Data Analytics Week at the San Francisco Loft
Using Data Lakes
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
Speakers:
John Mallory - Principal Business Development Manager Storage (Object), AWS
Hemant Borole - Sr. Big Data Consultant, AWS
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
Level: Intermediate
Speakers:
Tony Nguyen - Senior Consultant, ProServe, AWS
Hannah Marlowe - Consultant - Federal, AWS
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
Speakers:
Neel Mitra - Solutions Architect, AWS
Roger Dahlstrom - Solutions Architect, AWS
We will introduce key concepts for a data lake and present aspects related to its implementation. Also discussing critical success factors, pitfalls to avoid operational aspects, and insights on how AWS enables a server-less data lake architecture.
Speaker: Sebastien Menant, Solutions Architect, Amazon Web Services
(BDT308) Using Amazon Elastic MapReduce as Your Scalable Data Warehouse | AWS...Amazon Web Services
In this presentation, we will demonstrate how to use Amazon Elastic MapReduce as your scalable data warehouse. Amazon EMR supports clusters with thousands of nodes and is used to access petabyte scale data warehouses. Amazon EMR is not only fast, but it is also easy to use for rapid development and adhoc analysis. We will show you how access the large scale data warehouses with emerging tools such as Hue, Hive, low latency SQL applications like Presto, and alternative execution engines like Apache Spark. We will also show you how these tools integrate directly with other AWS big data services such as Amazon S3, Amazon DynamoDB, and Amazon Kinesis.
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
Level: Intermediate
Speakers:
Tony Nguyen - Senior Consultant, ProServe, AWS
Hannah Marlowe - Consultant - Federal, AWS
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
Speakers:
Neel Mitra - Solutions Architect, AWS
Roger Dahlstrom - Solutions Architect, AWS
We will introduce key concepts for a data lake and present aspects related to its implementation. Also discussing critical success factors, pitfalls to avoid operational aspects, and insights on how AWS enables a server-less data lake architecture.
Speaker: Sebastien Menant, Solutions Architect, Amazon Web Services
(BDT308) Using Amazon Elastic MapReduce as Your Scalable Data Warehouse | AWS...Amazon Web Services
In this presentation, we will demonstrate how to use Amazon Elastic MapReduce as your scalable data warehouse. Amazon EMR supports clusters with thousands of nodes and is used to access petabyte scale data warehouses. Amazon EMR is not only fast, but it is also easy to use for rapid development and adhoc analysis. We will show you how access the large scale data warehouses with emerging tools such as Hue, Hive, low latency SQL applications like Presto, and alternative execution engines like Apache Spark. We will also show you how these tools integrate directly with other AWS big data services such as Amazon S3, Amazon DynamoDB, and Amazon Kinesis.
Choosing the Right Database for the Job: Relational, Cache, or NoSQL?Amazon Web Services
Developers and DBAs from a traditional relational background are spoilt for choice when looking to integrate caching and NoSQL into an application architecture to solve scaling problems and reduce costs. Even when using relational databases there are 3 managed database services on AWS for the MySQL engine alone. Trying to evaluate all the options often creates analysis paralysis, resulting in a reluctance to try something new or different. This session will guide you through a series of use cases that use different databases to solve business problems that customers face today.
Data Con LA 2020
Description
In this session, I introduce the Amazon Redshift lake house architecture which enables you to query data across your data warehouse, data lake, and operational databases to gain faster and deeper insights. With a lake house architecture, you can store data in open file formats in your Amazon S3 data lake.
Speaker
Antje Barth, Amazon Web Services, Sr. Developer Advocate, AI and Machine Learning
Analyzing big data is a challenge, requiring lots of processing power and storage.
Cloud Computing is an ideal platform to tackle this problem. HD Insight on Microsoft Azure deploys Hadoop and other open source big data tools to the cloud, making it easier to take advantage of the high scalability of this platform.
In this session, you will learn what tools are available in HD Insight and how to use them to store, process, and analyze large amounts of data.
