This document discusses cloud migration strategies and best practices for migrating applications and infrastructure from on-premises to AWS. It covers the application discovery and analysis process, defining migration strategies like re-host, re-platform, re-architect, and prioritizing applications for migration. Common challenges of mass migrations are also addressed, along with how tools can help automate the process. The presentation concludes with an overview of planning the migration design and execution.
The document discusses workload suitability assessment for cloud migration. It describes a customer journey from early adoption to enterprise cloud computing. It evaluates workloads across several domains including business, financial, technical and functional to determine suitability. Key factors include discovery effort, migration effort, workforce expertise, vendor lock-in and more. The assessment is done using a tool called Aura which collects inputs to provide recommendations.
Application portfolio assessment is a technique used at the beginning of enterprise application migration process, helping migration team to gather, analyze and understand their app portfolio before deciding on priorities and sequences of application migration. Session will review the app assessment process, data collections, segmentation criteria and most common migration strategies and tools, helping attendees to better structure their application migration roadmaps
Pragmatic Enterprise Application Migration to AWSKacy Clarke
A presentation given to the Boston AWS Meetup on July 14, 2015, with best practices for migrating mission critical enterprise applications to production on AWS
Mass Migration Strategy - A Key Step in the Enterprise Transformation - AWS C...AWS Germany
Vortrag "Mass Migration Strategy - A Key Step in the Enterprise Transformation" von Angelo Crippa beim AWS Cloud Web Day für Mittelstand und Großunternehmen. Alle Videos und Präsentationen finden Sie hier: http://amzn.to/1VUJZsT
Migrating large fleets of legacy applications to AWS cloud infrastructure requires careful planning, since each phase needs to balance risk tolerance against the speed of migration.
Through participation in many large-scale migration engagements with customers, AWS Professional Services has developed a set of successful best practices, tools, and techniques that help migration factories optimize speed of delivery and success rate. In this session, we cover the complete lifecycle of an application portfolio migration with special emphasis on how to organize and conduct the assessment and how to identify elements that can benefit from cloud architecture.
This document provides guidance on developing a cloud migration strategy for typical large enterprise customers. It recommends starting with a cohesive approach involving sales, partners, solutions architects, and support teams. Key steps include obtaining executive sponsorship, identifying cloud champions, presenting integrated solutions, and thinking big. It also provides tips on assessing applications and prioritizing migrations, including focusing first on underutilized assets and those needing immediate scaling. Proof of concepts are recommended to build support and validate the approach before full migrations. Success criteria should go beyond just costs to include factors like agility, time to market, and new opportunities.
Imaginea's take on how an organization can seamlessly migrate to Cloud. Aligning your IT strategy accordingly and move to cloud step by step is explained here.
The document discusses workload suitability assessment for cloud migration. It describes a customer journey from early adoption to enterprise cloud computing. It evaluates workloads across several domains including business, financial, technical and functional to determine suitability. Key factors include discovery effort, migration effort, workforce expertise, vendor lock-in and more. The assessment is done using a tool called Aura which collects inputs to provide recommendations.
Application portfolio assessment is a technique used at the beginning of enterprise application migration process, helping migration team to gather, analyze and understand their app portfolio before deciding on priorities and sequences of application migration. Session will review the app assessment process, data collections, segmentation criteria and most common migration strategies and tools, helping attendees to better structure their application migration roadmaps
Pragmatic Enterprise Application Migration to AWSKacy Clarke
A presentation given to the Boston AWS Meetup on July 14, 2015, with best practices for migrating mission critical enterprise applications to production on AWS
Mass Migration Strategy - A Key Step in the Enterprise Transformation - AWS C...AWS Germany
Vortrag "Mass Migration Strategy - A Key Step in the Enterprise Transformation" von Angelo Crippa beim AWS Cloud Web Day für Mittelstand und Großunternehmen. Alle Videos und Präsentationen finden Sie hier: http://amzn.to/1VUJZsT
Migrating large fleets of legacy applications to AWS cloud infrastructure requires careful planning, since each phase needs to balance risk tolerance against the speed of migration.
Through participation in many large-scale migration engagements with customers, AWS Professional Services has developed a set of successful best practices, tools, and techniques that help migration factories optimize speed of delivery and success rate. In this session, we cover the complete lifecycle of an application portfolio migration with special emphasis on how to organize and conduct the assessment and how to identify elements that can benefit from cloud architecture.
This document provides guidance on developing a cloud migration strategy for typical large enterprise customers. It recommends starting with a cohesive approach involving sales, partners, solutions architects, and support teams. Key steps include obtaining executive sponsorship, identifying cloud champions, presenting integrated solutions, and thinking big. It also provides tips on assessing applications and prioritizing migrations, including focusing first on underutilized assets and those needing immediate scaling. Proof of concepts are recommended to build support and validate the approach before full migrations. Success criteria should go beyond just costs to include factors like agility, time to market, and new opportunities.
Imaginea's take on how an organization can seamlessly migrate to Cloud. Aligning your IT strategy accordingly and move to cloud step by step is explained here.
Perform a Cloud Readiness Assessment for Your Own CompanyAmazon Web Services
In this session you will get an understanding how to evaluate your company's or applications' cloud readiness. We will cover aspects such as workload and data categorisation, automation levels, design for failure and cost-optimised architectures. We will be looking at typical application evolution paths from tightly coupled physical systems, in some cases through virtualisation, to cloud-native, or cloud-ready, loosely coupled, distributed and automated solutions.
Where to Begin? Application Portfolio Migration - Miha Kralj, Principal Consultant, AWS
Application portfolio assessment is a technique used at the beginning of enterprise application migration process. It helps migration team to gather, analyse and understand their app portfolio before deciding on priorities and sequences of application migration. This session will present the app assessment process, the most common migration strategies and tools, and the placement of application portfolio migration in a complete IT Transformation process.
Cloud Migration Cookbook: A Guide To Moving Your Apps To The CloudNew Relic
The process of building new apps or migrating existing apps to a cloud-based platform is complex. There are hundreds of paths you can take and only a few will make sense for you and your business. Get a step-by-step guide on how to plan for a successful app migration.
CloudExpo NY 2014: Moving Mission Critical Applications to the CloudKacy Clarke
The document discusses challenges with moving mission critical applications to the cloud. It describes how traditional "lift and shift" migrations can result in issues meeting SLAs, long recovery times, gaps in monitoring, and other problems due to a lack of optimization for the cloud. The panelists from GE Capital and McGraw-Hill Education discuss their experiences with key business challenges like organizational change and technical challenges including replacing load balancers and issues with proprietary software in the cloud. The document advocates adopting cloud-native architectures and DevOps practices to better align applications with cloud capabilities and automate deployments.
Cloud Readiness 101: Analyzing and Visualizing Your IT Infrastructurepanagenda
This document provides an overview of analyzing an IT infrastructure in preparation for moving workloads to the cloud. It discusses:
- Understanding user activity through database logs to identify high impact users, applications, and server loads.
- Analyzing application design dependencies, features, interfaces to assess complexity and feasibility of moving applications.
- Combining usage and design analysis with organizational data to understand the full infrastructure picture and identify critical applications and areas for a successful transition.
The Netflix recipe for migrating your organization from building a datacenter based product to a cloud based product. First presented at the Silicon Valley Cloud Computing Meetup "Speak Cloudy to Me" on Saturday April 30th, 2011
Migrating large fleets of legacy applications to AWS cloud infrastructure requires careful planning, since each phase needs to balance risk tolerance against the speed of migration.
Through participation in many large-scale migration engagements with customers, AWS Professional Services has developed a set of successful best practices, tools, and techniques that help migration factories optimize speed of delivery and success rate. In this session, we cover the complete lifecycle of an application portfolio migration with special emphasis on how to organize and conduct the assessment and how to identify elements that can benefit from cloud architecture.
