The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Day 4 - Big Data on AWS - RedShift, EMR & the Internet of ThingsAmazon Web Services
Big Data is everywhere these days. But what is it and how can you use it to fuel your business? Data is as important to organizations as labour and capital, and if organizations can effectively capture, analyze, visualize and apply big data insights to their business goals, they can differentiate themselves from their competitors and outperform them in terms of operational efficiency and the bottom line.
Join this session to understand the different AWS Big Data and Analytics services such as Amazon Elastic MapReduce (Hadoop), Amazon Redshift (Data Warehouse) and Amazon Kinesis (Streaming), when to use them and how they work together.
Reasons to attend:
- Learn how AWS can help you process and make better use of your data with meaningful insights.
- Learn about Amazon Elastic MapReduce and Amazon Redshift, fully managed petabyte-scale data warehouse solutions.
- Learn about real time data processing with Amazon Kinesis.
(BDT322) How Redfin & Twitter Leverage Amazon S3 For Big DataAmazon Web Services
Analyzing large data sets requires significant compute and storage capacity that can vary in size based on the amount of input data and the analysis required. This characteristic of big data workloads is ideally suited to the pay-as-you-go cloud model, where applications can easily scale up and down based on demand. Learn how Amazon S3 can help scale your big data platform. Hear from Redfin and Twitter about how they build their big data platforms on AWS and how they use S3 as an integral piece of their big data platforms.
(BDT310) Big Data Architectural Patterns and Best Practices on AWS | AWS re:I...Amazon Web Services
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
2016 Utah Cloud Summit: Big Data Architectural Patterns and Best Practices on...1Strategy
In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
February 2016 Webinar Series - Architectural Patterns for Big Data on AWSAmazon Web Services
With an ever-increasing set of technologies to process big data, organizations often struggle to understand how to build scalable and cost-effective big data applications.
In this webinar, we will simplify big data processing as a pipeline comprising various stages; and then show you how to choose the right technology for each stage based on criteria such as data structure, design patterns, and best practices.
Learning Objectives:
Understand key AWS Big Data services including S3, Amazon EMR, Kinesis, and Redshift
Learn architectural patterns for Big Data
Hear best practices for building Big Data applications on AWS
Who Should Attend:
Architects, developers and data scientists who are looking to start a Big Data initiative
Big Data and Architectural Patterns on AWS - Pop-up Loft Tel AvivAmazon Web Services
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Data processing and analysis is where big data is most often consumed - driving business intelligence (BI) use cases that discover and report on meaningful patterns in the data. In this session, we will discuss options for processing, analyzing and visualizing data. We will also look at partner solutions and BI-enabling services from AWS. Attendees will learn about optimal approaches for stream processing, batch processing and Interactive analytics. AWS services to be covered include: Amazon Machine Learning, Elastic MapReduce (EMR), and Redshift.
Day 4 - Big Data on AWS - RedShift, EMR & the Internet of ThingsAmazon Web Services
Big Data is everywhere these days. But what is it and how can you use it to fuel your business? Data is as important to organizations as labour and capital, and if organizations can effectively capture, analyze, visualize and apply big data insights to their business goals, they can differentiate themselves from their competitors and outperform them in terms of operational efficiency and the bottom line.
Join this session to understand the different AWS Big Data and Analytics services such as Amazon Elastic MapReduce (Hadoop), Amazon Redshift (Data Warehouse) and Amazon Kinesis (Streaming), when to use them and how they work together.
Reasons to attend:
- Learn how AWS can help you process and make better use of your data with meaningful insights.
- Learn about Amazon Elastic MapReduce and Amazon Redshift, fully managed petabyte-scale data warehouse solutions.
- Learn about real time data processing with Amazon Kinesis.
(BDT322) How Redfin & Twitter Leverage Amazon S3 For Big DataAmazon Web Services
Analyzing large data sets requires significant compute and storage capacity that can vary in size based on the amount of input data and the analysis required. This characteristic of big data workloads is ideally suited to the pay-as-you-go cloud model, where applications can easily scale up and down based on demand. Learn how Amazon S3 can help scale your big data platform. Hear from Redfin and Twitter about how they build their big data platforms on AWS and how they use S3 as an integral piece of their big data platforms.
(BDT310) Big Data Architectural Patterns and Best Practices on AWS | AWS re:I...Amazon Web Services
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
2016 Utah Cloud Summit: Big Data Architectural Patterns and Best Practices on...1Strategy
In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
February 2016 Webinar Series - Architectural Patterns for Big Data on AWSAmazon Web Services
With an ever-increasing set of technologies to process big data, organizations often struggle to understand how to build scalable and cost-effective big data applications.
In this webinar, we will simplify big data processing as a pipeline comprising various stages; and then show you how to choose the right technology for each stage based on criteria such as data structure, design patterns, and best practices.
Learning Objectives:
Understand key AWS Big Data services including S3, Amazon EMR, Kinesis, and Redshift
Learn architectural patterns for Big Data
Hear best practices for building Big Data applications on AWS
Who Should Attend:
Architects, developers and data scientists who are looking to start a Big Data initiative
Big Data and Architectural Patterns on AWS - Pop-up Loft Tel AvivAmazon Web Services
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Data processing and analysis is where big data is most often consumed - driving business intelligence (BI) use cases that discover and report on meaningful patterns in the data. In this session, we will discuss options for processing, analyzing and visualizing data. We will also look at partner solutions and BI-enabling services from AWS. Attendees will learn about optimal approaches for stream processing, batch processing and Interactive analytics. AWS services to be covered include: Amazon Machine Learning, Elastic MapReduce (EMR), and Redshift.