Customers are migrating their analytics, data processing (ETL), and data science workloads running on Apache Hadoop, Spark, and data warehouse appliances from on-premise deployments to AWS in order to save costs, increase availability, and improve performance. AWS offers a broad set of analytics services, including solutions for batch processing, stream processing, machine learning, data workflow orchestration, and data warehousing. This session will focus on identifying the components and workflows in your current environment; and providing the best practices to migrate these workloads to the right AWS data analytics product. We will cover services such as Amazon EMR, Amazon Athena, Amazon Redshift, Amazon Kinesis, and more. We will also feature Vanguard, an American investment management company based in Malvern, Pennsylvania with over $4.4 trillion in assets under management. Ritesh Shah, Sr. Program Manager for Cloud Analytics Program at Vanguard, will describe how they orchestrated their migration to AWS analytics services, including Hadoop and Spark workloads to Amazon EMR. Ritesh will highlight the technical challenges they faced and overcame along the way, as well as share common recommendations and tuning tips to accelerate the time to production.
Building data pipelines for modern data warehouse with Apache® Spark™ and .NE...Michael Rys
This presentation shows how you can build solutions that follow the modern data warehouse architecture and introduces the .NET for Apache Spark support (https://dot.net/spark, https://github.com/dotnet/spark)
by Brian Mitchell, Principal Data Architect, AWS
An inside look at how a global e-commerce firm uses AWS technologies to build a scalable environment for data and analytics. We'll look at how Amazon is evolving the world of data warehousing with a combination of a data lake and parallel scalable compute engines including Amazon EMR and Amazon Redshift.
Spark is fast becoming a critical part of Customer Solutions on Azure. Databricks on Microsoft Azure provides a first-class experience for building and running Spark applications. The Microsoft Azure CAT team engaged with many early adopter customers helping them build their solutions on Azure Databricks.
In this session, we begin by reviewing typical workload patterns, integration with other Azure services like Azure Storage, Azure Data Lake, IoT / Event Hubs, SQL DW, PowerBI etc. Most importantly, we will share real-world tips and learnings that you can take and apply in your Data Engineering / Data Science workloads
by Rajeev Srinivasan, Sr. Solutions Architect and Gautam Srinivasan, Solutions Architect, AWS
While a Data Lake can support completely unstructured data, getting performant analytics at scale requires some data preparation. We'll look at how to use Amazon Kinesis, AWS Glue, and Amazon EMR to make raw data ready to high-performance analytics.
Organizations use reports, dashboards, and analytics tools to extract insights from their data, monitor performance, and support decision making. To support these tools, data must be collected and prepared for use. We'll look at two approaches: a structured centralized data repository as a Data Warehouse the less-structured repository of a Data Lake. We'll compare these approaches, examine the services that support each, and explore how they work together.
Level: Intermediate
Speakers:
Jay Formosa - Solutions Architect, AWS
Aser Moustafa - Data Warehouse Specialist Solutions Architect, AWS
Saunak Chandra - Partner Solutions Architect, Redshift Specialist, AWS
Building an ETL pipeline for Elasticsearch using SparkItai Yaffe
How we, at eXelate, built an ETL pipeline for Elasticsearch using Spark, including :
* Processing the data using Spark.
* Indexing the processed data directly into Elasticsearch using elasticsearch-hadoop plugin-in for Spark.
* Managing the flow using some of the services provided by AWS (EMR, Data Pipeline, etc.).
The presentation includes some tips and discusses some of the pitfalls we encountered while setting-up this process.
This overview presentation discusses big data challenges and provides an overview of the AWS Big Data Platform by covering:
- How AWS customers leverage the platform to manage massive volumes of data from a variety of sources while containing costs.
- Reference architectures for popular use cases, including, connected devices (IoT), log streaming, real-time intelligence, and analytics.
- The AWS big data portfolio of services, including, Amazon S3, Kinesis, DynamoDB, Elastic MapReduce (EMR), and Redshift.
- The latest relational database engine, Amazon Aurora— a MySQL-compatible, highly-available relational database engine, which provides up to five times better performance than MySQL at one-tenth the cost of a commercial database.
Created by: Rahul Pathak,
Sr. Manager of Software Development
For all organizations looking to glean insights from their data, it is essential to deploy the right environment to successfully support analytics workloads. Learn about the different block storage options from AWS and discuss with our experts on how to select the best option for your big data analytics workloads. We will demonstrate how to setup, select, and modify volume types to right size your environment needs.
by Mamoon Chowdry, Solutions Architect
AWS Data & Analytics Week is an opportunity to learn about Amazon’s family of managed analytics services. These services provide easy, scalable, reliable, and cost-effective ways to manage your data in the cloud. We explain the fundamentals and take a technical deep dive into Amazon Redshift data warehouse; Data Lake services including Amazon EMR, Amazon Athena, & Amazon Redshift Spectrum; Log Analytics with Amazon Elasticsearch Service; and data preparation and placement services with AWS Glue and Amazon Kinesis. You'll will learn how to get started, how to support applications, and how to scale.