In this presentation from the AWS Lab at Cloud Expo Europe 2014 you will find details of the six patterns that Enterprise organisations typically to follow when adopting Amazon Web Services as well as a summary of the licensing options available for running enterprise applications on Amazon Web Services.
Build and use a DevOps driven Migration PipelineVedanta Barooah
This document discusses building and using a DevOps-driven migration pipeline for workload portability between cloud platforms. It outlines several key challenges with application migration including a lack of visibility into application dependencies and architectures. The document then presents HPE Pointnext's workload portability services which use automation and DevOps practices to discover, map, migrate, and optimize workloads for multiple cloud targets. It describes the engagement process and use of tools to rationalize workloads and implement a DevOps style migration pipeline to deploy applications across platforms in a standardized manner.
Risc and velostrata 2 28 2018 lessons_in_cloud_migrationRISC Networks
Learn how to accelerate and
de-risk your cloud migration project
Despite the surge in enterprises migrating applications to the public cloud, more than half of all projects are delayed or over budget and an even greater number are more difficult than expected.1
Cloud Migrations don’t begin when you start moving applications into the cloud. They begin with your application landscape discovery and assessment. The second phase comprises the actual migration where applications are moved to the public cloud. Working with purpose-built enterprise-grade cloud migration platforms, especially those that partner to integrate both phases greatly simplifies and accelerates projects.
RISC Networks and Velostrata have teamed up to deliver this webinar where we’ll share real-world examples, tips, and tricks on crafting a seamless cloud migration from start to completion.
(ENT206) Migrating Thousands of Workloads to AWS at Enterprise Scale | AWS re...Amazon Web Services
Migrating workloads to AWS in an enterprise environment is not easy, but with the right approach, an enterprise-sized organization can migrate thousands of instances to AWS quickly and cost effectively. You can leave this session with a good understanding of the migration framework used to assess an enterprise application portfolio and how to move thousands of instances to AWS in a quick and repeatable fashion.
In this session, we describe the components of Accenture's cloud migration framework, including tools and capabilities provided by Accenture, AWS, and third-party software solutions, and how enterprises can leverage these techniques to migrate efficiently and effectively. The migration framework covers:
- Defining an overall cloud strategy
- Assessing the business requirements, including application and data requirements
- Creating the right AWS architecture and environment
- Moving applications and data using automated migration tools- Services to manage the migrated environment
This document discusses workload migration for planned maintenance on IBM's SmartCloud Enterprise platform. It provides an overview of workload migration concepts and best practices. The agenda includes discussing application types and challenges, migrating data, recommended tools, and case studies. Best practices emphasized include using standard virtual machine images, DNS aliases to refer to servers, and quiescing applications before taking systems offline to minimize downtime during maintenance.
How a Business-First, Agile Cloud Migration Factory Approach Powers Digital S...Cognizant
By embracing a “factory” approach to hybrid cloud migration, IT organizations can more easily deliver enhanced operational agility and cost efficiencies, while widening the scope for business innovation.
Cloud Migration, Application Modernization and Security for PartnersAmazon Web Services
As AWS continues to expand, enterprise customers are increasingly looking to our partner ecosystem to assist in migrating their workloads to the cloud. This session describes the challenges, lessons learned and best practices for large scale application migrations. We will use real examples from our consulting partners and AWS Professional Services to illustrate how to move workloads to the cloud while modernizing the associated applications to take advantage of AWS’ unique benefits. We will also dive into how to use an array of AWS services and features to improve a customer’s security posture as they are migrating and once they are up and running in the cloud.
There are many questions on what are the best steps and ways to migrate to the cloud better. Enterprises need to have specific steps to follow when migrating to the cloud.
In this solution, we identify those specific steps and processes and how it can be adapted best.
To know more, please get in touch with us at info@blazeclan.com
This document discusses various cloud migration strategies. It suggests starting with a partial approach by moving generic applications or non-critical infrastructure to the cloud as a first step. A full assessment of applications is needed to determine what can be retired, replaced with SaaS, refactored for PaaS, or initially rehosted on IaaS. It outlines a 5 step process for cloud migration including determining public vs private cloud, integration strategies, and transition architecture. The overall goal is to leverage the cloud platform to reduce costs and improve flexibility over time.
The document discusses the Cloud Adoption Framework (CAF) which provides guidance for companies adopting AWS. It describes the common stages of a cloud adoption journey including planning, building, operating, and continuously improving cloud environments. The CAF also includes perspectives on people, processes, security, maturity levels, platforms, and operations to help customers develop cloud strategies and roadmaps.
(ENT306) Application Portfolio Migration | AWS re:Invent 2014Amazon Web Services
Migrating large fleets of legacy applications to AWS cloud infrastructure requires careful planning, since each phase needs to balance risk tolerance against the speed of migration.
Through participation in many large-scale migration engagements with customers, AWS Professional Services has developed a set of successful best practices, tools, and techniques that help migration factories optimize speed of delivery and success rate. In this session, we cover the complete lifecycle of an application portfolio migration with special emphasis on how to organize and conduct the assessment and how to identify elements that can benefit from cloud architecture.
Perform a Cloud Readiness Assessment for Your Own CompanyAmazon Web Services
In this session you will get an understanding how to evaluate your company's or applications' cloud readiness. We will cover aspects such as workload and data categorisation, automation levels, design for failure and cost-optimised architectures. We will be looking at typical application evolution paths from tightly coupled physical systems, in some cases through virtualisation, to cloud-native, or cloud-ready, loosely coupled, distributed and automated solutions.
Where to Begin? Application Portfolio Migration - Miha Kralj, Principal Consultant, AWS
Application portfolio assessment is a technique used at the beginning of enterprise application migration process. It helps migration team to gather, analyse and understand their app portfolio before deciding on priorities and sequences of application migration. This session will present the app assessment process, the most common migration strategies and tools, and the placement of application portfolio migration in a complete IT Transformation process.
Cloud Migration Cookbook: A Guide To Moving Your Apps To The CloudNew Relic
The process of building new apps or migrating existing apps to a cloud-based platform is complex. There are hundreds of paths you can take and only a few will make sense for you and your business. Get a step-by-step guide on how to plan for a successful app migration.
CloudExpo NY 2014: Moving Mission Critical Applications to the CloudKacy Clarke
The document discusses challenges with moving mission critical applications to the cloud. It describes how traditional "lift and shift" migrations can result in issues meeting SLAs, long recovery times, gaps in monitoring, and other problems due to a lack of optimization for the cloud. The panelists from GE Capital and McGraw-Hill Education discuss their experiences with key business challenges like organizational change and technical challenges including replacing load balancers and issues with proprietary software in the cloud. The document advocates adopting cloud-native architectures and DevOps practices to better align applications with cloud capabilities and automate deployments.
Cloud Readiness 101: Analyzing and Visualizing Your IT Infrastructurepanagenda
This document provides an overview of analyzing an IT infrastructure in preparation for moving workloads to the cloud. It discusses:
- Understanding user activity through database logs to identify high impact users, applications, and server loads.
- Analyzing application design dependencies, features, interfaces to assess complexity and feasibility of moving applications.
- Combining usage and design analysis with organizational data to understand the full infrastructure picture and identify critical applications and areas for a successful transition.
The Netflix recipe for migrating your organization from building a datacenter based product to a cloud based product. First presented at the Silicon Valley Cloud Computing Meetup "Speak Cloudy to Me" on Saturday April 30th, 2011
Migrating large fleets of legacy applications to AWS cloud infrastructure requires careful planning, since each phase needs to balance risk tolerance against the speed of migration.
Through participation in many large-scale migration engagements with customers, AWS Professional Services has developed a set of successful best practices, tools, and techniques that help migration factories optimize speed of delivery and success rate. In this session, we cover the complete lifecycle of an application portfolio migration with special emphasis on how to organize and conduct the assessment and how to identify elements that can benefit from cloud architecture.
