Efficient Scientific Workflow Scheduling in Cloud Environment

Cao, Fei

01 May 2014

Cloud computing enables the delivery of remote computing, software and storage services through web browsers following pay-as-you-go model. In addition to successful commercial applications, many research efforts including DOE Magellan Cloud project focus on discovering the opportunities and challenges arising from the computing and data-intensive scientific applications that are not well addressed by the current supercomputers, Linux clusters and Grid technologies. The elastic resource provision, noninterfering resource sharing and flexible customized configuration provided by the Cloud infrastructure has shed light on efficient execution of many scientific applications modeled as Directed Acyclic Graph (DAG) structured workflows to enforce the intricate dependency among a large number of different processing tasks. Meanwhile, the Cloud environment poses various challenges. Cloud providers and Cloud users pursue different goals. Providers aim to maximize profit by achieving higher resource utilization and users want to minimize expenses while meeting their performance requirements. Moreover, due to the expanding Cloud services and emerging newer technologies, the ever-increasing heterogeneity of the Cloud environment complicates the challenges for both parties. In this thesis, we address the workflow scheduling problem from different applications and various objectives. For batch applications, due to the increasing deployment of many data centers and computer servers around the globe escalated by the higher electricity price, the energy cost on running the computing, communication and cooling together with the amount of CO2 emissions have skyrocketed. In order to maintain sustainable Cloud computing facing with ever-increasing problem complexity and big data size in the next decades, we design and develop energy-aware scientific workflow scheduling algorithm to minimize energy consumption and CO2 emission while still satisfying certain Quality of Service (QoS) such as response time specified in Service Level Agreement (SLA). Furthermore, the underlying Cloud hardware/Virtual Machine (VM) resource availability is time-dependent because of the dual operation modes namely on-demand and reservation instances at various Cloud data centers. We also apply techniques such as Dynamic Voltage and Frequency Scaling (DVFS) and DNS scheme to further reduce energy consumption within acceptable performance bounds. Our multiple-step resource provision and allocation algorithm achieves the response time requirement in the step of forward task scheduling and minimizes the VM overhead for reduced energy consumption and higher resource utilization rate in the backward task scheduling step. We also evaluate the candidacy of multiple data centers from the energy and performance efficiency perspectives as different data centers have various energy and cost related parameters. For streaming applications, we formulate scheduling problems with two different objectives, namely one is to maximize the throughput under a budget constraint while another is to minimize execution cost under a minimum throughput constraint. Two different algorithms named as Budget constrained RATE (B-RATE) and Budget constrained SWAP (B-SWAP) are designed under the first objective; Another two algorithms, namely Throughput constrained RATE (TP-RATE) and Throughput constrained SWAP (TP-SWAP) are developed under the second objective.

budget

energy-aware

green cloud computing

throughput

virtual machine allocation

workflow scheduling

GreenMACC - Uma arquitetura para metaescalonamento verde com provisão de QoS em uma nuvem privada / GreenMACC - an architecture for green metascheduling with QoS provisioning in a private cloud

Carvalho Junior, Osvaldo Adilson de

15 December 2014

Esta tese de Doutorado tem como objetivo apresentar uma arquitetura para metaescalonamento verde com provisão de qualidade de serviço em uma nuvem privada denominada GreenMACC. Essa nova arquitetura oferece a automatização na escolha de políticas em quatro estágios de escalonamento de uma nuvem privada, permitindo cumprir a negociação que foi estabelecida com o usuário. Devido a essa função, é possível garantir que o GreenMACC se comporte seguindo os princípios da computação verde sem deixar de se preocupar com a qualidade do serviço. Nesta tese o GreenMACC é apresentado, detalhado, discutido, validado e avaliado. Com os resultados apresentados pode-se concluir que a arquitetura proposta mostrou-se consistente, permitindo a execução dos serviços requisitados com diversas políticas de escalonamento em todos os seus estágios. Além disso, demonstrou flexibilidade em receber novas políticas, com focos verde e de qualidade de serviço, e eficiência na escolha das políticas de escalonamento de acordo com a negociação feita com o usuário. / This PhD thesis aims to present an architecture for green metascheduling with provision of quality of service in a private cloud called GreenMACC. This new architecture offers the possibility of choosing automatically the four stage scheduling policies of a private cloud, allowing to reach the users negotiation. As a result of this function, it is possible to ensure that GreenMACCs behavior follows the green computing principles and also is worried about the quality of the service. In this thesis Green- MACC is presented, particularized, discussed, validated and evaluated. The results show that the proposed architecture is consistent, allowing the execution of the requested services considering various scheduling policies in the stages. Moreover, GreenMACC proves to be flexible as allows new policies, focusing on green and quality of service, and to be efficient as chooses the scheduling policies following the users negotiation.