by Avijit Goswami, Sr. Solutions Architect, AWS
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
Choosing the Right Database for the Job: Relational, Cache, or NoSQL?Amazon Web Services
Developers and DBAs from a traditional relational background are spoilt for choice when looking to integrate caching and NoSQL into an application architecture to solve scaling problems and reduce costs. Even when using relational databases there are 3 managed database services on AWS for the MySQL engine alone. Trying to evaluate all the options often creates analysis paralysis, resulting in a reluctance to try something new or different. This session will guide you through a series of use cases that use different databases to solve business problems that customers face today.
Data Con LA 2020
Description
In this session, I introduce the Amazon Redshift lake house architecture which enables you to query data across your data warehouse, data lake, and operational databases to gain faster and deeper insights. With a lake house architecture, you can store data in open file formats in your Amazon S3 data lake.
Speaker
Antje Barth, Amazon Web Services, Sr. Developer Advocate, AI and Machine Learning
Analyzing big data is a challenge, requiring lots of processing power and storage.
Cloud Computing is an ideal platform to tackle this problem. HD Insight on Microsoft Azure deploys Hadoop and other open source big data tools to the cloud, making it easier to take advantage of the high scalability of this platform.
In this session, you will learn what tools are available in HD Insight and how to use them to store, process, and analyze large amounts of data.
Customers are migrating their analytics, data processing (ETL), and data science workloads running on Apache Hadoop, Spark, and data warehouse appliances from on-premise deployments to AWS in order to save costs, increase availability, and improve performance. AWS offers a broad set of analytics services, including solutions for batch processing, stream processing, machine learning, data workflow orchestration, and data warehousing. This session will focus on identifying the components and workflows in your current environment; and providing the best practices to migrate these workloads to the right AWS data analytics product. We will cover services such as Amazon EMR, Amazon Athena, Amazon Redshift, Amazon Kinesis, and more. We will also feature Vanguard, an American investment management company based in Malvern, Pennsylvania with over $4.4 trillion in assets under management. Ritesh Shah, Sr. Program Manager for Cloud Analytics Program at Vanguard, will describe how they orchestrated their migration to AWS analytics services, including Hadoop and Spark workloads to Amazon EMR. Ritesh will highlight the technical challenges they faced and overcame along the way, as well as share common recommendations and tuning tips to accelerate the time to production.
Building data pipelines for modern data warehouse with Apache® Spark™ and .NE...Michael Rys
This presentation shows how you can build solutions that follow the modern data warehouse architecture and introduces the .NET for Apache Spark support (https://dot.net/spark, https://github.com/dotnet/spark)
by Brian Mitchell, Principal Data Architect, AWS
An inside look at how a global e-commerce firm uses AWS technologies to build a scalable environment for data and analytics. We'll look at how Amazon is evolving the world of data warehousing with a combination of a data lake and parallel scalable compute engines including Amazon EMR and Amazon Redshift.
Spark is fast becoming a critical part of Customer Solutions on Azure. Databricks on Microsoft Azure provides a first-class experience for building and running Spark applications. The Microsoft Azure CAT team engaged with many early adopter customers helping them build their solutions on Azure Databricks.
In this session, we begin by reviewing typical workload patterns, integration with other Azure services like Azure Storage, Azure Data Lake, IoT / Event Hubs, SQL DW, PowerBI etc. Most importantly, we will share real-world tips and learnings that you can take and apply in your Data Engineering / Data Science workloads
by Rajeev Srinivasan, Sr. Solutions Architect and Gautam Srinivasan, Solutions Architect, AWS
While a Data Lake can support completely unstructured data, getting performant analytics at scale requires some data preparation. We'll look at how to use Amazon Kinesis, AWS Glue, and Amazon EMR to make raw data ready to high-performance analytics.
Organizations use reports, dashboards, and analytics tools to extract insights from their data, monitor performance, and support decision making. To support these tools, data must be collected and prepared for use. We'll look at two approaches: a structured centralized data repository as a Data Warehouse the less-structured repository of a Data Lake. We'll compare these approaches, examine the services that support each, and explore how they work together.