In this presentation from the AWS Lab at Cloud Expo Europe 2014 you will find details of the six patterns that Enterprise organisations typically to follow when adopting Amazon Web Services as well as a summary of the licensing options available for running enterprise applications on Amazon Web Services.
Build and use a DevOps driven Migration PipelineVedanta Barooah
This document discusses building and using a DevOps-driven migration pipeline for workload portability between cloud platforms. It outlines several key challenges with application migration including a lack of visibility into application dependencies and architectures. The document then presents HPE Pointnext's workload portability services which use automation and DevOps practices to discover, map, migrate, and optimize workloads for multiple cloud targets. It describes the engagement process and use of tools to rationalize workloads and implement a DevOps style migration pipeline to deploy applications across platforms in a standardized manner.
Risc and velostrata 2 28 2018 lessons_in_cloud_migrationRISC Networks
Learn how to accelerate and
de-risk your cloud migration project
Despite the surge in enterprises migrating applications to the public cloud, more than half of all projects are delayed or over budget and an even greater number are more difficult than expected.1
Cloud Migrations don’t begin when you start moving applications into the cloud. They begin with your application landscape discovery and assessment. The second phase comprises the actual migration where applications are moved to the public cloud. Working with purpose-built enterprise-grade cloud migration platforms, especially those that partner to integrate both phases greatly simplifies and accelerates projects.
RISC Networks and Velostrata have teamed up to deliver this webinar where we’ll share real-world examples, tips, and tricks on crafting a seamless cloud migration from start to completion.
(ENT206) Migrating Thousands of Workloads to AWS at Enterprise Scale | AWS re...Amazon Web Services
Migrating workloads to AWS in an enterprise environment is not easy, but with the right approach, an enterprise-sized organization can migrate thousands of instances to AWS quickly and cost effectively. You can leave this session with a good understanding of the migration framework used to assess an enterprise application portfolio and how to move thousands of instances to AWS in a quick and repeatable fashion.
In this session, we describe the components of Accenture's cloud migration framework, including tools and capabilities provided by Accenture, AWS, and third-party software solutions, and how enterprises can leverage these techniques to migrate efficiently and effectively. The migration framework covers:
- Defining an overall cloud strategy
- Assessing the business requirements, including application and data requirements
- Creating the right AWS architecture and environment
- Moving applications and data using automated migration tools- Services to manage the migrated environment
This document discusses workload migration for planned maintenance on IBM's SmartCloud Enterprise platform. It provides an overview of workload migration concepts and best practices. The agenda includes discussing application types and challenges, migrating data, recommended tools, and case studies. Best practices emphasized include using standard virtual machine images, DNS aliases to refer to servers, and quiescing applications before taking systems offline to minimize downtime during maintenance.
How a Business-First, Agile Cloud Migration Factory Approach Powers Digital S...Cognizant
By embracing a “factory” approach to hybrid cloud migration, IT organizations can more easily deliver enhanced operational agility and cost efficiencies, while widening the scope for business innovation.
Cloud Migration, Application Modernization and Security for PartnersAmazon Web Services
As AWS continues to expand, enterprise customers are increasingly looking to our partner ecosystem to assist in migrating their workloads to the cloud. This session describes the challenges, lessons learned and best practices for large scale application migrations. We will use real examples from our consulting partners and AWS Professional Services to illustrate how to move workloads to the cloud while modernizing the associated applications to take advantage of AWS’ unique benefits. We will also dive into how to use an array of AWS services and features to improve a customer’s security posture as they are migrating and once they are up and running in the cloud.
There are many questions on what are the best steps and ways to migrate to the cloud better. Enterprises need to have specific steps to follow when migrating to the cloud.
In this solution, we identify those specific steps and processes and how it can be adapted best.
To know more, please get in touch with us at info@blazeclan.com
This document discusses various cloud migration strategies. It suggests starting with a partial approach by moving generic applications or non-critical infrastructure to the cloud as a first step. A full assessment of applications is needed to determine what can be retired, replaced with SaaS, refactored for PaaS, or initially rehosted on IaaS. It outlines a 5 step process for cloud migration including determining public vs private cloud, integration strategies, and transition architecture. The overall goal is to leverage the cloud platform to reduce costs and improve flexibility over time.
The document discusses the Cloud Adoption Framework (CAF) which provides guidance for companies adopting AWS. It describes the common stages of a cloud adoption journey including planning, building, operating, and continuously improving cloud environments. The CAF also includes perspectives on people, processes, security, maturity levels, platforms, and operations to help customers develop cloud strategies and roadmaps.
(ENT306) Application Portfolio Migration | AWS re:Invent 2014Amazon Web Services
Migrating large fleets of legacy applications to AWS cloud infrastructure requires careful planning, since each phase needs to balance risk tolerance against the speed of migration.
Through participation in many large-scale migration engagements with customers, AWS Professional Services has developed a set of successful best practices, tools, and techniques that help migration factories optimize speed of delivery and success rate. In this session, we cover the complete lifecycle of an application portfolio migration with special emphasis on how to organize and conduct the assessment and how to identify elements that can benefit from cloud architecture.
In this presentation we will discuss the planning considerations as well as some applicable methodologies and tools involved in the development and execution of a large AWS migration strategy.
The pathway to the cloud has many different options and levers that customers can pull. This webinar walks customers through actual steps from creating a cloud adoption vision to actually building a migration roadmap with actionable guidance. We’ll go through proven migration patterns, methods and tooling that AWS has leveraged successfully with hundreds of Enterprise customers around the globe. Learn what challenges customers face when planning the migrations to cloud, and how they overcome them to minimize risk and accelerate the adoption.
Migrating Thousands of Workloads to AWS at Enterprise Scale – Chris Wegmann, ...Amazon Web Services
At the end of this session participants will learn how to assess their enterprise application portfolio and move thousands of instances to AWS in a quick and repeatable fashion. Migrating workloads to AWS in an enterprise environment is not easy, but with the right approach, an enterprise sized organization can migrate thousands of instances to AWS quickly and cost effectively to ensure a strong ROI.
Are you planning to move existing applications to the cloud and want to avoid setbacks? These slides are from a webinar jointly presented by Atmosera and iTrellis, LLC. The webinar can help you find out how to assess your needs, plan out a migration and successfully operate your applications in a modern cloud environment. The webinar will provide the following answers:
* What re-platforming means and why you need to think about it
* How to take full advantage of a cloud such as Azure: agility, flexibility, and cost savings
* Lessons learned and best practices for planning a successful move to a modern cloud.
The full webinar playback URL is at https://www.atmosera.com/webinar-replatforming-application-cloud/
Microsoft Azure Assessment Service (MAAS) & Modernize - DatasheetTodd Erskine
The document discusses a Microsoft Azure Assessment Service (MaaS) & Modernize offering that assesses an organization's application portfolio to determine which applications can benefit from cloud capabilities. It will also modernize one selected application to migrate it to Microsoft Azure. The assessment will provide recommendations to create a roadmap for modernizing the application portfolio. It will identify applications, conduct a deep dive on their current state, and recommend a target Azure environment. The modernization of a sample application will re-platform it to Azure and move its configuration data, database, and integration with monitoring tools over a 12 week period.
Cloud migration involves moving digital assets like applications and databases from a company's on-premise infrastructure to cloud infrastructure. There are several steps to a successful cloud migration including forming a migration team, assessing organizational readiness, choosing a cloud vendor and designing the cloud environment, creating a roadmap, choosing a migration strategy, migrating data, testing, and switching to production. Key risks of cloud migration include cost, loss of control, vendor lock-in, and potential performance issues. People, finances, and legal/compliance issues are also important factors to consider.