Avaliação de desempenho

Cloud computing

Computação em nuvem

Computação verde

Computação verde na nuvem

Escalonamento

Green cloud computing

Green computing

Performance evaluation

Scheduling

GreenMACC - Uma arquitetura para metaescalonamento verde com provisão de QoS em uma nuvem privada / GreenMACC - an architecture for green metascheduling with QoS provisioning in a private cloud

Osvaldo Adilson de Carvalho Junior

15 December 2014

Esta tese de Doutorado tem como objetivo apresentar uma arquitetura para metaescalonamento verde com provisão de qualidade de serviço em uma nuvem privada denominada GreenMACC. Essa nova arquitetura oferece a automatização na escolha de políticas em quatro estágios de escalonamento de uma nuvem privada, permitindo cumprir a negociação que foi estabelecida com o usuário. Devido a essa função, é possível garantir que o GreenMACC se comporte seguindo os princípios da computação verde sem deixar de se preocupar com a qualidade do serviço. Nesta tese o GreenMACC é apresentado, detalhado, discutido, validado e avaliado. Com os resultados apresentados pode-se concluir que a arquitetura proposta mostrou-se consistente, permitindo a execução dos serviços requisitados com diversas políticas de escalonamento em todos os seus estágios. Além disso, demonstrou flexibilidade em receber novas políticas, com focos verde e de qualidade de serviço, e eficiência na escolha das políticas de escalonamento de acordo com a negociação feita com o usuário. / This PhD thesis aims to present an architecture for green metascheduling with provision of quality of service in a private cloud called GreenMACC. This new architecture offers the possibility of choosing automatically the four stage scheduling policies of a private cloud, allowing to reach the users negotiation. As a result of this function, it is possible to ensure that GreenMACCs behavior follows the green computing principles and also is worried about the quality of the service. In this thesis Green- MACC is presented, particularized, discussed, validated and evaluated. The results show that the proposed architecture is consistent, allowing the execution of the requested services considering various scheduling policies in the stages. Moreover, GreenMACC proves to be flexible as allows new policies, focusing on green and quality of service, and to be efficient as chooses the scheduling policies following the users negotiation.

Avaliação de desempenho

Computação em nuvem

Computação verde

Computação verde na nuvem

Escalonamento

Cloud computing

Green cloud computing

Green computing

Performance evaluation

Scheduling

Gröna molntjänster : En kvalitativ studie om vilka ekologiska hållbarhetsaspekter verksamheter kan kravställa mot molntjänstleverantörer