Level: Intermediate
Speakers:
Jay Formosa - Solutions Architect, AWS
Aser Moustafa - Data Warehouse Specialist Solutions Architect, AWS
Saunak Chandra - Partner Solutions Architect, Redshift Specialist, AWS
Building an ETL pipeline for Elasticsearch using SparkItai Yaffe
How we, at eXelate, built an ETL pipeline for Elasticsearch using Spark, including :
* Processing the data using Spark.
* Indexing the processed data directly into Elasticsearch using elasticsearch-hadoop plugin-in for Spark.
* Managing the flow using some of the services provided by AWS (EMR, Data Pipeline, etc.).
The presentation includes some tips and discusses some of the pitfalls we encountered while setting-up this process.
This overview presentation discusses big data challenges and provides an overview of the AWS Big Data Platform by covering:
- How AWS customers leverage the platform to manage massive volumes of data from a variety of sources while containing costs.
- Reference architectures for popular use cases, including, connected devices (IoT), log streaming, real-time intelligence, and analytics.
- The AWS big data portfolio of services, including, Amazon S3, Kinesis, DynamoDB, Elastic MapReduce (EMR), and Redshift.
- The latest relational database engine, Amazon Aurora— a MySQL-compatible, highly-available relational database engine, which provides up to five times better performance than MySQL at one-tenth the cost of a commercial database.
Created by: Rahul Pathak,
Sr. Manager of Software Development
For all organizations looking to glean insights from their data, it is essential to deploy the right environment to successfully support analytics workloads. Learn about the different block storage options from AWS and discuss with our experts on how to select the best option for your big data analytics workloads. We will demonstrate how to setup, select, and modify volume types to right size your environment needs.
by Mamoon Chowdry, Solutions Architect
AWS Data & Analytics Week is an opportunity to learn about Amazon’s family of managed analytics services. These services provide easy, scalable, reliable, and cost-effective ways to manage your data in the cloud. We explain the fundamentals and take a technical deep dive into Amazon Redshift data warehouse; Data Lake services including Amazon EMR, Amazon Athena, & Amazon Redshift Spectrum; Log Analytics with Amazon Elasticsearch Service; and data preparation and placement services with AWS Glue and Amazon Kinesis. You'll will learn how to get started, how to support applications, and how to scale.
by Avijit Goswami, Sr. Solutions Architect, AWS
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
by Sid Chauhan, Solutions architect, AWS
A data lake can be used as a source for both structured and unstructured data - but how? We'll look at using open standards including Spark and Presto with Amazon EMR, Amazon Redshift Spectrum and Amazon Athena to process and understand data.
"Conceptually, a data lake is a flat data store to collect data in its original form, without the need to enforce a predefined schema. Instead, new schemas or views are created “on demand”, providing a far more agile and flexible architecture while enabling new types of analytical insights. AWS provides many of the building blocks required to help organizations implement a data lake. In this session, we will introduce key concepts for a data lake and present aspects related to its implementation. We will discuss critical success factors, pitfalls to avoid as well as operational aspects such as security, governance, search, indexing and metadata management. We will also provide insight on how AWS enables a data lake architecture.
A data lake is a flat data store to collect data in its original form, without the need to enforce a predefined schema. Instead, new schemas or views are created ""on demand"", providing a far more agile and flexible architecture while enabling new types of analytical insights. AWS provides many of the building blocks required to help organizations implement a data lake. In this session, we introduce key concepts for a data lake and present aspects related to its implementation. We discuss critical success factors and pitfalls to avoid, as well as operational aspects such as security, governance, search, indexing, and metadata management. We also provide insight on how AWS enables a data lake architecture. Attendees get practical tips and recommendations to get started with their data lake implementations on AWS."
AWS March 2016 Webinar Series Building Your Data Lake on AWS Amazon Web Services
Uncovering new, valuable insights from big data requires organizations to collect, store, and analyze increasing volumes of data from multiple, often disparate sources at disparate points in time. This makes it difficult to handle big data with data warehouses or relational database management systems alone.
A Data Lake allows you to store massive amounts of data in its original form, without the need to enforce a predefined schema, enabling a far more agile and flexible architecture, which makes it easier to gain new types of analytical insights from your data
In this webinar, we will introduce key concepts of a Data Lake and present aspects related to its implementation. We will discuss critical success factors, pitfalls to avoid as well as operational aspects such as security, governance, search, indexing and metadata management.