Many large enterprises have begun using AWS to host development and test environments while also building greenfield applications in AWS. After realizing the benefits that AWS has to offer, many Enterprise look for ways to accelerate their migration to the cloud. In beginning this journey they are often faced with a number of challenges such as determining which applications should move, how they should move, and how can they be effectively managed in the cloud. Accenture, working with AWS Solution Architects, and AWS Professional Services have developed a framework, based on our experiences, to quickly, efficiently, and successfully move enterprise applications to AWS at scale. This session will review our approach, tools, and methods that can help Enterprises evolve their cloud transformation programs.
When customers think about moving to the cloud, one of their first considerations is cost. AWS helps lower customer costs through its “pay only for what you use” pricing model. In this session, we explain our TCO analysis methodology and explore the financial considerations of owning and operating a traditional data center or managed hosting provider compared with using AWS services. Customers also share their processes for developing the right cost savings and optimization model.
This session provides an overview of how organizations can migrate workloads to the AWS cloud at scale. We will go through available migration frameworks and best practices with common use case examples during this session. After migrating the initial workloads, understand how to migrate at scale to the AWS cloud. Hear about real life experiences from the AWS Professional Services team and learn about common use case examples, frameworks, and best practices. Hear about what to avoid when migrating applications at scale to AWS and understand the tools and partner services that can assist you when migrating applications to AWS.
The document provides guidelines for successfully migrating applications to the cloud. It discusses assessing applications to determine suitability for migration, building a business case, developing a technical approach, adopting an integration model, addressing security and privacy requirements, and managing the migration project. The key steps involve planning the migration thoroughly through readiness assessments, justifying the business value, designing technical solutions, ensuring integrations continue to function, protecting sensitive data, and executing the migration through testing and cutover.
This document discusses migrations and application modernization. It provides an overview of migration strategies and approaches, including assessing applications, planning a migration, executing the migration, and optimizing in the cloud. It also discusses modernizing applications to be cloud-native through re-architecting or re-platforming approaches. Key benefits of modernization include making applications more cost-efficient, scalable, and automated. The document also highlights archive storage as a solution for low-cost, secure storage of infrequently accessed data.
The document outlines steps for assessing an organization's application portfolio for migration to the cloud, including conducting discovery workshops, interviewing application owners, implementing discovery tools, profiling applications, identifying complexity and priorities, and developing a migration roadmap. It also discusses criteria for segmenting and prioritizing applications, different application disposition options, and patterns for actual application migration.
The document discusses DevOps practices like continuous integration (CI) and continuous delivery/deployment (CD). It explains that DevOps aims to improve software development and operations by increasing automation, reducing deployment times, and enabling more frequent and safer software releases. CI principles include automating builds, testing, and deployments. CD builds on CI by further automating the software release process and reducing risks of major releases.
This session provides an overview of how organizations can migrate workloads to the AWS cloud at scale. We will go through available migration frameworks and best practices with common use case examples during this session.
Migration Recipes for Success - AWS Summit Cape Town 2017 Amazon Web Services
Now that you have earmarked workloads for migration, it's time to look at the various tools and methodologies that are available to help customers shift applications to AWS. This session highlights some of the key AWS tools, services and approaches that organisations are using to successfully migrate to the cloud.
AWS Speaker: Sven Hansen, Solution Architect - Amazon Web Services
Customer Speaker: Pieter Breed – Core Platform Engineer Zoona
Migrating Legacy Applications to AWS Cloud: Strategies and ChallengesOSSCube
To reduce the TCO of application infrastructure and to make them more scalable and resilient it is advisable to migrate on-premise legacy applications to AWS cloud. In this webinar, you will learn the benefits, key challenges and strategies to mitigate them. It will also talk about leveraging the cloud infrastructure to further modernize the application.
Key Take Away:
Opportunities and challenges while migrating premise application to cloud.
Identifying the applications
Assessing cloud architecture and costs
Data migrations strategies and options
Strategies for migration applications
Leveraging the cloud and optimization
Similar to Migração - EBC on the road Brazil Edition [Portuguese] (20)
Come costruire servizi di Forecasting sfruttando algoritmi di ML e deep learn...Amazon Web Services
Il Forecasting è un processo importante per tantissime aziende e viene utilizzato in vari ambiti per cercare di prevedere in modo accurato la crescita e distribuzione di un prodotto, l’utilizzo delle risorse necessarie nelle linee produttive, presentazioni finanziarie e tanto altro. Amazon utilizza delle tecniche avanzate di forecasting, in parte questi servizi sono stati messi a disposizione di tutti i clienti AWS.
In questa sessione illustreremo come pre-processare i dati che contengono una componente temporale e successivamente utilizzare un algoritmo che a partire dal tipo di dato analizzato produce un forecasting accurato.
Big Data per le Startup: come creare applicazioni Big Data in modalità Server...Amazon Web Services
La varietà e la quantità di dati che si crea ogni giorno accelera sempre più velocemente e rappresenta una opportunità irripetibile per innovare e creare nuove startup.
Tuttavia gestire grandi quantità di dati può apparire complesso: creare cluster Big Data su larga scala sembra essere un investimento accessibile solo ad aziende consolidate. Ma l’elasticità del Cloud e, in particolare, i servizi Serverless ci permettono di rompere questi limiti.
Vediamo quindi come è possibile sviluppare applicazioni Big Data rapidamente, senza preoccuparci dell’infrastruttura, ma dedicando tutte le risorse allo sviluppo delle nostre le nostre idee per creare prodotti innovativi.
Ora puoi utilizzare Amazon Elastic Kubernetes Service (EKS) per eseguire pod Kubernetes su AWS Fargate, il motore di elaborazione serverless creato per container su AWS. Questo rende più semplice che mai costruire ed eseguire le tue applicazioni Kubernetes nel cloud AWS.In questa sessione presenteremo le caratteristiche principali del servizio e come distribuire la tua applicazione in pochi passaggi
Vent'anni fa Amazon ha attraversato una trasformazione radicale con l'obiettivo di aumentare il ritmo dell'innovazione. In questo periodo abbiamo imparato come cambiare il nostro approccio allo sviluppo delle applicazioni ci ha permesso di aumentare notevolmente l'agilità, la velocità di rilascio e, in definitiva, ci ha consentito di creare applicazioni più affidabili e scalabili. In questa sessione illustreremo come definiamo le applicazioni moderne e come la creazione di app moderne influisce non solo sull'architettura dell'applicazione, ma sulla struttura organizzativa, sulle pipeline di rilascio dello sviluppo e persino sul modello operativo. Descriveremo anche approcci comuni alla modernizzazione, compreso l'approccio utilizzato dalla stessa Amazon.com.
Come spendere fino al 90% in meno con i container e le istanze spot Amazon Web Services
L’utilizzo dei container è in continua crescita.
Se correttamente disegnate, le applicazioni basate su Container sono molto spesso stateless e flessibili.
I servizi AWS ECS, EKS e Kubernetes su EC2 possono sfruttare le istanze Spot, portando ad un risparmio medio del 70% rispetto alle istanze On Demand. In questa sessione scopriremo insieme quali sono le caratteristiche delle istanze Spot e come possono essere utilizzate facilmente su AWS. Impareremo inoltre come Spreaker sfrutta le istanze spot per eseguire applicazioni di diverso tipo, in produzione, ad una frazione del costo on-demand!
In recent months, many customers have been asking us the question – how to monetise Open APIs, simplify Fintech integrations and accelerate adoption of various Open Banking business models. Therefore, AWS and FinConecta would like to invite you to Open Finance marketplace presentation on October 20th.
Event Agenda :
Open banking so far (short recap)
• PSD2, OB UK, OB Australia, OB LATAM, OB Israel
Intro to Open Finance marketplace
• Scope
• Features
• Tech overview and Demo
The role of the Cloud
The Future of APIs
• Complying with regulation
• Monetizing data / APIs
• Business models
• Time to market
One platform for all: a Strategic approach
Q&A
Rendi unica l’offerta della tua startup sul mercato con i servizi Machine Lea...Amazon Web Services
Per creare valore e costruire una propria offerta differenziante e riconoscibile, le startup di successo sanno come combinare tecnologie consolidate con componenti innovativi creati ad hoc.
