As more customers adopt Amazon VPC architectures, the features and flexibility of the service are squaring off against evolving design requirements. This session follows this evolution of a single regional VPC into a multi-VPC, multi-region design with diverse connectivity into on-premises systems and infrastructure. Along the way, we investigate creative customer solutions for scaling and securing outbound VPC traffic, securing private access to Amazon S3, managing multi-tenant VPCs, integrating existing customer networks through AWS Direct Connect, and building a full VPC mesh network across global regions.
ENT212-An Overview of Best Practices for Large-Scale MigrationsAmazon Web Services
We've partnered with hundreds of customers on their large-scale migrations to AWS. This session outlines some of the common challenges that our customers face and how they've overcome these challenges. The session also describes the patterns we've observed that make legacy migrations successful, and the mechanisms we've created to help customers migrate faster.
Deep Dive: AWS Direct Connect and VPNs - NET403 - re:Invent 2017Amazon Web Services
As enterprises move to the cloud, robust connectivity is often an early consideration. AWS Direct Connect provides a more consistent network experience for accessing your AWS resources, typically with greater bandwidth and reduced network costs. This session dives deep into the features of AWS Direct Connect and VPNs. We discuss deployment architectures and the process from start to finish. We show you how to configure public and private virtual interfaces, configure routers, use VPN backup, and provide secure communication between sites by using the AWS VPN CloudHub.
GPSTEC322-GPS Creating Your Virtual Data Center VPC Fundamentals Connectivity...Amazon Web Services
In this session, we walk through the fundamentals of Amazon VPC. First, we cover build-out and design fundamentals for VPC, including picking your IP space, subnetting, routing, security, NAT, and much more. We then transition into different approaches and use cases for optionally connecting your VPC to your physical data center with VPN or AWS Direct Connect. This midlevel architecture discussion is aimed at architects, network administrators, and technology decision-makers interested in understanding the building blocks that AWS makes available with VPC. Learn how you can connect your VPC with your offices and current data center footprint. This session adds a focus on AWS Partners and where they are relevant in AWS networking.
NET203_Using Amazon VPC Flow Logs to Do Predictive Security AnalyticsAmazon Web Services
This session provides an overview of IPv6 and covers key aspects of AWS support for the protocol. We discuss Amazon S3 and S3 Transfer Acceleration, Amazon CloudFront and AWS WAF, Amazon Route 53, AWS IoT, Elastic Load Balancing, and the virtual private cloud (VPC) environment of Amazon EC2. The presentation assumes solid knowledge of IPv4 and these AWS services.
In this session, we seek to address the many real-life conditions that lead to different VPC design scenarios. We break down the reasons why customers choose to deploy a single VPC as opposed to a multi-VPC approach. We also explore the architectures that lead to customers deploying advanced VPC designs, such as shared services VPCs or multi-region transit VPCs. The session explores in detail the tools you need to support these architectures, such as AWS Direct Connect, VPC peering, VPN, AWS Identity and Access Management (IAM), and resource tagging.
NET309_Best Practices for Securing an Amazon Virtual Private CloudAmazon Web Services
This workshop will provide practical advice and guidance for designing and building secure Amazon Virtual Private Clouds (VPCs). Using a hands-on approach, we'll take you through Amazon VPC features such as subnets, security groups, network ACLs, routing, flow logs and service endpoints. The AWS team will also provide some guidance around best practices for VPC design and management, based on our experience of supporting customers running large-scale infrastructures.
This document discusses an AWS re:Invent session on best practices for configuring, securing, customizing, and monitoring Amazon CloudFront distributions. The session covers how CloudFront delivers content, cache configurations and examples, customizing delivery with Lambda@Edge, and using real-user monitoring (RUM) for performance metrics. Key topics include setting cache behaviors and headers, optimizing cache hit rates, customizing content with Lambda@Edge triggers, and using RUM to understand real user experiences versus synthetic monitoring.
In this session, we walk through the fundamentals of Amazon VPC. First, we cover build-out and design fundamentals for VPCs, including picking your IP space, subnetting, routing, security, NAT, and much more. We then transition into different approaches and use cases for optionally connecting your VPC to your physical data center with VPN or AWS Direct Connect. This mid-level architecture discussion is aimed at architects, network administrators, and technology decision-makers interested in understanding the building blocks that AWS makes available with Amazon VPC. Learn how you can connect VPCs with your offices and current data center footprint.
ENT212-An Overview of Best Practices for Large-Scale MigrationsAmazon Web Services
We've partnered with hundreds of customers on their large-scale migrations to AWS. This session outlines some of the common challenges that our customers face and how they've overcome these challenges. The session also describes the patterns we've observed that make legacy migrations successful, and the mechanisms we've created to help customers migrate faster.
Deep Dive: AWS Direct Connect and VPNs - NET403 - re:Invent 2017Amazon Web Services
As enterprises move to the cloud, robust connectivity is often an early consideration. AWS Direct Connect provides a more consistent network experience for accessing your AWS resources, typically with greater bandwidth and reduced network costs. This session dives deep into the features of AWS Direct Connect and VPNs. We discuss deployment architectures and the process from start to finish. We show you how to configure public and private virtual interfaces, configure routers, use VPN backup, and provide secure communication between sites by using the AWS VPN CloudHub.