Fogelqvist, Oliver, Luthman, Felicia

January 2023

Molntjänster är ett snabbt växande område och utgör en viktig funktion i samhället och för verksamheter. Det som driver molntjänster är storskaliga datacenter som samlar tusentals servrar med infrastruktur. Dessa datacenter kräver en hög energianvändning för att drivas vilket utgör ett stort koldioxidutsläpp. Leverantörer upplever ökade krav i hållbarhetsfrågor och arbetar aktivt för att möta dessa krav. Verksamheter har därför en betydande roll i hur leverantörer arbetar med hållbarhet genom att ställa hållbarhetskrav. Det finns däremot utmaningar med att ställa hållbarhetskrav vilket är brist på kunskap, strategier och resurser.  Studien avser att identifiera de ekologiska hållbarhetsaspekter som verksamheter kan kravställa mot molntjänstleverantörer. Syftet med studien var att förmedla kunskap om vilka ekologiska hållbarhetsaspekter som kan appliceras i verksamheters kravspecifikation mot molntjänstleverantörer. Tidigare forskning beskriver hållbarhetsaspekter som molntjänstleverantörer kan applicera för att minska sitt koldioxidutsläpp. Dessa aspekter är: miljöcertifiering, nyckeltal, förnybar energi och energieffektiviserade strategier. Studien antog en kvalitativ forskningsansats. Datainsamlingen utfördes genom semistrukturerade intervjuer. Analysen utfördes med en tematisk analysmetod och det identifierades tre teman vilket är kunskapslucka, prioritering och resursbehov. Studien diskuterar dessa teman i relation till tidigare forskning kring hållbarhetsaspekterna och utmaningar.  Slutsatsen av studien är fem identifierade hållbarhetsaspekter som är: miljöcertifiering, nyckeltal, förnybar energi, geografisk plats och energieffektiviserade strategier. Dessa hållbarhetsaspekter kan verksamheter kravställa mot molntjänstleverantörer och kan reducera utmaningarna med att identifiera hållbarhetskrav. / Cloud services are a rapidly growing field and play a crucial role in society and businesses. What drives cloud services are large-scale data centers that house thousands of servers with infrastructure. These data centers require high energy consumption to operate, resulting in significant carbon emissions. Providers are facing increased demands for sustainability and actively working to meet these requirements. Businesses, therefore, have a significant role in influencing how providers approach sustainability by setting sustainability criteria. However, there are challenges in setting sustainability requirements due to a lack of knowledge, strategies, and resources. This study aims to identify the ecological sustainability aspects that businesses can demand from cloud service providers. The purpose of the study was to provide knowledge about the ecological sustainability aspects that can be included in businesses' specifications when selecting cloud service providers. Previous research describes sustainability aspects that cloud service providers can implement to reduce their carbon emissions. These aspects include environmental certification, key performance indicators, renewable energy, and energy-efficient strategies. The study adopted a qualitative research approach. Data collection was conducted through semi-structured interviews. The analysis was performed using thematic analysis, and three themes were identified: knowledge gap, prioritization, and resource requirements. The study discusses these themes in relation to previous research on sustainability aspects and challenges. The conclusion of the study highlights five identified sustainability aspects: environmental certification, key performance indicators, renewable energy, geographical location, and energy-efficient strategies. These sustainability aspects can be demanded by businesses from cloud service providers and can help address the challenges of identifying sustainability requirements.

Cloud computing

green cloud computing

data center

ecological sustainability

requirements management

sustainability requirements

carbon dioxide emissions

energy efficiency

Information Systems, Social aspects

Green Cloud Transition & Environmental Impacts of Stock Exchanges : A Case Study of Nasdaq, a Global Stock Exchange Company / Grön molnövergång & miljöpåverkan av börser : En fallstudie av Nasdaq, ett globalt börsföretag