AWS fornisce servizi pronti all'utilizzo e, allo stesso tempo, permette di personalizzare e creare gli elementi differenzianti della propria offerta.
Concentrandoci sulle tecnologie di Machine Learning, vedremo come selezionare i servizi di intelligenza artificiale offerti da AWS e, anche attraverso una demo, come costruire modelli di Machine Learning personalizzati utilizzando SageMaker Studio.
OpsWorks Configuration Management: automatizza la gestione e i deployment del...Amazon Web Services
Con l'approccio tradizionale al mondo IT per molti anni è stato difficile implementare tecniche di DevOps, che finora spesso hanno previsto attività manuali portando di tanto in tanto a dei downtime degli applicativi interrompendo l'operatività dell'utente. Con l'avvento del cloud, le tecniche di DevOps sono ormai a portata di tutti a basso costo per qualsiasi genere di workload, garantendo maggiore affidabilità del sistema e risultando in dei significativi miglioramenti della business continuity.
AWS mette a disposizione AWS OpsWork come strumento di Configuration Management che mira ad automatizzare e semplificare la gestione e i deployment delle istanze EC2 per mezzo di workload Chef e Puppet.
Scopri come sfruttare AWS OpsWork a garanzia e affidabilità del tuo applicativo installato su Instanze EC2.
Microsoft Active Directory su AWS per supportare i tuoi Windows WorkloadsAmazon Web Services
Vuoi conoscere le opzioni per eseguire Microsoft Active Directory su AWS? Quando si spostano carichi di lavoro Microsoft in AWS, è importante considerare come distribuire Microsoft Active Directory per supportare la gestione, l'autenticazione e l'autorizzazione dei criteri di gruppo. In questa sessione, discuteremo le opzioni per la distribuzione di Microsoft Active Directory su AWS, incluso AWS Directory Service per Microsoft Active Directory e la distribuzione di Active Directory su Windows su Amazon Elastic Compute Cloud (Amazon EC2). Trattiamo argomenti quali l'integrazione del tuo ambiente Microsoft Active Directory locale nel cloud e l'utilizzo di applicazioni SaaS, come Office 365, con AWS Single Sign-On.
Dal riconoscimento facciale al riconoscimento di frodi o difetti di fabbricazione, l'analisi di immagini e video che sfruttano tecniche di intelligenza artificiale, si stanno evolvendo e raffinando a ritmi elevati. In questo webinar esploreremo le possibilità messe a disposizione dai servizi AWS per applicare lo stato dell'arte delle tecniche di computer vision a scenari reali.
Amazon Web Services e VMware organizzano un evento virtuale gratuito il prossimo mercoledì 14 Ottobre dalle 12:00 alle 13:00 dedicato a VMware Cloud ™ on AWS, il servizio on demand che consente di eseguire applicazioni in ambienti cloud basati su VMware vSphere® e di accedere ad una vasta gamma di servizi AWS, sfruttando a pieno le potenzialità del cloud AWS e tutelando gli investimenti VMware esistenti.
Molte organizzazioni sfruttano i vantaggi del cloud migrando i propri carichi di lavoro Oracle e assicurandosi notevoli vantaggi in termini di agilità ed efficienza dei costi.
La migrazione di questi carichi di lavoro, può creare complessità durante la modernizzazione e il refactoring delle applicazioni e a questo si possono aggiungere rischi di prestazione che possono essere introdotti quando si spostano le applicazioni dai data center locali.
Crea la tua prima serverless ledger-based app con QLDB e NodeJSAmazon Web Services
Molte aziende oggi, costruiscono applicazioni con funzionalità di tipo ledger ad esempio per verificare lo storico di accrediti o addebiti nelle transazioni bancarie o ancora per tenere traccia del flusso supply chain dei propri prodotti.
Alla base di queste soluzioni ci sono i database ledger che permettono di avere un log delle transazioni trasparente, immutabile e crittograficamente verificabile, ma sono strumenti complessi e onerosi da gestire.
Amazon QLDB elimina la necessità di costruire sistemi personalizzati e complessi fornendo un database ledger serverless completamente gestito.
In questa sessione scopriremo come realizzare un'applicazione serverless completa che utilizzi le funzionalità di QLDB.
Con l’ascesa delle architetture di microservizi e delle ricche applicazioni mobili e Web, le API sono più importanti che mai per offrire agli utenti finali una user experience eccezionale. In questa sessione impareremo come affrontare le moderne sfide di progettazione delle API con GraphQL, un linguaggio di query API open source utilizzato da Facebook, Amazon e altro e come utilizzare AWS AppSync, un servizio GraphQL serverless gestito su AWS. Approfondiremo diversi scenari, comprendendo come AppSync può aiutare a risolvere questi casi d’uso creando API moderne con funzionalità di aggiornamento dati in tempo reale e offline.
Inoltre, impareremo come Sky Italia utilizza AWS AppSync per fornire aggiornamenti sportivi in tempo reale agli utenti del proprio portale web.
Database Oracle e VMware Cloud™ on AWS: i miti da sfatareAmazon Web Services
Molte organizzazioni sfruttano i vantaggi del cloud migrando i propri carichi di lavoro Oracle e assicurandosi notevoli vantaggi in termini di agilità ed efficienza dei costi.
La migrazione di questi carichi di lavoro, può creare complessità durante la modernizzazione e il refactoring delle applicazioni e a questo si possono aggiungere rischi di prestazione che possono essere introdotti quando si spostano le applicazioni dai data center locali.
In queste slide, gli esperti AWS e VMware presentano semplici e pratici accorgimenti per facilitare e semplificare la migrazione dei carichi di lavoro Oracle accelerando la trasformazione verso il cloud, approfondiranno l’architettura e dimostreranno come sfruttare a pieno le potenzialità di VMware Cloud ™ on AWS.
1) The document discusses building a minimum viable product (MVP) using Amazon Web Services (AWS).
2) It provides an example of an MVP for an omni-channel messenger platform that was built from 2017 to connect ecommerce stores to customers via web chat, Facebook Messenger, WhatsApp, and other channels.
3) The founder discusses how they started with an MVP in 2017 with 200 ecommerce stores in Hong Kong and Taiwan, and have since expanded to over 5000 clients across Southeast Asia using AWS for scaling.
This document discusses pitch decks and fundraising materials. It explains that venture capitalists will typically spend only 3 minutes and 44 seconds reviewing a pitch deck. Therefore, the deck needs to tell a compelling story to grab their attention. It also provides tips on tailoring different types of decks for different purposes, such as creating a concise 1-2 page teaser, a presentation deck for pitching in-person, and a more detailed read-only or fundraising deck. The document stresses the importance of including key information like the problem, solution, product, traction, market size, plans, team, and ask.
This document discusses building serverless web applications using AWS services like API Gateway, Lambda, DynamoDB, S3 and Amplify. It provides an overview of each service and how they can work together to create a scalable, secure and cost-effective serverless application stack without having to manage servers or infrastructure. Key services covered include API Gateway for hosting APIs, Lambda for backend logic, DynamoDB for database needs, S3 for static content, and Amplify for frontend hosting and continuous deployment.
This document provides tips for fundraising from startup founders Roland Yau and Sze Lok Chan. It discusses generating competition to create urgency for investors, fundraising in parallel rather than sequentially, having a clear fundraising narrative focused on what you do and why it's compelling, and prioritizing relationships with people over firms. It also notes how the pandemic has changed fundraising, with examples of deals done virtually during this time. The tips emphasize being fully prepared before fundraising and cultivating connections with investors in advance.