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Presented by: Arie Leeuwesteijn, Principal Solutions Architect, Amazon Web Services
Customer Guest: Sander Kieft, Sanoma
AWS Storage and Database Architecture Best Practices (DAT203) | AWS re:Invent...Amazon Web Services
Learn about architecture best practices for combining AWS storage and database technologies. We outline AWS storage options (Amazon EBS, Amazon EC2 Instance Storage, Amazon S3 and Amazon Glacier) along with AWS database options including Amazon ElastiCache (in-memory data store), Amazon RDS (SQL database), Amazon DynamoDB (NoSQL database), Amazon CloudSearch (search), Amazon EMR (hadoop) and Amazon Redshift (data warehouse). Then we discuss how to architect your database tier by using the right database and storage technologies to achieve the required functionality, performance, availability, and durability—at the right cost.
AWS re:Invent 2016: JustGiving: Serverless Data Pipelines, Event-Driven ETL, ...Amazon Web Services
Organizations need to gain insight and knowledge from a growing number of Internet of Things (IoT), application programming interfaces (API), clickstreams, unstructured and log data sources. However, organizations are also often limited by legacy data warehouses and ETL processes that were designed for transactional data. Building scalable big data pipelines with automated extract-transform-load (ETL) and machine learning processes can address these limitations. JustGiving is the world’s largest social platform for online giving. In this session, we describe how we created several scalable and loosely coupled event-driven ETL and ML pipelines as part of our in-house data science platform called RAVEN. You learn how to leverage AWS Lambda, Amazon S3, Amazon EMR, Amazon Kinesis, and other services to build serverless, event-driven, data and stream processing pipelines in your organization. We review common design patterns, lessons learned, and best practices, with a focus on serverless big data architectures with AWS Lambda.
In this session, storage experts will walk you through the object storage offering, Amazon S3, a bulk data repository that can deliver 99.999999999% durability and scale past trillions of objects worldwide. Learn about the different ways you can accelerate data transfer to S3 and get a close look at some of the new tools available for you to secure and manage your data more efficiently. Announced at re:Invent 2016, see how you can use Amazon Athena with S3 to run serverless analytics on your data and as a bonus, walk away with some code snippets to use with S3. Hear AWS customers talk about the solutions they have built with S3 to turn their data into a strategic asset, instead of just a cost center. And bring your toughest questions to our experts on hand and walk away that much smarter on how to use object storage from AWS.
"Amgen discovers, develops, manufactures, and delivers innovative human therapeutics, helping millions of people in the fight against serious illnesses. In 2014, Amgen implemented a solution to offload ETL data across a diverse data set (U.S. pharmaceutical prescriptions and claims) using Amazon EMR. The solution has transformed the way Amgen delivers insights and reports to its sales force. To support Amgen’s entry into a much larger market, the ETL process had to scale to eight times its existing data volume. We used Amazon EC2, Amazon S3, Amazon EMR, and Amazon Redshift to generate weekly sales reporting metrics.
This session discusses highlights in Amgen's journey to leverage big data technologies and lay the foundation for future growth: benefits of ETL offloading in Amazon EMR as an entry point for big data technologies; benefits and challenges of using Amazon EMR vs. expanding on-premises ETL and reporting technologies; and how to architect an ETL offload solution using Amazon S3, Amazon EMR, and Impala."
AWS re:Invent 2016: Streaming ETL for RDS and DynamoDB (DAT315)Amazon Web Services
During this session Greg Brandt and Liyin Tang, Data Infrastructure engineers from Airbnb, will discuss the design and architecture of Airbnb's streaming ETL infrastructure, which exports data from RDS for MySQL and DynamoDB into Airbnb's data warehouse, using a system called SpinalTap. We will also discuss how we leverage Spark Streaming to compute derived data from tracking topics and/or database tables, and HBase to provide immediate data access and generate cleanly time-partitioned Hive tables.
BDA305 NEW LAUNCH! Intro to Amazon Redshift Spectrum: Now query exabytes of d...Amazon Web Services
Amazon Redshift Spectrum is a new feature that extends Amazon Redshift’s analytics capabilities beyond the data stored in your data warehouse to also query your data in Amazon S3. You can use Amazon Redshift and your existing business intelligence tools to run SQL queries against exabytes of data, and Redshift Spectrum applies sophisticated query optimization, scaling processing across thousands of nodes so results are fast – even with large data sets and complex queries.
Building Big Data Applications with Serverless Architectures - June 2017 AWS...Amazon Web Services
Learning Objectives:
- Use cases and best practices for serverless big data applications
- Leverage AWS technologies such as AWS Lambda and Amazon Kinesis
- Learn to perform ETL, event processing, ad-hoc analysis, real-time processing, and MapReduce with serverless
Building data processing applications is challenging and time-consuming, and often requires specialized expertise to deploy and operate. With serverless computing, you can perform real-time stream processing of multiple data types without needing to spin up servers or install software, allowing you to deploy big data applications quickly and more easily. Come learn how you can use AWS Lambda with Amazon Kinesis to analyze streaming data in real-time and then store the results in a managed NoSQL database such as Amazon DynamoDB. You’ll learn tips and tricks for doing in-line processing, data manipulation, and even distributed MapReduce on large data sets.
AWS APAC Webinar Week - Big Data on AWS. RedShift, EMR, & IOTAmazon Web Services
The world is producing an ever-increasing volume, velocity, and variety of data including data from devices. As we step into the era of Internet of things (IOT), for many consumers, batch analytics is no longer enough; they need sub-second analysis on fast-moving data. AWS delivers many technologies for solving big data and IOT problems. But what services should you use, why, when, and how? In this webinar where we simplify big data processing as a pipeline comprising various stages: ingest, store, process, analyze & visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, and durability. Finally, we provide a reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems.
BDA302 Deep Dive on Migrating Big Data Workloads to Amazon EMRAmazon Web Services
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 Amazon EMR in order to save costs, increase availability, and improve performance. Amazon EMR is a managed service that lets you process and analyze extremely large data sets using the latest versions of over 15 open-source frameworks in the Apache Hadoop and Spark ecosystems. This session will focus on identifying the components and workflows in your current environment and providing the best practices to migrate these workloads to Amazon EMR. We will explain how to move from HDFS to Amazon S3 as a durable storage layer, and how to lower costs with Amazon EC2 Spot instances and Auto Scaling. Additionally, we will go over common security recommendations and tuning tips to accelerate the time to production.