Learning Objectives:
• Learn how AWS can help enable a Data Lake architecture
• Understand some of the key architectural considerations when building a Data Lake
• Hear some of the important Data Lake implementation considerations
Who Should Attend:
• Data architects, data scientists, advanced AWS developers
In this session, we show you how to understand what data you have, how to drive insights, and how to make predictions using purpose-built AWS services. Learn about the common pitfalls of building data lakes and discover how to successfully drive analytics and insights from your data. Also learn how services such as Amazon S3, AWS Glue, Amazon Redshift, Amazon Athena, Amazon EMR, Amazon Kinesis, and Amazon ML services work together to build a successful data lake for various roles, including data scientists and business users.
AWS re:Invent 2016: How to Build a Big Data Analytics Data Lake (LFS303)Amazon Web Services
For discovery-phase research, life sciences companies have to support infrastructure that processes millions to billions of transactions. The advent of a data lake to accomplish such a task is showing itself to be a stable and productive data platform pattern to meet the goal. We discuss how to build a data lake on AWS, using services and techniques such as AWS CloudFormation, Amazon EC2, Amazon S3, IAM, and AWS Lambda. We also review a reference architecture from Amgen that uses a data lake to aid in their Life Science Research.
Understanding AWS Managed Database and Analytics Services | AWS Public Sector...Amazon Web Services
The world is creating more data in more ways than ever before. The average internet user in 2017 generates 1.5GB of data per day, with the rate doubling every 18 months. A single autonomous vehicle can generate 4TB per day. Each smart manufacturing plant generates 1PB per day. Storing, managing, and analyzing this data requires integrated database and analytic services that provide reliability and security at scale. AWS offers a range of managed data services that let customers focus on making data useful, including Amazon Aurora, RDS, DynamoDB, Redshift, Spectrum, ElastiCache, Kinesis, EMR, Elasticsearch Service, and Glue. In this session, we discuss these services, share our vision for innovation, and show how our customers use these services today. Learn More: https://aws.amazon.com/government-education/
Understanding AWS Managed Database and Analytics Services | AWS Public Sector...Amazon Web Services
The world is creating more data in more ways than ever before. The average internet user in 2017 generates 1.5GB of data per day, with the rate doubling every 18 months. A single autonomous vehicle can generate 4TB per day. Each smart manufacturing plant generates 1PB per day. Storing, managing, and analyzing this data requires integrated database and analytic services that provide reliability and security at scale. AWS offers a range of managed data services that let customers focus on making data useful, including Amazon Aurora, RDS, DynamoDB, Redshift, Spectrum, ElastiCache, Kinesis, EMR, Elasticsearch Service, and Glue. In this session, we discuss these services, share our vision for innovation, and show how our customers use these services today. Learn More: https://aws.amazon.com/government-education/
Antoine Genereux takes us on a detailed overview of the Database solutions available on the AWS Cloud, addressing the needs and requirements of customers at all levels. He also discusses Business Intelligence and Analytics solutions.
Build Data Lakes and Analytics on AWS: Patterns & Best Practices - BDA305 - A...Amazon Web Services
In this session, we show you how to understand what data you have, how to drive insights, and how to make predictions using purpose-built AWS services. Learn about the common pitfalls of building data lakes and discover how to successfully drive analytics and insights from your data. Also learn how services such as Amazon S3, AWS Glue, Amazon Redshift, Amazon Athena, Amazon EMR, Amazon Kinesis, and Amazon ML services work together to build a successful data lake for various roles, including data scientists and business users.
Data warehousing is a critical component for analysing and extracting actionable insights from your data. Amazon Redshift allows you to deploy a scalable data warehouse in a matter minutes and start to analyse your data right away using your existing business intelligence tools. It’s a fast, fully-managed, and cost-effective data warehousing system. You can analyse all your data using standard SQL and your existing Business Intelligence (BI) tools. Amazon Redshift also includes Redshift Spectrum, allowing you to directly run SQL queries against exabytes of unstructured data in Amazon S3. In this, you will learn how to migrate from existing data warehouses, optimise schemas and load data efficiently. We will also cover analytics tools to help you build visualisations, perform ad-hoc analysis and quickly get business insights from your data.
Learning Objectives:
• Discover best practices for building a data warehouse using Amazon Redshift
• Learn to use Amazon QuickSight for Business Intelligence and AWS Glue for ETL.