GPSTEC322-GPS Creating Your Virtual Data Center VPC Fundamentals Connectivity...Amazon Web Services
In this session, we walk through the fundamentals of Amazon VPC. First, we cover build-out and design fundamentals for VPC, including picking your IP space, subnetting, routing, security, NAT, and much more. We then transition into different approaches and use cases for optionally connecting your VPC to your physical data center with VPN or AWS Direct Connect. This midlevel architecture discussion is aimed at architects, network administrators, and technology decision-makers interested in understanding the building blocks that AWS makes available with VPC. Learn how you can connect your VPC with your offices and current data center footprint. This session adds a focus on AWS Partners and where they are relevant in AWS networking.
NET203_Using Amazon VPC Flow Logs to Do Predictive Security AnalyticsAmazon Web Services
This session provides an overview of IPv6 and covers key aspects of AWS support for the protocol. We discuss Amazon S3 and S3 Transfer Acceleration, Amazon CloudFront and AWS WAF, Amazon Route 53, AWS IoT, Elastic Load Balancing, and the virtual private cloud (VPC) environment of Amazon EC2. The presentation assumes solid knowledge of IPv4 and these AWS services.
In this session, we seek to address the many real-life conditions that lead to different VPC design scenarios. We break down the reasons why customers choose to deploy a single VPC as opposed to a multi-VPC approach. We also explore the architectures that lead to customers deploying advanced VPC designs, such as shared services VPCs or multi-region transit VPCs. The session explores in detail the tools you need to support these architectures, such as AWS Direct Connect, VPC peering, VPN, AWS Identity and Access Management (IAM), and resource tagging.
NET309_Best Practices for Securing an Amazon Virtual Private CloudAmazon Web Services
This workshop will provide practical advice and guidance for designing and building secure Amazon Virtual Private Clouds (VPCs). Using a hands-on approach, we'll take you through Amazon VPC features such as subnets, security groups, network ACLs, routing, flow logs and service endpoints. The AWS team will also provide some guidance around best practices for VPC design and management, based on our experience of supporting customers running large-scale infrastructures.
This document discusses an AWS re:Invent session on best practices for configuring, securing, customizing, and monitoring Amazon CloudFront distributions. The session covers how CloudFront delivers content, cache configurations and examples, customizing delivery with Lambda@Edge, and using real-user monitoring (RUM) for performance metrics. Key topics include setting cache behaviors and headers, optimizing cache hit rates, customizing content with Lambda@Edge triggers, and using RUM to understand real user experiences versus synthetic monitoring.
In this session, we walk through the fundamentals of Amazon VPC. First, we cover build-out and design fundamentals for VPCs, including picking your IP space, subnetting, routing, security, NAT, and much more. We then transition into different approaches and use cases for optionally connecting your VPC to your physical data center with VPN or AWS Direct Connect. This mid-level architecture discussion is aimed at architects, network administrators, and technology decision-makers interested in understanding the building blocks that AWS makes available with Amazon VPC. Learn how you can connect VPCs with your offices and current data center footprint.
How Do I Build a Global Transit Network on AWS? - MSC302 - re:Invent 2017Amazon Web Services
As customers put more workloads into AWS, the number of VPCs a customer needs to manage also grows. VPCs can exist across geographically disparate AWS Regions, or run in separate AWS accounts connecting to a common VPC that serves as a global network transit center. This session shows you how to implement a networking construct that AWS calls a transit VPC using the Cisco Cloud Services Router. This network topology simplifies network management and minimizes the number of connections that you need to set up and manage. Even better, it is implemented virtually and doesn't require physical network gear or a physical presence in a colocation transit hub. Come hear why customers are procuring this service through AWS Marketplace and how customers are using the transit VPC for private networking, shared connectivity, and cross-account AWS usage.
MBL209_Learn How MicroStrategy on AWS is Helping Vivint Solar Deliver Clean E...Amazon Web Services
"Vivint Solar is a leading full-service residential solar provider in the United States with more than 100,000 solar systems to its credit. Vivint Solar uses MicroStrategy on AWS to keep track of internal processes, including operations, finance, customer support, and human resources. With MicroStrategy on AWS, Vivint Solar could deploy a fully configured MicroStrategy environment in just an hour, giving their IT team more time to focus on other high-value projects. Today, Vivint Solar uses over 25 different AWS tools and services including, AWS Lambda, AWS Step Functions, Amazon SQS, AWS CloudFormation, and AWS CodeDeploy to track and analyze their data. Join us in this session to learn how Vivint Solar is using analytics to transform the way they do business and revolutionize the way people think about renewable energy.
Session sponsored by MicroStrategy"
This document summarizes a presentation given at AWS re:Invent 2017 about Cisco's journey from monolithic architecture to microservices. The presentation discusses Cisco's migration of thousands of services to microservices running across over 100 instances. It describes the four pillars of Cisco's approach: automation, cloud services, microservices, and continuous delivery pipelines. Specific microservices patterns for data management are also summarized, including patterns for shared static data, shared mutable data, and distributed transactions.