NoSQL is an important part of many big data strategies. Attend this session to learn how Amazon DynamoDB helps you create fast ingest and response data sets. We demonstrate how to use DynamoDB for batch-based query processing and ETL operations (using a SQL-like language) through integration with Amazon EMR and Hive. Then, we show you how to reduce costs and achieve scalability by connecting data to Amazon ElasticCache for handling massive read volumes. We’ll also discuss how to add indexes on DynamoDB data for free-text searching by integrating with Elasticsearch using AWS Lambda and DynamoDB streams. Finally, you’ll find out how you can take your high-velocity, high-volume data (such as IoT data) in DynamoDB and connect it to a data warehouse (Amazon Redshift) to enable BI analysis.
Big Data Architectural Patterns and Best Practices on AWSAmazon Web Services
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
(ISM213) Building and Deploying a Modern Big Data Architecture on AWSAmazon Web Services
"The AWS platform enables large enterprises to use data to solve business problems and uncover opportunities more easily and affordably than ever before. However, to truly take advantage of AWS, enterprises need a way to collect, store, process, analyze, and continually execute on their data.
Datapipe has been an AWS partner for more than five years. In that time, it has developed a proprietary process for the deployment of AWS environments, as well as the processing and evaluation of big data analytics to optimize these environments over time. This flexible solution includes automation tools, continuous monitoring, and cloud analytics. It protects against architectural sprawl and continually redesigns for scalability. This kind of continuous build environment allows Datapipe to examine the AWS environment as a complete picture and ensure the cloud environment is running as efficiently and effectively as possible, ultimately reducing overhead costs for the enterprise.
In this session, Jason Woodlee, Senior Director of Cloud Products at Datapipe, will discuss the technical details of designing and deploying a modern big data architecture on AWS, including application purpose and design, development environment and language overview, DevOps automation best practices, and continuous build and test frameworks. Session sponsored by Datapipe."
AWS re:Invent 2016: How Amazon S3 Storage Management Helps Optimize Storage a...Amazon Web Services
Customers using Amazon S3 at large scale benefit greatly from storage management features. Storage lifecycle policies help them reduce storage costs. Cross-region replication makes it easier to copy data between AWS regions for compliance or disaster recovery. Event notifications allow automatic initiation of processes on objects as they arrive, or capture information about objects and log it for security purposes. In this session, you'll learn about these features, and also several new storage management features in Amazon S3 that give users unmatched visibility into what data they are storing and how that data is being used. These new features make it simpler to analyze usage by users, apps, or organizations, to highlight anomalies, and to optimize business process workflows. They also help identify opportunities to reduce costs, improve performance, and archive infrequently used data. In addition, they can provide insight into who is accessing data stored in S3. As part of this talk, AWS customer Pinterest shows how they have been able to leverage many of the new S3 storage management features to reduce their storage costs significantly by moving a large amount of their data from S3 Standard to S3 Standard – Infrequent Access storage.
With distributed frameworks like Hadoop and Kafka, it is essential to deploy the right environment to successfully support these workloads. Learn about the different block storage options from AWS and walk through with our experts on how to select the best option for your big data analytic workloads. We will demonstrate how to setup, select, and modify volume types to right size your environment needs.
Data migration at petabyte scale is now a simple service from AWS. You can easily migrate large volumes of data from on-premises environments to the cloud, quickly get started with the cloud as a backup target, or burst workloads between your on-premises environments and the AWS Cloud. Learn about AWS Snowball, AWS Snowball Edge, AWS Snowmobile and AWS Storage Gateway, and understand which one is the right fit for your requirements. We will go through customer use cases, review the different applications used, and help you cut IT spend and management time on hardware and backup solutions.
AWS re:Invent 2016: How Toyota Racing Development Makes Racing Decisions in R...Amazon Web Services
Toyota Racing Development (TRD) developed a robust and highly performant real-time data analysis tool for professional racing. In this talk, learn how we structured a reliable, maintainable, decoupled architecture built around Amazon DynamoDB as both a streaming mechanism and a long-term persistent data store. In racing, milliseconds matter and even moments of downtime can cost a race. You'll see how we used DynamoDB together with Amazon Kinesis and Kinesis Firehose to build a real-time streaming data analysis tool for competitive racing.
Introduction to key architectural concepts to build a data lake using Amazon S3 as the storage layer and making this data available for processing with a broad set of analytic options including Amazon EMR and open source frameworks such as Apache Hadoop, Spark, Presto, and more.
by Pubali Sen, Solutions Architect, AWS
Everything generates logs. Applications, infrastructure, security ... everything. Keeping track of the flood of log data is a big challenge, yet critical to your ability to understand your systems and troubleshoot (or prevent) issues. In this session, we will use both Amazon CloudWatch and application logs to show you how to build an end-to-end log analytics solution. First, we cover how to configure an Amazon Elaticsearch Service domain and ingest data into it using Amazon Kinesis Firehose, demonstrating how easy it is to transform data with Firehose. We look at best practices for choosing instance types, storage options, shard counts, and index rotations based on the throughput of incoming data and configure a secure analytics environment. We demonstrate how to set up a Kibana dashboard and build custom dashboard widgets. Finally, we dive deep into the Elasticsearch query DSL and review approaches for generating custom, ad-hoc reports.
AWS November Webinar Series - Architectural Patterns & Best Practices for Big...Amazon Web Services
The world is producing an ever-increasing volume, velocity, and variety of data. For many consumers, batch analytics is no longer enough; they need sub-second analysis on fast-moving data. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how?
If you missed this popular presentation at re:Invent, attend this webinar where we simplify big data processing as a pipeline comprising various stages: ingest, store, process, analyze & visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, and durability. Finally, we provide a reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems.