AWS_HK_StartupDay_Building Interactive websites while automating for efficien...Amazon Web Services
This document discusses Amazon's machine learning services for building conversational interfaces and extracting insights from unstructured text and audio. It describes Amazon Lex for creating chatbots, Amazon Comprehend for natural language processing tasks like entity extraction and sentiment analysis, and how they can be used together for applications like intelligent call centers and content analysis. Pre-trained APIs simplify adding machine learning to apps without requiring ML expertise.
Amazon Elastic Container Service (Amazon ECS) è un servizio di gestione dei container altamente scalabile, che semplifica la gestione dei contenitori Docker attraverso un layer di orchestrazione per il controllo del deployment e del relativo lifecycle. In questa sessione presenteremo le principali caratteristiche del servizio, le architetture di riferimento per i differenti carichi di lavoro e i semplici passi necessari per poter velocemente migrare uno o più dei tuo container.
6. Best Practices
1.Pre-Migration
1. Haveaclear vision of where ITand business should overlap inthe
future
2. Outline and share aclear cloud governancemodel
3. Train staff early in theprocess
4. Spend time and effort outlining how operations will take shape in AWS
5. Know which ITassetsyou currently own and which you’re includingin
each migration
6. Select the right partner(s) to help you along the Journey
https://medium.com/aws-enterprise-collection/21-best-practices-for-your-cloud-migration-e406546cb66b
8. 8
Os 4 estágios da adoção da nuvem
• A Nuvem é usada projeto
a projeto
• Resolve necessidade(s)
específica(s) para o cliente
• Internamente, poucas
habilidades com a Nuvem
• O cliente está provando
para si mesmo que a
Nuvem é uma opçãoviável
• A Nuvem amplia os
datacenters existentes
• Novos projetos são iniciados
na Nuvem
• De 3 a 5 aplicativos
corporativos na Nuvem
(produção)
• Treinamento e formação de
um Centro de Excelência
na Nuvem (COE)
• Estabelecidos os modelos
de segurança e
conformidade com aNuvem
• Preparando para
operações com Nuvem no
longo prazo
• O COE é estabelecido
• Papéis das tecnologias são
redefinidos
• Grupos de aplicativos de
produção e (ou) data
centers migram
• A Nuvem torna-se a
escolha padrão
• Novos modelos de
negócios são explorados
• Mudar de "Por que
Nuvem?" Para "Por que
não a Nuvem?"
• Mais confortável com as
operações na Nuvem do
que no local
Projeto Fundação Migração Optimização
9. Organizações que não obtêm sucesso na integração operacional
(especialmente na gestão de mudanças) veem sua adoção da Nuvem
parada e seus programas não conseguem atingir os resultados
desejados.
Optimisation
Migration
Foundation
Project
EstágiosdaAdoção
THE STALL
15. 15
Focadaem
Capacidades
deNegócio
Negócio
Realização de Valor
Pessoas
Papéis e Readiness
Governança
Priorização e Controle
Focadaem
Capacidades
técnicas
Plataforma
Aplicativos e Infraestrutura
Segurança
Risco e Conformidade
Operações
Híbrida e Dinâmica
Estágios da Adoção
Saiba mais sobre o CAF online:
https://d0.awsstatic.com/whitepapers/aws_cloud_adoption_framework.pdf
CAF – Cloud Adoption Framework
16. Best Practices
2. Migration
1. Start small andsimple
2. Automate
3. Approach the cloud astransformational
4. Leveragefully managed services wherever possible
3. Post-Migration
1. Monitor everything
2. Usecloud-native monitoring tools
3. LeverageAWS enterpriseSupport
https://medium.com/aws-enterprise-collection/21-best-practices-for-your-cloud-migration-e406546cb66b
17. Best Practices
4. For Mass Migrations
1. Build arobust migration factory made up of teams, tools, and
processes all centered around the migrationactivities
2. Provide leadership and set benchmarks for the migrationfactory
3. Havean onboarding process for new team members while theproject
is in full swing
4. Distribute talent judiciously acrossyour sprintteams
5. Consider many differentcriteria when deciding on the migration
strategy for aparticularapplication
6. Find patterns and create blueprints forthem
7. Test your applications
8. Ensure that aculture of over-communication is instilled in all teams
involved
https://medium.com/aws-enterprise-collection/21-best-practices-for-your-cloud-migration-e406546cb66b
18. Challenges
Toolscanhelp withthe belowchallenges
Data center migrations can involve thousands of workloads and tens of thousandsof
servers.
Large-scale server migration is a long and complex project with significant
manual labor.
Complex application interdependencies thatare poorly understood.
Identifying application inventory and dependenciesmanually slows down migration
process.
Difficulty oftesting server migrations iteratively makes them less confident about
the migrationprocess.
Long server downtime at cutover can incur additional business loss.
19. Application Discoveryand
Analysis Approach
• Semi-automated process with automation rate improving with tool
enablement
• Combination of AWSand partner discovery tooling with best practicesand
cloud assessment
• Requires light participation/ workshops withbusiness application owners –
minimal impact to businessunits
• App Portfolio Profiling is specific toeach customer/environment, but is
basedstandard AWSrationalization and prioritizationapproach
20. Application Discovery
& Analysis Process
Discov
er
ConductApp Discovery
Workshop
Implement tool based
discoveryenablement
Profiling app inventory &
assets
Interview AppOwners
Mapping ofApplication
Portfolio Identif
y
Identify app candidates
Capture inter-
dependencies
ConductApp Cloud Fit
Assessmentbasedon app
rationalization criteria
Evaluate Security & Data
Classification
Prioritiz
e
Sort and Rankapp
candidates list basedon
defined prioritization
criteria
Filter and Exclude app that
are anti patterns
Capture AppTCO
Develop AppPrioritization
Model
Cloud SuitableApplication MigrationRoadmap
21. Cloud Fit Assessment based on
Application Rationalization Criteria
• BusinessDrivers:
• Costreduction/EconomicsAnalysis – hardware, labor,
facility, support, maintenance, license costs, etc
• Data Classification (Criticality and Sensitivity)
• Security/RegulatoryCompliance
• Unsupported LegacyApp and LegacyOS
• LackEnterprise Support in Cloud
• Inconsistent DemandandWorkload
• Technology Drivers:
• Application TechnologyStack
• Application Performance, Utilization & Consumption
• Data/Storage/Network
• SecurityAssessment
• ServiceLevel/ Mission Critical/ Continuity–
HA/DR/Backup
Application Portfolio Data
Gathering
• Nameof the apps, technical owner, business
owner, cost rate/cost center
• App Characteristic (app framework, dev language,
data classification, data exchange, stateful vs
stateless session)
• App StackTier desc (inter-dependencies,
middleware, queues, database)
• Infrastructure desc(OS,network, ports/protocols,
security, virtualization, directory, NAS/CIF,
clusters)
• Number of systems: direct (exclusive), indirect
(dependent), non-prod (dev-test)
22. Defining Application Prioritization Criteria
• Businesscritically (supported business process andimpact,
frequency of use, sizeof user base,)
• Application complexity (technology stack,application
architecture, external interface,inter-dependencies)
• Environment Priority (Test-> Dev-> PreProd -> Prod)
• Environment Footprint (sizeof servers, file systems,database,
storage volumes)
• Transaction Workload (resource utilization for right
sizing/optimal AWSresources)
23. Application Prioritization Model
Example: this model leverages aweighted scaleand prioritization to deliver areport
identifying logical application groupings for a phased migration into AWS.
Exampleof Application PrioritizationReport
Criticality
Inter-Dependencies
Environment Footprint
25. AWS Application DiscoveryService
Agents deployed on source hosts.Agentless
for VMWare.