講師: Xiaoyong Han, Solution Architect, AWS
Data collection and storage is a primary challenge for any big data architecture. In this webinar, gain a thorough understanding of AWS solutions for data collection and storage, and learn architectural best practices for applying those solutions to your projects. This session will also include a discussion of popular use cases and reference architectures. In this webinar, you will learn:
• Overview of the different types of data that customers are handling to drive high-scale workloads on AWS, and how to choose the best approach for your workload • Optimization techniques that improve performance and reduce the cost of data ingestion • Leveraging Amazon S3, Amazon DynamoDB, and Amazon Kinesis for storage and data collection
AWS Summit Singapore - Architecting a Serverless Data Lake on AWSAmazon Web Services
Unni Pillai, Specialist Solution Architect, ASEAN, AWS.
Daniel Muller, Head of Cloud Infrastructure, Spuul.
As the volume and types of data continues to grow, customers often have valuable data that is not easily discoverable and available for analytics. A common challenge for data engineering teams is architecting a data lake that can cater to the needs of diverse users - from developers to business analysts to data scientists.
In this session, we will dive deep into building a data lake using Amazon S3, Amazon Kinesis, Amazon Athena and AWS Glue. We will also see how AWS Glue crawlers can automatically discover your data, extracting and cataloguing relevant metadata to reduce operations in preparing your data for downstream consumers.
Furthermore, learn from our customer Spuul, on how they moved from a Data Warehouse based analytics to a serverless data lake. Why and how did Spuul undertake this journey? Hear about the benefits and challenges they encountered.
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.
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.
5. Characteristics of a data lake
Future
Proof
Flexible
Access
Dive in
Anywhere
Collect
Anything
6. Challenges with legacy data architectures
• Can’t move data across silos
• Can’t handle semi-structured or unstructured data
• Can’t deal with dynamic data and real-time processing
• Complex ETL processes
• Difficulty applying consistent data governance across all
data sets
7. Legacy data architectures exist as isolated data silos
Hadoop
cluster
SQL
database
Data
warehouse
appliance
8. Navigating the Data Lake…
Data Lake is a new and increasingly
popular architecture to store and analyze
massive volumes and heterogenous
types of data in a centralized repository
9. Data Lake – Centralized data, single source of truth
Store and analyze all of your data,
from all of your sources, in one
centralized location
“Why is the data distributed in
many locations? Where is the
single source of truth?”
10. Data Lake – Quick ingest
Quickly ingest data
without needing to force it into a
predefined schema
“How can I collect data quickly
from various sources and store
it efficiently?”
12. Why AWS?
Implementing a Data Lake architecture requires a broad
set of tools and technologies to serve an increasingly
diverse set of applications and use cases.
Boils down to:
Picking the right tool for the right job…on a consumption-
based model…
13. Central Storage
AWS Database
Migration Service
AWS Snowball*
AWS Direct
Connect
Amazon Kinesis Firehose
Data
Ingestion Catalog
Amazon
DynamoDB
Amazon
Elasticsearch Service
Amazon
Kinesis
Amazon
EMR
Amazon
RDS
Amazon
Athena
Amazon
QuickSight
Amazon
Redshift*
Processing
and Analytics
S3
Access and Secure
Example of AWS Services for Data Lake
Amazon
Elasticsearch Service
AWS Glue
16. Designed for 11 9s
of durability
Designed for
99.99% availability
Durable Available High performance
§ Multiple Upload
§ Range GET
§ Store as much as you need
§ Scale storage and compute
independently
§ No minimum usage commitments
Scalable
§ Amazon EMR
§ Amazon Redshift
§ Amazon DynamoDB
Integrated
§ Simple REST API
§ AWS SDKs
§ Read-after-create consistency
§ Event notification
§ Lifecycle policies
Easy to use
Why Amazon S3 for Data Lake?
17. Encryption ComplianceSecurity
§ AWS Identity and Access
Management (IAM) policies
§ Bucket policies
§ Access control lists (ACLs)
§ Private VPC endpoints to
Amazon S3
§ SSL endpoints
§ Server-Side Encryption
(SSE-S3)
§ Amazon S3 Server-
Side Encryption with
provided keys (SSE-C,
SSE-KMS)
§ Client-Side Encryption
§ Buckets access logs
§ Lifecycle management
policies
§ ACLs
§ Versioning & MFA
deletes
§ Certifications – HIPAA,
PCI, SOC 1/2/3, etc.
Implement the right cloud security controls
18. • Decouple storage and compute by making Amazon S3
object-based storage.