Learning Objectives:
Understand key AWS Big Data services including S3, Amazon EMR, Kinesis, and Redshift
Learn architectural patterns for Big Data
Hear best practices for building Big Data applications on AWS
Didn’t make it to re:Invent? Here’s another chance to attend this popular presentation
Who Should Attend:
Architects, developers and data scientists who are looking to start a Big Data initiative
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Presented by: Arie Leeuwesteijn, Principal Solutions Architect, Amazon Web Services
Customer Guest: Sander Kieft, Sanoma
AWS Storage and Database Architecture Best Practices (DAT203) | AWS re:Invent...Amazon Web Services
Learn about architecture best practices for combining AWS storage and database technologies. We outline AWS storage options (Amazon EBS, Amazon EC2 Instance Storage, Amazon S3 and Amazon Glacier) along with AWS database options including Amazon ElastiCache (in-memory data store), Amazon RDS (SQL database), Amazon DynamoDB (NoSQL database), Amazon CloudSearch (search), Amazon EMR (hadoop) and Amazon Redshift (data warehouse). Then we discuss how to architect your database tier by using the right database and storage technologies to achieve the required functionality, performance, availability, and durability—at the right cost.
AWS re:Invent 2016: JustGiving: Serverless Data Pipelines, Event-Driven ETL, ...Amazon Web Services
Organizations need to gain insight and knowledge from a growing number of Internet of Things (IoT), application programming interfaces (API), clickstreams, unstructured and log data sources. However, organizations are also often limited by legacy data warehouses and ETL processes that were designed for transactional data. Building scalable big data pipelines with automated extract-transform-load (ETL) and machine learning processes can address these limitations. JustGiving is the world’s largest social platform for online giving. In this session, we describe how we created several scalable and loosely coupled event-driven ETL and ML pipelines as part of our in-house data science platform called RAVEN. You learn how to leverage AWS Lambda, Amazon S3, Amazon EMR, Amazon Kinesis, and other services to build serverless, event-driven, data and stream processing pipelines in your organization. We review common design patterns, lessons learned, and best practices, with a focus on serverless big data architectures with AWS Lambda.
In this session, storage experts will walk you through the object storage offering, Amazon S3, a bulk data repository that can deliver 99.999999999% durability and scale past trillions of objects worldwide. Learn about the different ways you can accelerate data transfer to S3 and get a close look at some of the new tools available for you to secure and manage your data more efficiently. Announced at re:Invent 2016, see how you can use Amazon Athena with S3 to run serverless analytics on your data and as a bonus, walk away with some code snippets to use with S3. Hear AWS customers talk about the solutions they have built with S3 to turn their data into a strategic asset, instead of just a cost center. And bring your toughest questions to our experts on hand and walk away that much smarter on how to use object storage from AWS.
"Amgen discovers, develops, manufactures, and delivers innovative human therapeutics, helping millions of people in the fight against serious illnesses. In 2014, Amgen implemented a solution to offload ETL data across a diverse data set (U.S. pharmaceutical prescriptions and claims) using Amazon EMR. The solution has transformed the way Amgen delivers insights and reports to its sales force. To support Amgen’s entry into a much larger market, the ETL process had to scale to eight times its existing data volume. We used Amazon EC2, Amazon S3, Amazon EMR, and Amazon Redshift to generate weekly sales reporting metrics.
This session discusses highlights in Amgen's journey to leverage big data technologies and lay the foundation for future growth: benefits of ETL offloading in Amazon EMR as an entry point for big data technologies; benefits and challenges of using Amazon EMR vs. expanding on-premises ETL and reporting technologies; and how to architect an ETL offload solution using Amazon S3, Amazon EMR, and Impala."
AWS re:Invent 2016: Streaming ETL for RDS and DynamoDB (DAT315)Amazon Web Services
During this session Greg Brandt and Liyin Tang, Data Infrastructure engineers from Airbnb, will discuss the design and architecture of Airbnb's streaming ETL infrastructure, which exports data from RDS for MySQL and DynamoDB into Airbnb's data warehouse, using a system called SpinalTap. We will also discuss how we leverage Spark Streaming to compute derived data from tracking topics and/or database tables, and HBase to provide immediate data access and generate cleanly time-partitioned Hive tables.
BDA305 NEW LAUNCH! Intro to Amazon Redshift Spectrum: Now query exabytes of d...Amazon Web Services
Amazon Redshift Spectrum is a new feature that extends Amazon Redshift’s analytics capabilities beyond the data stored in your data warehouse to also query your data in Amazon S3. You can use Amazon Redshift and your existing business intelligence tools to run SQL queries against exabytes of data, and Redshift Spectrum applies sophisticated query optimization, scaling processing across thousands of nodes so results are fast – even with large data sets and complex queries.
Building Big Data Applications with Serverless Architectures - June 2017 AWS...Amazon Web Services
Learning Objectives:
- Use cases and best practices for serverless big data applications
- Leverage AWS technologies such as AWS Lambda and Amazon Kinesis
- Learn to perform ETL, event processing, ad-hoc analysis, real-time processing, and MapReduce with serverless
Building data processing applications is challenging and time-consuming, and often requires specialized expertise to deploy and operate. With serverless computing, you can perform real-time stream processing of multiple data types without needing to spin up servers or install software, allowing you to deploy big data applications quickly and more easily. Come learn how you can use AWS Lambda with Amazon Kinesis to analyze streaming data in real-time and then store the results in a managed NoSQL database such as Amazon DynamoDB. You’ll learn tips and tricks for doing in-line processing, data manipulation, and even distributed MapReduce on large data sets.
AWS APAC Webinar Week - Big Data on AWS. RedShift, EMR, & IOTAmazon Web Services
The world is producing an ever-increasing volume, velocity, and variety of data including data from devices. As we step into the era of Internet of things (IOT), for many consumers, batch analytics is no longer enough; they need sub-second analysis on fast-moving data. AWS delivers many technologies for solving big data and IOT problems. But what services should you use, why, when, and how? In this webinar where we simplify big data processing as a pipeline comprising various stages: ingest, store, process, analyze & visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, and durability. Finally, we provide a reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems.