Windows & Linuxsupport
Capture system inventory, performance,and
dependencies
Capture and store secured data toAWS
Overview
API access to discovered assets
Output to CSV or XML
Can be imported into athird-party
migration or visualization tool
DiscoveryAgents
AWSDiscovery
DB
AWS Application
DiscoveryServiceEncrypted
data
On-premises data centeror
VMware vCenter
Agentless
Discovery
Appliance
(StandaloneVM)
29. ApplicationModernization/ChangeEffort
Migration
Pattern
Migration
PatternName
Pattern Description Example
R1
Retain • Client will keep host/application in their source environment
• Minimal analysis/validation of scope and application affinity
• Dependency on integrating service management
• Mainframe
• Unix host / applications
• Offshore locations
R2
Retire • Application and host decommission on source
• No migration to target
• Application owner approvals needed
• Existing decommissioning program
• UNIX, SCO, Clustered host for DR,
alternative HAhosts
R3
Re-Host • Like for like application migration
• Minimal change to application architecture
• Storage migration will be needed (without conversion)
• UAT – Some level of application testing
• Simple to medium V2V, P2V
• Storage: Local to DASD
• RHEL 6 above
• Win 2008Above
R4
Re-Factor • Database to AWSRDS
• Middleware and application change to “cloudify” an application
• UAT required
• MS SQL same technology(RDS)
• Middleware, IBM products
R5
Re-platform • Up-version of the OS and/or Database onto the target cloud
• OS and/or Database porting
• Storage migration will be needed (without conversion)
• Some level of application changes
• Data conversion; Database transition to MySQL, Aurora, etc..
• Application reinstallation on the target
• UAT is highly recommended
• W2K3 to Win 2012; Win 2008below;
RHEL 6 below, Oracle 8 to 11; All
databases
• AIX to Linux
• Oracle to SQL, SQL toAurora
• New application releases
• All clusters (MS clusters, DR)
R6
Re-Architect • Application architecture changes may also require Up-Version or
Porting
• Middleware, data modernization, application consolidation/stacking
• UAT required; HPC Grid, No ITIL
• Any custom application change
• Complex / Highly complex application
migration
Migration Patterns
30. Typical Enterprise Portfolio Characteristics
Portfolio Tier Characteristics Typical Cases
Typical
Migration
Path
Best-fit
Operating
Model
Approx. %
Portfolio*
Differentiate
• High rate of change
• Possibly business-critical, not always
• Innovative and/or revenue generating.
• Customer-facing web apps
• Real-time Analytics
• Mobile, IoT, Big Data
Refactor DevOps ~20%
Table Stakes
• Low rate of change
• Business critical
• Highest availability/reliability required
• Systems of record
• ERP, CRM, Order/Logistics
• Legacy line-of-business
Replatform,
Repurchase
Steady-state
(high automation) ~30%
Commodity &
Craplications
• Low rate of change
• Non-business critical
• Standard availability/reliability required
• Productivity apps
• Non-business-critical
• Small customer-base
SaaS,
Rehost,
Retire
Steady-state
(low automation) ~50%
31. Planning Your Cloud Migration
• Now thatyou’ve gatheredallof theapplication andperformancemetricsfor each
server/applicationandhavedoneacomplete analysisandhaveconsultedwiththe
business/technologyteams:
Decideonamigrationstrategy
Retain;Retire;Re-purchase;Re-host;Re-platform;Re-factor
Decideonapriorityandbuildthemigrationbacklog
Identifytoolstohelpfacilitatethemigration
Starttoarchitectanddesignwhattheoperationallandingzonewill looklike
37. Application Migration
Execution Approach
• Implement migration automation tools tocapture on premise
workload and move intoAWS
• Leveragehigh-speed data transfer solution orvirtual/physical
network appliance for large data transfer and database
migration
• Perform Integration for infrastructure, application,and
operation
• Conduct application functional validation
38. Application Migration Execution ProcessCreateInfra
Prepare Future
StateTargetEnv
Deploy core
infrastructure
services
Setup central
control source of
truth - accounts,
policy, credentials,
& permissions
CaptureApp/Infra
Prepon-premise
Infrastructure
readiness
Capture all relevant
apps/ imagesin
sequence per
prioritization report
DeployApp/Infra
Deploy captured
apps in target
environment
Right Sizingof AWS
Resources
MoveData
Determine data
migration approach
to use
Execute parallel run
if needed
Testdata
consistency
Deployed to AWSInfrastructure with configuration and migrateddata
• Thisstep should be highly automated withmigration tooling refinement and awell-
39. 1SERVER 10SERVERS 50SERVERS 100SERVERS
Total Man HoursSpent
Manual Migration
Semi-Automated Migration
FullyAutomated Migration
Need to continuous fine-tune the tool for theenvironment
Migration Costs VariesNumberofManHours/Efforts
42. Milestone
Activities
Deliverables
Table
Migration
Stored Proc & otherDB
objects Migration
Schemaverification
& DataValidation
Migrated table schema
Migrated user accounts.
Unit Test results
Migrated SP, Functions,
Triggers code
Unit Test results
Perform Schema
Comparison of
tables, indexes,
Perform data
verification
between source
and target
database.
Custom data
migration scripts
Migrated data to
target database
Unit Test results
Data
Migration
Migrate Table Schema
from Source to target
Database
Migrate user accounts
and permissions from
source to target DB
Migrate SP,Functions and
other DB objects from
source to target DB
Perform unit testing of the
migrated schema asper
test plan.
Set up data
migration scripts
Perform data
migration
Unit testing of data
migrated from
source to target DB
Complete
migration to SQL
Server database
with schema
objects and data
Database Migration Approach
Awide selection of partner and vendor tools (AWS included)
43. Migration Execution – Integration
• Strongly depends on the application and customerenv:
• Infrastructure Integration
• AWSnetwork pipe and connectivity, security group, VIP,DNS,firewall rulesetc
• Application Integration
• re-establish external data sources, app inter-dependencies (accessmanagement,
middleware, queues, enterprise bus)
• Operational Integration
• SSO/AD,Monitoring, Backup, Patching, Update CMDB,Onboarding Procedure to
Cloud Management Platform
• Best practices – useof FQDNsvshard coded IPaddresses
44. Migration Execution – Validation
• Focuseson functional validation and businessacceptance
criteria
• Level of automation dependson
• Functional validation, smoke tests, performance baseline test andetc
• Leverage existing testing tools, invest in building automated test scripts and test
scenarios
• Review roll back procedure(optional)
• Schedule Cut over
• Best practices – implement continuous integration,automate
your build, automate yourdeploy
48. AWS Server MigrationService
Automate the end-to-end server migrationprocess
Automates an incrementalreplication
of live servervolumes to AWS
Orchestrateslarge-scale
server migrations
Migrate serverstoAWS in a
cost effectivemanner
Support most widely usedoperating
systems
Manage migration and track
the process easilywith a GUI
Reduceserver downtime atcutover
49. AWS Server MigrationService
Overview
Support VMware VMs migrationwith the
initial release
Windows & Linuxsupport
Agentless VM migration
Capture incremental changes made toon-
premises VMs and transfer toAWS
Create migration waves
AWS Management Console and
API/CLI access
Launch EC2 instances fromAmazon
Machine Images (AMI)
AWS ServerMigration
Service
On-premises VMware VMs
VMs
AMIs
53. AWS Database Migration Service(AWSDMS)
DMS migrates databases to AWS easily and
securely with minimal downtime. It can
migrate your data to and from most widely
used commercial and open-source
databases.
AmazonAurora
55. Characteristics
• The source database remains fully operational during the migration, minimizing downtime
to applications that rely on the database.
• The AWS Database Migration Service can migrate your data to and from most widely
used commercial and open-source databases.
• The service supports homogenous migrations such as Oracle to Oracle, as well as
heterogeneous migrations between different database platforms. It also allows you to
stream data to Amazon Redshift, Amazon DynamoDB, and Amazon S3 from any of the
supported sources,
• which areAmazonAurora, PostgreSQL,MySQL,MariaDB, Oracle Database, SAPASE,SQLServer, IBM DB2
LUW,and MongoDB.
