com/big.php?i=327004 6
Software as a Service (PaaS) More like invited party menu Complete solutions Limited choice https://s-media-cache-ak0.pinimg.com/736x/9e/0a/fc/9e0afcf40afba074e7b0ff6859e01e70.jpg 7
Pizza as a Service analogy http://www.episerver.com/blog/blog-start/fred-bals/pizza-as-a-service/ 8
Services model http://vinfrastructure.it/2013/07/iaas-vs-paas-vs-saas/ 9
Types of clouds Private Public Hybrid Types of clouds vs. service levels? 10
Pros and cons Advantages: Know-how not needed Scalability and pay-as-you-go model Reliability Automation Cost efficiency? Disadvantages: Security Law regulations Performance of shared and general purpose hardware 11
Cloud operators examples 12
Cloud operators examples Logos, services listenings 13
Virtualization vs. Clouds Virtualization - definition? What to virtualize? Why to virtualize? Without virtualization cloud will not exist 14
Cloud operators examples Source: http://blog.gravitant.com/2012/07/27/cloud-technology-spectrum/ 15
Agenda Cloud fundamentals Greening the cloud Intercloud Fog/Edge Computing Network Function Virtualization SDN for clouds Testing the cloud vs cloud testing 16
Greening the cloud Definition and motivation? Real life examples Grow a greener Data Center Facility Physical Control and management Green network vs green cloud DoT contribution: STAR Project GreenTouch 17
What does it mean to be green? A computing environment that uses resources in a more efficient manner and has less impact upon people and the environment. [1] What to measure in Data Center: Energy consumption Carbon dioxide emission Heat emission Water usage Metrics: PUE, DCIE, CPE, TCE Certification [1] Grow a Greener Data Center, D. Alger. [2] Figure: http://www.iglaki24.pl/ 18
Why to be green It is fancy It is correct Yeah, but why should I pay? Money: Yet fashion Energy limits DC expansion Bills Law regulations Financial benefits Concerns http://www.clickittefaq.com/1-arrested-with-fake-dollars-in-dhaka/ http://fsymbols.com/computer/paragraph/ 19
Why to be green 2-3k square meters needs around 20 MW of energy Microsoft DC, 45k square meters, 200 MW Average reduction of 1000 USD per each 1 m 2 results in 2,500,000 USD in 20 year for big DC 20
Examples Vestas Wind Systems Effective turbines in 80% made from recycling materials Citigroup DC, 20k m 2 and 30% need for power Cisco HP 7,5k sensors, reduction of 7,5k MWh per year HSBC IBM 21
Building http://wikibon.org/blog/7-green-data-centers-just-in-time-for-spring/ 22
http://www.cumminspowerblog.com/en/2012/09/21/cummins-power-generation-drives-power-for-connected-cloud-computing-at-data-center-2/ 23
Cooling Raise temperature Reuse heat Free-air cooling Scalability Monitoring Hot and cold aisles 24
Hot and cold aisles https://www.pinterest.com/pin/496170083921144078/ 25
Cabling and equipment https://blog.dotcom-monitor.com/network-services-monitoring/15-server-room-cabling-nightmares/ https://www.dcig.com/2008/06/datacenter-management-101-part-i-cable-manage.html https://www.linkedin.com/pulse/10-cabling-tips-keep-you-data-center-manageable-unirise-usa https://www.pinterest.com/pducables/data-center-cabling/ 26
Cabling and equipment https://www.pinterest.com/datacenter/data-center-cabling/ http://www.americanis.net/colocation/structured-cabling/ 27
Greening upper layers 24 10Gbps cooper cables, 40m length, need around 33kg of cooper 48 fibers (similar connectivity), same length, require 56g of glass Much less natural resources to produce glass results in huge improvement 10 Gbps connection Fiber: 10-20 kw Cooper: 40-80 kw Switch, 48-ports, 10Gbps, per year: Fiber: 30,000 kwh Cooper: 126,000 kwh 28
Greening upper layers The aim to run DC is to earn money not to be green IT equipment is a core Service-aware infrastructure Energy-aware infrastructure Mechanisms: Consolidation Virtualization Automation 29
Greening upper layers Consolidation Potential depends on resource Green network vs. Green cloud Simplicity Challenges Virtualization: Coegistance with consolidation Hardware and software-based Resources and services Advantages Challenges 30
Greening upper layers 31
Greening upper layers Automation (orchestration): More logical resources to be managed Opportunities Risks Examples 32
DoT contribution to the greening concept GreenTouch consortium: Alcatel-Lucent, AT&T, China Mobile, Portugal Telecom, Telefonica, Freescale Semiconductor Reduce energy consumption of ICT SwiTching And transmission Project Green cloud provisioning throughout cooperation of a WDM wide area network and a hybrid power IT infrastructure Dynamic power capping in WAN Testbed 33