BDA302 Deep Dive on Migrating Big Data Workloads to Amazon EMRAmazon Web Services
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 Amazon EMR in order to save costs, increase availability, and improve performance. Amazon EMR is a managed service that lets you process and analyze extremely large data sets using the latest versions of over 15 open-source frameworks in the Apache Hadoop and Spark ecosystems. This session will focus on identifying the components and workflows in your current environment and providing the best practices to migrate these workloads to Amazon EMR. We will explain how to move from HDFS to Amazon S3 as a durable storage layer, and how to lower costs with Amazon EC2 Spot instances and Auto Scaling. Additionally, we will go over common security recommendations and tuning tips to accelerate the time to production.
NoSQL is an important part of many big data strategies. Attend this session to learn how Amazon DynamoDB helps you create fast ingest and response data sets. We demonstrate how to use DynamoDB for batch-based query processing and ETL operations (using a SQL-like language) through integration with Amazon EMR and Hive. Then, we show you how to reduce costs and achieve scalability by connecting data to Amazon ElasticCache for handling massive read volumes. We’ll also discuss how to add indexes on DynamoDB data for free-text searching by integrating with Elasticsearch using AWS Lambda and DynamoDB streams. Finally, you’ll find out how you can take your high-velocity, high-volume data (such as IoT data) in DynamoDB and connect it to a data warehouse (Amazon Redshift) to enable BI analysis.
Big Data Architectural Patterns and Best Practices on AWSAmazon Web Services
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
(ISM213) Building and Deploying a Modern Big Data Architecture on AWSAmazon Web Services
"The AWS platform enables large enterprises to use data to solve business problems and uncover opportunities more easily and affordably than ever before. However, to truly take advantage of AWS, enterprises need a way to collect, store, process, analyze, and continually execute on their data.
Datapipe has been an AWS partner for more than five years. In that time, it has developed a proprietary process for the deployment of AWS environments, as well as the processing and evaluation of big data analytics to optimize these environments over time. This flexible solution includes automation tools, continuous monitoring, and cloud analytics. It protects against architectural sprawl and continually redesigns for scalability. This kind of continuous build environment allows Datapipe to examine the AWS environment as a complete picture and ensure the cloud environment is running as efficiently and effectively as possible, ultimately reducing overhead costs for the enterprise.
In this session, Jason Woodlee, Senior Director of Cloud Products at Datapipe, will discuss the technical details of designing and deploying a modern big data architecture on AWS, including application purpose and design, development environment and language overview, DevOps automation best practices, and continuous build and test frameworks. Session sponsored by Datapipe."
AWS re:Invent 2016: How Amazon S3 Storage Management Helps Optimize Storage a...Amazon Web Services
Customers using Amazon S3 at large scale benefit greatly from storage management features. Storage lifecycle policies help them reduce storage costs. Cross-region replication makes it easier to copy data between AWS regions for compliance or disaster recovery. Event notifications allow automatic initiation of processes on objects as they arrive, or capture information about objects and log it for security purposes. In this session, you'll learn about these features, and also several new storage management features in Amazon S3 that give users unmatched visibility into what data they are storing and how that data is being used. These new features make it simpler to analyze usage by users, apps, or organizations, to highlight anomalies, and to optimize business process workflows. They also help identify opportunities to reduce costs, improve performance, and archive infrequently used data. In addition, they can provide insight into who is accessing data stored in S3. As part of this talk, AWS customer Pinterest shows how they have been able to leverage many of the new S3 storage management features to reduce their storage costs significantly by moving a large amount of their data from S3 Standard to S3 Standard – Infrequent Access storage.
With distributed frameworks like Hadoop and Kafka, it is essential to deploy the right environment to successfully support these workloads. Learn about the different block storage options from AWS and walk through with our experts on how to select the best option for your big data analytic workloads. We will demonstrate how to setup, select, and modify volume types to right size your environment needs.
Data migration at petabyte scale is now a simple service from AWS. You can easily migrate large volumes of data from on-premises environments to the cloud, quickly get started with the cloud as a backup target, or burst workloads between your on-premises environments and the AWS Cloud. Learn about AWS Snowball, AWS Snowball Edge, AWS Snowmobile and AWS Storage Gateway, and understand which one is the right fit for your requirements. We will go through customer use cases, review the different applications used, and help you cut IT spend and management time on hardware and backup solutions.
AWS re:Invent 2016: How Toyota Racing Development Makes Racing Decisions in R...Amazon Web Services
Toyota Racing Development (TRD) developed a robust and highly performant real-time data analysis tool for professional racing. In this talk, learn how we structured a reliable, maintainable, decoupled architecture built around Amazon DynamoDB as both a streaming mechanism and a long-term persistent data store. In racing, milliseconds matter and even moments of downtime can cost a race. You'll see how we used DynamoDB together with Amazon Kinesis and Kinesis Firehose to build a real-time streaming data analysis tool for competitive racing.
Introduction to key architectural concepts to build a data lake using Amazon S3 as the storage layer and making this data available for processing with a broad set of analytic options including Amazon EMR and open source frameworks such as Apache Hadoop, Spark, Presto, and more.
by Pubali Sen, Solutions Architect, AWS
Everything generates logs. Applications, infrastructure, security ... everything. Keeping track of the flood of log data is a big challenge, yet critical to your ability to understand your systems and troubleshoot (or prevent) issues. In this session, we will use both Amazon CloudWatch and application logs to show you how to build an end-to-end log analytics solution. First, we cover how to configure an Amazon Elaticsearch Service domain and ingest data into it using Amazon Kinesis Firehose, demonstrating how easy it is to transform data with Firehose. We look at best practices for choosing instance types, storage options, shard counts, and index rotations based on the throughput of incoming data and configure a secure analytics environment. We demonstrate how to set up a Kibana dashboard and build custom dashboard widgets. Finally, we dive deep into the Elasticsearch query DSL and review approaches for generating custom, ad-hoc reports.