• Consolidate and centrally manage and govern your data.
• Flexibility to use any and all tools in the ecosystem. The right
tool for the job.
• Future proof your architecture. As new use cases and new
tools emerge, you can plug and play current best of breed.
Benefits of an AWS Data Lake
24. Workload types running on the same cluster
• Large Scale ETL: Apache Spark, Apache Hive with Apache Tez, or
Apache Hadoop MapReduce
• Interactive Queries: Apache Impala, Spark SQL, Presto, Apache
Phoenix
• Machine Learning and Data Science: Spark ML, Apache Mahout
• NoSQL: Apache HBase
• Stream Processing: Apache Kafka, Spark Streaming, Apache Flink,
Apache NiFi, Apache Storm
• Search: Elasticsearch, Apache Solr
• Job Submission: Client Edge Node, Apache Oozie
• Data warehouses like Pivotal Greenplum or Teradata
25. Why Amazon EMR?
Low Cost
Pay an hourly rate
Open-Source Variety
Latest versions of software
Managed
Spend less time monitoring
Secure
Easy-to-manage options
Flexible
Customize the cluster
Easy to Use
Launch a cluster in minutes
26. Many storage layers to choose from
Amazon DynamoDB
Amazon RDS
Amazon Kinesis
Amazon Redshift
Amazon S3
Amazon EMR
Amazon Elasticsearch
Service
27. Decouple compute and storage by using
Amazon S3 as your data layer
HDFS
S3 is designed for 11
9’s of durability and is
massively scalable
EC2 Instance
Memory
Amazon S3
Amazon EMR
Amazon EMR
Intermediates
stored on local
disk or HDFS
Local
30. Why use Athena?
• Decouple storage from compute
• Serverless – No infrastructure or resources to manage
• Pay only for data scanned
• Schema on read – Same data, many views
• Encrypted
• Standard compliant and open storage formats
• Built on powerful community supported OSS solutions
31. Simple Pricing
• DDL operations – FREE
• SQL operations – FREE
• Query concurrency – FREE
• Data scanned - $5 / TB
• Standard S3 rates for storage, requests, and data transfer apply
32. Familiar Technologies Under the Covers
Used for SQL Queries
In-memory distributed query engine
ANSI-SQL compatible with extensions
Used for DDL functionality
Complex data types
Multitude of formats
Supports data partitioning
33. Hive Metadata Definition
• Hive Data Definition Language
• Data Manipulation Language (INSERT, UPDATE)
• Create Table As
• User Defined Functions
• Hive compatible SerDe (serializer/deserializer)
• CSV, JSON, RegEx, Parquet, Avro, ORC, CloudTrail
34. Presto SQL
• ANSI SQL compliant
• Complex joins, nested queries &
window functions
• Complex data types (arrays,
structs, maps)
• Partitioning of data by any key
• date, time, custom keys
• Presto built-in functions
35. Relational data warehouse
Massively parallel; petabyte scale
Fully managed
HDD and SSD platforms
$1,000/TB/year; starts at $0.25/hour
Amazon
Redshift
a lot faster
a lot simpler
a lot cheaper
36. Amazon Redshift works with third-party analysis tools
JDBC/ODBC
Amazon Redshift
Amazon
QuickSight
New!
37. Amazon Redshift has security built in
SSL to secure data in transit
Encryption to secure data at rest
• AES-256; hardware accelerated
• All blocks on disks and in Amazon S3 encrypted
• HSM support
No direct access to compute nodes
Audit logging, AWS CloudTrail, AWS KMS integration
Amazon VPC support
SOC 1/2/3, PCI-DSS Level 1, FedRAMP, HIPAA
10 GigE
(HPC)
Ingestion
Backup
Restore
SQL Clients/BI Tools
128GB RAM
16TB disk
16 cores
128GB RAM
16TB disk
16 cores
128GB RAM
16TB disk
16 cores
128GB RAM
16TB disk
16 cores
Amazon S3/Amazon DynamoDB
Customer VPC
Internal
VPC
JDBC/ODBC
Leader
Node
Compute
Node
Compute
Node
Compute
Node
38. Redshift Spectrum
...