Frisk Arfvidsson, Nils, Östlin, David

January 2020

To address the issues of climate change and reduce the emissions released into the atmosphere, society and companies, including the financial markets, need to adjust how they act and conduct business. The financial markets are vital in the transition towards a more sustainable society and stock exchanges are a central actor to enhance green finance, enabling green securities to be traded. For stock exchange companies to stand tall and encourage a green transition, they need to be aware of their own internal environmental impact. As society is changing to become more serviceoriented, so is stock exchanges. A part of enabling servitization is the usage of cloud services which not only enable companies to focus more on their core business, it also has the potential to reduce companies’ environmental footprint. This study examines the environmental impact of a stock exchange company and how it can be reduced by transitioning to cloud computing. The study uses Nasdaq as a case company and examines environmental performance data from major stock exchanges worldwide. The study furthermore uses the Multi-Level Perspective (MLP) to understand what enables and disables a cloud transition for stock exchanges. This study concludes that the main environmental impact of a stock exchange is Business Travel, electricity and heat for Office Buildings and Data Centres, although the order of these varies throughout the industry. Further, it is concluded that a stock exchange can reduce its environmental footprint by transitioning to cloud computing, in the best-case scenario, emissions are reduced with 10 percent and electricity usage reduced with almost 30 percent of the total usage. However, the impact of a transition is dependent on the rate of renewable energy used for the data centre. The study finds that a cloud transition includes enablers and disablers on all three levels on the MLP and it will most likely be incremental innovations together with a business model shift and technical traits of cloud that will enable and open the window of opportunity for a regime shift. It is concluded that technology or IT-security of cloud computing is not hindering a cloud transition, rather it is organizational culture, assumptions, financial lock-ins, and landscape protectionism that are disablers for a transition. To overcome those, and reduce the environmental footprint, stock exchanges need to work together with cloud providers to create use cases that are in line with the regulatory and financial requirements of a stock exchange. / För att hantera klimatförändringar och reducera utsläppen i atmosfären måste samhället och företag, inklusive de finansiella marknaderna anpassa hur de agerar och bedriver verksamhet. De finansiella marknaderna är vitala för övergången till ett mer hållbart samhälle och börser är en central aktör för att utveckla grön finans och möjliggöra handel av gröna värdepapper. Om börsbolag ska stå rakryggade och uppmuntra till en grön övergång måste de vara medvetna om deras egen interna miljöpåverkan. I takt med att samhället förändras till att bli mer serviceinriktat, förändras också börserna. En faktor för att möjliggöra servitisering är användningen av molntjänster, som inte bara möjliggör mer fokus på kärnverksamhet utan har också potential att minska företags miljöpåverkan. Denna studie undersöker miljöeffekterna av ett börsföretag och hur det kan minskas genom en övergång till molntjänster. Studien använder Nasdaq som ett caseföretag samt undersöker data om miljöpåverkan från de stora börserna världen över. Vidare, för att förstå vad som möjliggör och förhindrar en molnövergång för börser använder studien Multi-Level Perspective (MLP). De viktigaste resultaten från denna studie är att den största miljöpåverkan av en börs är affärsresor, el och värme för kontorsbyggnader samt datacenter, dock varierar ordningen på dessa mellan börser. Studien konkluderar att en börs kan minska deras miljöpåverkan genom att övergå till molntjänster, i bästa fall kan molntjänster minska utsläppen med 10 procent och minska elanvändningen med nästan 30 procent av den totala användningen. Effekterna av en övergång är dock mycket beroende av andelen förnybar energi som användas av de olika datacentren. Studien konstaterar flertalet faktorer på alla tre nivåer av MLP som både möjliggör och förhindrar en molnövergång. Det kommer sannolikt vara inkrementellinnovation tillsammans med affärsmodellsförändringar och tekniska egenskaper för molntjänster som möjliggör och öppnar fönstret till regimskifte. Studien konkluderar att det inte är tekniken eller IT-säkerheten för molntjänster som förhindrar en molnövergång utan det är organisationskulturen, förutfattade meningar, ekonomiska inlåsningar och landskapsprotektionism som förhindrar en molnövergång. För att övervinna dessa och minska miljöpåverkan måste börserna samarbeta med molntjänsteleverantörer för att skapa use cases som är i linje med lagstiftningen och de finansiella kraven på en börs.

Cloud computing

Green cloud

Environmental impacts

Environmental footprint

Financial services

Stock exchanges

Cloud transitions

Multi-level perspective

Molntjänster

Grön molntjänst

Miljöpåverkan

Miljöavtryck

Finansiella marknader

Börser

Molnövergång

Multi-Level Perspective

Engineering and Technology

Teknik och teknologier