AWS November Webinar Series - Architectural Patterns & Best Practices for Big...Amazon Web Services
The world is producing an ever-increasing volume, velocity, and variety of data. For many consumers, batch analytics is no longer enough; they need sub-second analysis on fast-moving data. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how?
If you missed this popular presentation at re:Invent, attend this webinar where we simplify big data processing as a pipeline comprising various stages: ingest, store, process, analyze & visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, and durability. Finally, we provide a reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems.
Learning Objectives:
Understand key AWS Big Data services including S3, Amazon EMR, Kinesis, and Redshift
Learn architectural patterns for Big Data
Hear best practices for building Big Data applications on AWS
Didn’t make it to re:Invent? Here’s another chance to attend this popular presentation
Who Should Attend:
Architects, developers and data scientists who are looking to start a Big Data initiative
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 re:Invent 2016: Big Data Architectural Patterns and Best Practices on AWS...Amazon Web Services
The world is producing an ever increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Big Data adoption success using AWS Big Data Services - Pop-up Loft TLV 2017Amazon Web Services
In today’s session we will share with you an overview of what the typical challenges when adoption Big Data are, and how the AWS Big Data platform allows you to tackle this challenges and leverage the right Analytical/Big Data solutions in order to become successful with your strategy (Whiteboard presentation)
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.
AWS Webcast - Managing Big Data in the AWS Cloud_20140924Amazon Web Services
This presentation deck will cover specific services such as Amazon S3, Kinesis, Redshift, Elastic MapReduce, and DynamoDB, including their features and performance characteristics. It will also cover architectural designs for the optimal use of these services based on dimensions of your data source (structured or unstructured data, volume, item size and transfer rates) and application considerations - for latency, cost and durability. It will also share customer success stories and resources to help you get started.
Big Data Architectural Patterns and Best Practices on AWSAmazon Web Services
In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. John Pignata, AWS Startup Solutions Architect, will discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. He will provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Database and Analytics on the AWS Cloud - AWS Innovate TorontoAmazon Web Services
Antoine Genereux, AWS Solutions Architect, takes us on a tour of database solutions available for the AWS Cloud, and powerful analytics and business intelligence reporting tools.
by Ben Willett, Solutions Architect, AWS
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.
Big Data Architectural Patterns and Best Practices on AWSAmazon Web Services
by Dario Rivera, Solutions Architect, AWS
The world is producing an ever-increasing volume, velocity, and variety of big data. Consumers and businesses are demanding up-to-the-second (or even millisecond) analytics on their fast-moving data, in addition to classic batch processing. AWS delivers many technologies for solving big data problems. But what services should you use, why, when, and how? In this session, we simplify big data processing as a data bus comprising various stages: ingest, store, process, and visualize. Next, we discuss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on. Finally, we provide reference architecture, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
Big Data Analytics Architectural Patterns and Best Practices (ANT201-R1) - AW...Amazon Web Services
In this session, we discuss architectural principles that helps simplify big data analytics.
We'll apply principles to various stages of big data processing: collect, store, process, analyze, and visualize. We'll disucss how to choose the right technology in each stage based on criteria such as data structure, query latency, cost, request rate, item size, data volume, durability, and so on.
Finally, we provide reference architectures, design patterns, and best practices for assembling these technologies to solve your big data problems at the right cost.
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.
Similar to (BDT310) Big Data Architectural Patterns and Best Practices on AWS (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.
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.
JMeter webinar - integration with InfluxDB and GrafanaRTTS
Watch this recorded webinar about real-time monitoring of application performance. See how to integrate Apache JMeter, the open-source leader in performance testing, with InfluxDB, the open-source time-series database, and Grafana, the open-source analytics and visualization application.
In this webinar, we will review the benefits of leveraging InfluxDB and Grafana when executing load tests and demonstrate how these tools are used to visualize performance metrics.
Length: 30 minutes
Session Overview
-------------------------------------------
During this webinar, we will cover the following topics while demonstrating the integrations of JMeter, InfluxDB and Grafana:
- What out-of-the-box solutions are available for real-time monitoring JMeter tests?
- What are the benefits of integrating InfluxDB and Grafana into the load testing stack?
- Which features are provided by Grafana?
- Demonstration of InfluxDB and Grafana using a practice web application
To view the webinar recording, go to:
https://www.rttsweb.com/jmeter-integration-webinar
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Elevating Tactical DDD Patterns Through Object CalisthenicsDorra BARTAGUIZ
After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Generating a custom Ruby SDK for your web service or Rails API using Smithyg2nightmarescribd
Have you ever wanted a Ruby client API to communicate with your web service? Smithy is a protocol-agnostic language for defining services and SDKs. Smithy Ruby is an implementation of Smithy that generates a Ruby SDK using a Smithy model. In this talk, we will explore Smithy and Smithy Ruby to learn how to generate custom feature-rich SDKs that can communicate with any web service, such as a Rails JSON API.
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
UiPath Test Automation using UiPath Test Suite series, part 3DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 3. In this session, we will cover desktop automation along with UI automation.
Topics covered:
UI automation Introduction,
UI automation Sample
Desktop automation flow
Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
💥 Speed, accuracy, and scaling – discover the superpowers of GenAI in action with UiPath Document Understanding and Communications Mining™:
See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
This is a hands-on session specifically designed for automation developers and AI enthusiasts seeking to enhance their knowledge in leveraging the latest intelligent document processing capabilities offered by UiPath.
Speakers:
👨🏫 Andras Palfi, Senior Product Manager, UiPath
👩🏫 Lenka Dulovicova, Product Program Manager, UiPath
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
2. What to Expect from the Session
Big data challenges
How to simplify big data processing
What technologies should you use?
• Why?
• How?
Reference architecture
Design patterns
5. Plethora of Tools
Amazon
Glacier
S3 DynamoDB
RDS
EMR
Amazon
Redshift
Data PipelineAmazon Kinesis
Cassandra
CloudSearch
Kinesis-
enabled
app
Lambda ML
SQS
ElastiCache
DynamoDB
Streams
6. Is there a reference architecture ?
What tools should I use ?
How ?