1 2 3 4 N
Amazon S3
Exabyte-scale object storage
Data Catalog
Apache Hive Metastore
10 GigE
(HPC)
Ingestion
Backup
Restore
Customer VPC
Internal
VPC
JDBC/ODBC
Leverages Amazon Redshift’s advanced cost-
based optimizer
Pushes down projections, filters, aggregations
and join reduction
Dynamic partition pruning to minimize data
processed
Automatic parallelization of query execution
against Amazon S3 data
Efficient join processing within the Amazon
Redshift cluster
Spectrum
Nodes
Redshift
Nodes
39. Translate use cases to the right tools
- Low-latency SQL -> Athena or Presto or Amazon Redshift
- Data warehouse/Reporting -> Spark or Hive or Glue or Amazon Redshift
- Management and monitoring -> EMR console or Ganglia metrics
- HDFS -> Amazon S3
- Notebooks -> Zeppelin Notebook or Jupyter (via bootstrap action)
- Query console -> Athena or Hue
- Security -> Ranger (CF template) or HiveServer2 or IAM roles
Storage
S3 (EMRFS), HDFS
YARN
Cluster Resource Management
Batch
MapReduce
Interactive
Tez
In Memory
Spark
Applications
Hive, Pig, Spark SQL/Streaming/ML, Flink, Mahout, Sqoop
HBase/Phoenix
Presto
Athena
Streaming
Flink
Glue
Amazon Redshift
40. Real-time distributed search and analytics engine
Managed service using Elasticsearch and Kibana
Fully managed - zero admin
Highly available and reliable
Tightly integrated with other AWS services
Amazon
Elasticsearch
Service
41. Amazon Elasticsearch Service leading use cases
Log Analytics &
Operational Monitoring
• Monitor the performance of
applications, web servers, and
hardware
• Easy to use, yet powerful data
visualization tools to detect
issues in near real-time
• Dig into logs in an intuitive,
fine-grained way
• Kibana provides fast, easy
visualization
Traditional Search
• Application or website provides
search capabilities over diverse
documents
• Tasked with making this knowledge
base searchable and accessible
• Key search features including text
matching, faceting, filtering, fuzzy
search, autocomplete, and
highlighting
• Query API to support application
search
43. Amazon Kinesis
Streams
• For technical developers
• Build your own custom
applications that process
or analyze streaming
data
Amazon Kinesis
Firehose
• For all developers, data
scientists
• Easily load massive
volumes of streaming data
into S3, Amazon Redshift,
and Amazon
Elasticsearch Service
Amazon Kinesis
Analytics
• For all developers, data
scientists
• Easily analyze data
streams using standard
SQL queries
Amazon Kinesis: Streaming data made easy
Services make it easy to capture, deliver, and process streams on AWS
46. “For our market
surveillance systems, we
are looking at about 40%
[savings with AWS], but
the real benefits are the
business benefits: We
can do things that we
physically weren’t able to
do before, and that is
priceless.”
- Steve Randich, CIO
Case study: Re-architecting compliance
What FINRA needed
• Infrastructure for its market surveillance platform
• Support of analysis and storage of approximately 75
billion market events every day
Why they chose AWS
• Fulfillment of FINRA’s security requirements
• Ability to create a flexible platform using dynamic
clusters (Hadoop, Hive, and HBase), Amazon EMR,
and Amazon S3
Benefits realized
• Increased agility, speed, and cost savings
• Estimated savings of $10-20M annually by using AWS
47. Fraud detection
FINRA uses Amazon EMR and Amazon S3 to process up to 75 billion
trading events per day and securely store over 5 petabytes of data,
attaining savings of $10-20M per year.
48. Building a Data Lake
An architectural
approach that allows you
to store massive amounts
of “raw” data into a
central location
It’s readily available to be
categorized,
processed,
analyzed,
and consumed
by diverse groups
Catalog' &'Search
Access%and%search%metadata
Access'&'User'Interface
Give%your%users%easy%and%secure%access
DynamoDB Elasticsearch API'Gateway Identity'&'Access'
Management
Cognito
QuickSight Amazon' AI EMR Redshift
Athena Kinesis RDS
Central'Storage
Secure,%cost5effective
Storage%in%Amazon%S3
S3
Snowball Database' Migration'
Service
Kinesis' Firehose Direct'Connect
Data'Ingestion
Get%your%data%into%S3
Quickly%and%securely
Protect'and'Secure
Use%entitlements% to%ensure%data% is%secure%and% users’% identities% are% verified
Processing' &'Analytics
Use%of%predictive%and%prescriptive%
analytics%to%gain%better%understanding
Security'Token'
Service
CloudWatch CloudTrail Key'Management'
Service