• AWS Database Migration Service can also be used for continuous data replication with
high-availability.
• When migrating databases to Aurora, Redshift or DynamoDB, you can use DMS free for
six months.
58. AWS SchemaConversion Tool(AWSSCT)
SCT helps automate many database schemas
and code conversion tasks when migrating
between database engines or data warehouse
engines
AmazonAurora
59. AWS Database MigrationService
Overview
Keep your applications running duringthe
migration
Start areplication instance
Configure both databaseendpoints
Select tables, schemas, ordatabases
On-premises Database
Switch applications over to the target at
your convenience as AWS DMS keeps
the target database in sync.
Wide support of databases
Homogeneous migrations (ex: Oracle to
Oracle)
Heterogeneous migrations (ex: Oracle to
AmazonAurora)
AWS
Database
Migration
Service
63. AWS MigrationHub
• Provides a single location to trackthe progress of applicationmigrations across
multiple AWS andpartnersolutions.
• Also provides keymetrics and progress for individualapplications,regardless of
which tools are being used to migratethem
• View the migrationprogress of allthe resources in the application.
• Allows you to quickly getprogress updates across allof your migrations,easily
identify and troubleshootanyissues
• Thereis no additionalcostfor using Migration Hub
64. Liftand Shift:AWS Snow Family
Snowball Snowball Edge Snowmobile
Petabyte-scale data
migration
Compute & Storage for
Hybrid/Edge workloads
Exabyte-scale data
migration
65. AWS Import/ExportSnowball
Overview
ExtremelyScalable
Singleapplianceup to 50 TB or 80 TB
Multiple appliancescanbe used in parallelto
transfer Petabytes ofdata.
• Highspeed
10GBaseT networkconnection.
Programmable
Snowball job managementAPI
Snowball S3Adapter
Tamper resistant and secure
256-bit encryption keys managed by
AWS Key Management Service
On-premises Data
Fast
Elastic
Costeffective
10G network
50TB or 80TBcapacity
66. AWS SnowballEdge
Petabyte-scalehybrid devicewith onboard compute and storage
• 100 TB local storage
• Local compute equivalent to anAmazon
EC2 m4.4xlarge instance
• 10GBase-T, 10/25Gb SFP28, and 40Gb
QSFP+ copper, and optical networking
• Ruggedized and rack-mountable
68. Amazon Snowmobile
• Exabyte-scale data transferservice
• Each Snowmobile can transfer up to
100PB
• Connects to your networkvia
removable high-speed networkswitch
• Appears as network-attacheddata
store
• Data encrypted with256-bit
encryption keys, managed
through KMS
• Snowmobile driven back to AWS
and data is loaded into S3,
Redshift, Glacier
69. Snowball Edge: Remote DataCollection
Customer Example: Oregon StateUniversity
• Collect and analyze oceanic and coastal images (60TB/week)
• Environmental and ocean ecosystemresearch
• Prior to Snowball, used many small HDDs – took weeks to months to upload
• $4MM+ in infrastructure investment --Expensive and inefficient
• Customer Quote: “Snowballletsus migrate TBsof datain daysata
fraction ofthecost”
71. Where does Storage Gateway store data?
us-east-1
Storage Gateway Service
Data Center
iSCSI
HTTPS
72. FileGateway
On-premises filestorage maintainedas objectsinAmazonS3
CustomerPremises
Data stored and retrieved from your Amazon S3 buckets
One-to-one mapping from files-to-objects
File metadata stored in object metadata
Bucket access managed by IAM role you own and manage
Use S3 Lifecycle Policies, versioning, or CRR to manage data
GlacierS3Standard S3 Standard-
Infrequent
Access
HTTPS
NFS
v3 /v4.1
Application
Server
Storage
Gateway
Storage
GatewayVM
74. Application
Server
VolumeGateway
• Block storagein S3 accessedviathevolume gateway
• Compression of data in-transitand at-rest
• Backupon-premises volumes to EBS snapshots
• Create on-premises volumes from EBSsnapshots
• Up to 1PB of totalvolume storagepergateway
AmazonEBS
snapshots
Storage
Gateway
Service
On-premises volumestorage backedbyAmazonS3 withEBS snapshots
CustomerPremises
iSCSI HTTPS
Volume
GatewayVM
Volume Storedin
Amazon S3
75. TapeGateway
Virtualtapestorage inAmazonS3 andAmazonGlacierwithVTLmanagement
Virtual tapestorage in S3 and Glacier accessedvia tapegateway
Data compressed in-transitandat-rest
Up to 1 PB totaltapestorage per gateway,unlimited archivecapacity
Supports leading backupapplications
**3-5 hour taperetrievalfromAmazon Glacier
ArchivedTapes
stored in
AmazonGlacier
MEDIA
CHANGE
R
TAPE
DRIVE
CustomerPremises
VirtualTapes
stored in
AmazonS3
Backup
Server
HTTPSiSCSI
Tape
Gateway
Tape
GatewayVM
76. Backup,archive,and disasterrecovery
Cost-effectivestorage inAWS withlocalor cloud restore
“Tapesare a headache, prone with hardware
failures, offsite storage costs, and constant
maintenance needs. Storage Gateway provided the
most cost-effective and simple alternative. We
even got disaster recoveryby using a bi-coastaldata
center.”
78. Operate andOptimize
Now the funbegins
Ensure application performance
Look to proactively monitoryourapplication
end-to-end
Trackmetrics,collectand monitor logfiles
The goal is to resolve issues before they
impact yourcustomers
Fine tune your application –Always
evolve
It is an iterative process
Think about scalability
https://aws.amazon.com/migration/partner-solutions/#application-profiling
AWSConfig AWSCloudWatch
AWS
CloudTrail
79. Internal only – do not distribute
AWS CompetencyProgram
Migration PartnerSolutions
The AWS Competency Program is designed to highlight APN Partners
who have demonstrated technical proficiency and proven customer
success in specialized solution areas. Attaining an AWS Competency
allows partners to differentiatethemselves to customers by showcasing
expertise in a specificsolutionarea.
Enterprises migrating to AWS require expertise, tools, and
alignment of business and ITstrategy.Many organizationscan
acceleratetheir migration, and their time to results, through
partnership.
TheAWS Partner CompetencyProgram has validatedthat the
following partners have demonstrated that they can help
enterprise customers migrate applications and legacy
infrastructuretoAWS.
80. Migration DeliveryPartners
Migration Delivery Partners help customers through every stageof migration,accelerating
results by providing personnel, tools, and education in the form of professional services.
These partners either are,or have a relationship with anAWS audited Managed Service
Provider to help customers with ongoing support ofAWS workloads.
https://aws.amazon.com/migration/partner-solutions/#migration-delivery
81. Migration ConsultingPartners
Migration Consulting partners provide expertiseand training to help enterprises quickly
develop specific capabilities and achieve specific outcomes for the move toAWS. They
provide consulting services to enable adoption of DevOps practices, to modernize
applications,and implementsolutions.
https://aws.amazon.com/migration/partner-solutions/#migration-consulting
82. Migration Technologyfor Discovery &Planning
Discover IT assets across your application portfolio, identify dependencies and
requirements, and build your comprehensive migration plan with this technology suite.
https://aws.amazon.com/migration/partner-solutions/#discovery-planning
83. Migration Technologyfor WorkloadMobility
Execute migrations to AWS by capturing your host server, configuration,
storage, and network states,then provision and configure yourAWS target
resources.
https://aws.amazon.com/migration/partner-solutions/#workload-mobility
84. Migration Technologyfor ApplicationProfiling
Gain valuable insights into your applications by capturing and analyzing
performancedata,usage, and monitoring dependencies before and after
migration.
https://aws.amazon.com/migration/partner-solutions/#application-profiling