Why ?
7. Architectural Principles
• Decoupled “data bus”
• Data → Store → Process → Answers
• Use the right tool for the job
• Data structure, latency, throughput, access patterns
• Use Lambda architecture ideas
• Immutable (append-only) log, batch/speed/serving layer
• Leverage AWS managed services
• No/low admin
• Big data ≠ big cost
8. Simplify Big Data Processing
ingest /
collect
store process /
analyze
consume /
visualize
Time to Answer (Latency)
Throughput
Cost
18. Why Is Amazon S3 Good for Big Data?
• Natively supported by big data frameworks (Spark, Hive, Presto, etc.)
• No need to run compute clusters for storage (unlike HDFS)
• Can run transient Hadoop clusters & Amazon EC2 Spot instances
• Multiple distinct (Spark, Hive, Presto) clusters can use the same data
• Unlimited number of objects
• Very high bandwidth – no aggregate throughput limit
• Highly available – can tolerate AZ failure
• Designed for 99.999999999% durability
• Tired-storage (Standard, IA, Amazon Glacier) via life-cycle policy
• Secure – SSL, client/server-side encryption at rest
• Low cost
19. What about HDFS & Amazon Glacier?
• Use HDFS for very frequently
accessed (hot) data
• Use Amazon S3 Standard for
frequently accessed data
• Use Amazon S3 Standard –
IA for infrequently accessed
data
• Use Amazon Glacier for
archiving cold data
20. Database +
Search
Tier
A
iOS Android
Web Apps
Logstash
Amazon
RDS
Amazon
DynamoDB
Amazon
ES
Amazon
S3
Apache
Kafka
Amazon
Glacier
Amazon
Kinesis
Amazon
DynamoDB
Amazon
ElastiCache
SearchSQLNoSQLCacheStreamStorageFileStorage
Transactional Data
File Data
Stream Data
Mobile
Apps
Search Data
Collect Store
22. Best Practice — Use the Right Tool for the Job
Data Tier
Search
Amazon
Elasticsearch
Service
Amazon
CloudSearch
Cache
Redis
Memcached
SQL
Amazon Aurora
MySQL
PostgreSQL
Oracle
SQL Server
NoSQL
Cassandra
Amazon
DynamoDB
HBase
MongoDB
Database + Search Tier
24. What Data Store Should I Use?
• Data structure → Fixed schema, JSON, key-value
• Access patterns → Store data in the format you will
access it
• Data / access characteristics → Hot, warm, cold
• Cost → Right cost
25. Data Structure and Access Patterns
Access Patterns What to use?
Put/Get (Key, Value) Cache, NoSQL
Simple relationships → 1:N, M:N NoSQL
Cross table joins, transaction, SQL SQL
Faceting, Search Search
Data Structure What to use?
Fixed schema SQL, NoSQL
Schema-free (JSON) NoSQL, Search
(Key, Value) Cache, NoSQL
26. What Is the Temperature of Your Data / Access ?
27. Data / Access Characteristics: Hot, Warm, Cold
Hot Warm Cold
Volume MB–GB GB–TB PB
Item size B–KB KB–MB KB–TB
Latency ms ms, sec min, hrs
Durability Low–High High Very High
Request rate Very High High Low
Cost/GB $$-$ $-¢¢ ¢
Hot Data Warm Data Cold Data
29. What Data Store Should I Use?
Amazon
ElastiCache
Amazon
DynamoDB
Amazon
Aurora
Amazon
Elasticsearch
Amazon
EMR (HDFS)
Amazon S3 Amazon Glacier
Average
latency
ms ms ms, sec ms,sec sec,min,hrs ms,sec,min
(~ size)
hrs
Data volume GB GB–TBs
(no limit)
GB–TB
(64 TB
Max)
GB–TB GB–PB
(~nodes)
MB–PB
(no limit)
GB–PB
(no limit)
Item size B-KB KB
(400 KB
max)
KB
(64 KB)
KB
(1 MB max)
MB-GB KB-GB
(5 TB max)
GB
(40 TB max)
Request rate High -
Very High
Very High
(no limit)
High High Low – Very
High
Low –
Very High
(no limit)
Very Low
Storage cost
GB/month
$$ ¢¢ ¢¢ ¢¢ ¢ ¢ ¢/10
Durability Low -
Moderate
Very High Very High High High Very High Very High
Hot Data Warm Data Cold Data
Hot Data Warm Data Cold Data
30. Cost Conscious Design
Example: Should I use Amazon S3 or Amazon DynamoDB?
“I’m currently scoping out a project that will greatly increase
my team’s use of Amazon S3. Hoping you could answer
some questions. The current iteration of the design calls for
many small files, perhaps up to a billion during peak. The
total size would be on the order of 1.5 TB per month…”
Request rate
(Writes/sec)
Object size
(Bytes)
Total size
(GB/month)
Objects per month
300 2048 1483 777,600,000
31. Cost Conscious Design
Example: Should I use Amazon S3 or Amazon DynamoDB?
https://calculator.s3.amazonaws.com/index.html
36. Process / Analyze
Analysis of data is a process of inspecting, cleaning,
transforming, and modeling data with the goal of discovering
useful information, suggesting conclusions, and supporting
decision-making.
Examples
• Interactive dashboards → Interactive analytics
• Daily/weekly/monthly reports → Batch analytics
• Billing/fraud alerts, 1 minute metrics → Real-time analytics
• Sentiment analysis, prediction models → Machine learning
38. Batch Analytics
Takes large amount of (warm/cold) data
Takes minutes or hours to get answers back
Example: Generating daily, weekly, or monthly reports
39. Real-Time Analytics
Take small amount of hot data and ask questions
Takes short amount of time (milliseconds or seconds) to
get your answer back
• Real-time (event)
• Real-time response to events in data streams
• Example: Billing/Fraud Alerts
• Near real-time (micro-batch)
• Near real-time operations on small batches of events in data
streams
• Example: 1 Minute Metrics
40. Predictions via Machine Learning
ML gives computers the ability to learn without being explicitly
programmed
Machine Learning Algorithms:
- Supervised Learning ← “teach” program
- Classification ← Is this transaction fraud? (Yes/No)
- Regression ← Customer Life-time value?
- Unsupervised Learning ← let it learn by itself
- Clustering ← Market Segmentation
42. What Stream Processing Technology Should I Use?
Spark Streaming Apache Storm Amazon Kinesis
Client Library
AWS Lambda Amazon EMR (Hive,
Pig)
Scale /
Throughput
~ Nodes ~ Nodes ~ Nodes Automatic ~ Nodes
Batch or Real-
time
Real-time Real-time Real-time Real-time Batch
Manageability Yes (Amazon EMR) Do it yourself Amazon EC2 +
Auto Scaling
AWS managed Yes (Amazon EMR)
Fault Tolerance Single AZ Configurable Multi-AZ Multi-AZ Single AZ
Programming
languages
Java, Python, Scala Any language
via Thrift
Java, via
MultiLangDaemon (
.Net, Python, Ruby,
Node.js)
Node.js, Java Hive, Pig, Streaming
languages
High
43. What Data Processing Technology Should I Use?
Amazon
Redshift
Impala Presto Spark Hive
Query
Latency
Low Low Low Low Medium (Tez) –
High (MapReduce)
Durability High High High High High
Data Volume 1.6 PB
Max
~Nodes ~Nodes ~Nodes ~Nodes
Managed Yes Yes (EMR) Yes (EMR) Yes (EMR) Yes (EMR)
Storage Native HDFS / S3A* HDFS / S3 HDFS / S3 HDFS / S3
SQL
Compatibility
High Medium High Low (SparkSQL) Medium (HQL)
HighMedium
44. What about ETL?
Store Analyze
https://aws.amazon.com/big-data/partner-solutions/
ETL
46. Collect Store Analyze Consume
A
iOS Android
Web Apps
Logstash
Amazon
RDS
Amazon
DynamoDB
Amazon
ES
Amazon
S3
Apache
Kafka
Amazon
Glacier
Amazon
Kinesis
Amazon
DynamoDB
Amazon
Redshift
Impala
Pig
Amazon ML
Streaming
Amazon
Kinesis
AWS
Lambda
AmazonElasticMapReduce
Amazon
ElastiCache
SearchSQLNoSQLCache
StreamProcessingBatchInteractive
Logging
StreamStorage
IoTApplications
FileStorage
Analysis&Visualization
Hot
Cold
Warm
Hot
Slow
Hot
ML
Fast
Fast
Transactional Data
File Data
Stream Data
Notebooks
Predictions
Apps & APIs
Mobile
Apps
IDE
Search Data
ETL
Amazon
QuickSight
47. Consume
• Predictions
• Analysis and Visualization
• Notebooks
• IDE
• Applications & API
Consume
Analysis&Visualization
Amazon
QuickSight
Notebooks
Predictions
Apps & APIs
IDE
Store Analyze ConsumeETL
Business
users
Data Scientist,
Developers
49. Collect Store Analyze Consume
A
iOS Android
Web Apps
Logstash
Amazon
RDS
Amazon
DynamoDB
Amazon
ES
Amazon
S3
Apache
Kafka
Amazon
Glacier
Amazon
Kinesis
Amazon
DynamoDB
Amazon
Redshift
Impala
Pig
Amazon ML
Streaming
Amazon
Kinesis
AWS
Lambda
AmazonElasticMapReduce
Amazon
ElastiCache
SearchSQLNoSQLCache
StreamProcessingBatchInteractive
Logging
StreamStorage
IoTApplications
FileStorage
Analysis&Visualization
Hot
Cold
Warm
Hot
Slow
Hot
ML
Fast
Fast
Amazon
QuickSight
Transactional Data
File Data
Stream Data
Notebooks
Predictions
Apps & APIs
Mobile
Apps
IDE
Search Data
ETL
Reference Architecture
51. Multi-Stage Decoupled “Data Bus”
• Multiple stages
• Storage decoupled from processing
Store Process Store Process
process
store
52. Multiple Processing Applications (or
Connectors) Can Read from or Write to Multiple
Data Stores
Amazon
Kinesis
AWS
Lambda
Amazon
DynamoDB
Amazon
Kinesis S3
Connector
Amazon S3
process
store
53. Processing Frameworks (KCL, Storm, Hive,
Spark, etc.) Could Read from Multiple Data
Stores
Amazon
Kinesis
AWS
Lambda
Amazon
S3
Amazon
DynamoDB
Hive SparkStorm
Amazon
Kinesis S3
Connector
process
store
54. Spark Streaming
Apache Storm
AWS Lambda
KCL
Amazon
Redshift Spark
Impala
Presto
Hive
Amazon
Redshift
Hive
Spark
Presto
Impala
Amazon Kinesis
Apache Kafka
Amazon
DynamoDB
Amazon S3data
Hot Cold
Data Temperature
ProcessingLatency
Low
High Answers
Amazon EMR
(HDFS)
Hive
Native
KCL
AWS Lambda
Data Temperature vs Processing Latency
Batch
57. Batch Layer
Amazon
Kinesis
data
process
store
Lambda Architecture
Amazon
Kinesis S3
Connector
Amazon S3
A
p
p
l
i
c
a
t
i
o
n
s
Amazon
Redshift
Amazon EMR
Presto
Hive
Pig
Spark
answer
Speed Layer
answer
Serving
Layer
Amazon
ElastiCache
Amazon
DynamoDB
Amazon
RDS
Amazon
ES
answer
Amazon
ML
KCL
AWS Lambda
Spark Streaming
Storm
58. Summary
• Build decoupled “data bus”
• Data → Store ↔ Process → Answers
• Use the right tool for the job
• Latency, throughput, access patterns
• Use Lambda architecture ideas
• Immutable (append-only) log, batch/speed/serving layer
• Leverage AWS managed services
• No/low admin
• Be cost conscious
• Big data ≠ big cost