If you want to deliver videos to all consumers on all devices, building such workloads is complex, time consuming, and expensive. Now, it is fast and easy to implement video-on-demand workflows on AWS and distribute video content to a global audience. Companies, small or large and in various industries, can deliver streaming video without complex professional video tools. In this session, learn how to build complex video workflows entirely in code using AWS services.
by Rich Cowper, Solutions Architect Manager & Itzik Paz, Solutions Architect, AWS
Calling all serverless developers! Wild Rydes (www.wildrydes.com), the world’s leading unicorn transportation startup, needs your help! The company's rydesharing network of unicorns has grown to thousands, fulfilling hundreds of thousands of passenger rydes each day. Your mission is to collect, store, process, and analyze data to track the real-time location and health of our unicorns. In this workshop, learn how to build infrastructure to process data streams in real time using Amazon Kinesis. Build serverless applications using Amazon Kinesis Analytics to aggregate and summarize data, and use AWS Lambda to store aggregated data in Amazon DynamoDB. Finally, use Amazon Kinesis Firehose to build a data lake in Amazon S3, and use Amazon Athena to run ad-hoc queries against it. Requirements: laptop, text editor, AWS account, and AWS Command Line Interface (CLI) installed and configured.
In this session, we explore the new Network Load Balancer that was launched as part of the Elastic Load Balancing service, which can load balance any kind of TCP traffic. This offers customers a high-performance, scalable, low-cost load balancer that can handle millions of requests per second with very low latencies, while maintaining high levels of performance. Come and learn more about this new Network Load Balancer.
Startups and enterprises are increasingly using open source projects for architectures. AWS customers and partners also run their own open source programs and contribute key technologies to the industry (see DCS201). At AWS, we engage with open source projects in several ways. Through bug fixes and enhancements to popular projects, including work with the Hadoop ecosystem (see BDM401), Chromium (see BAP305) and Boto, and standalone projects like the security library s2n (see NET405) and machine learning project MXNet (see MAC401). We have services like Amazon ECS for Docker (see CON316) and Amazon RDS for MySQL and PostgreSQL (see DAT305) that make open source easier to use. In this session, learn more about existing AWS open source work and our next steps.
CTD201_Introduction to Amazon CloudFront and AWS Lambda@EdgeAmazon Web Services
End users expect to be able to view static, dynamic, and streaming content anytime, anywhere, and on any device. Amazon CloudFront is a web service that accelerates delivery of your websites, APIs, video content, or other web assets to end users around the globe with low latency, high data transfer speeds, and no commitments. In this session, learn what a content delivery network (CDN) such as Amazon CloudFront is and how it works, the benefits it provides, common challenges and needs, performance, recently released features and examples of how customers are using CloudFront. You will also learn about recustomizing content delivery through AWS Lambda@Edge - a serverless compute service that lets you execute functions to customize the content delivered through CloudFront.
GPSWKS406-Migrating a Microsoft ASP.NET Application to AWSAmazon Web Services
In this workshop, we explore the AWS methodology for migrating Microsoft applications to AWS. We walk through the concerns and considerations to take into account while planning a migration. Learn how to develop and implement a migration plan to move applications from on-premises (or traditional hosting) to AWS. This session uses a case study format to dive deep into the details of how to successfully plan a Microsoft application migration.
ARC330_How the BBC Built a Massive Media Pipeline Using MicroservicesAmazon Web Services
The BBC iPlayer is the biggest audio and video-on-demand service in the UK. Over one-third of the country submits 10 million video playback requests every day, and the service publishes over 10,000 hours of media every week. Moving iPlayer to the cloud has enabled the BBC to shorten the time-to-market of content from 10 hours to 15 minutes. In this session, the BBC’s lead architect describes the approach behind creating iPlayer architecture, which uses Amazon SQS and Amazon SNS in several ways to improve elasticity, reliability, and maintainability. You see how BBC uses AWS messaging to choreograph the 200 microservices in the iPlayer pipeline, maintain data consistency as media traverses the pipeline, and refresh caches to ensure timely delivery of media to users. This is a rare opportunity to see the internal workings and best practices of one of the largest on-demand content delivery systems operating today.
I Want to Analyze and Visualize Website Access Logs, but Why Do I Need Server...Amazon Web Services
Nowadays, it’s common for a web server to be fronted by a global content delivery service, such as Amazon CloudFront, to accelerate delivery of websites, APIs, media content, and other web assets. Website administrators and developers want to generate insights in order to improve website availability through bot detection and mitigation, by optimizing web content based on the devices and browser used, by reducing perceived latency by caching a popular object closer to its viewer, and so on. In this session, we dive deep into building an end-to-end serverless analytics solution to analyze Amazon CloudFront access logs, both at rest and in transit, using Amazon Athena and Amazon Kinesis Analytics, respectively, and we generate visualization insights using Amazon QuickSight. Join a discussion with AWS solution architects to learn more about the various ways to generate insights to improve the overall perceived experience for your website users.
Increasingly, organizations are turning to microservices to help them empower autonomous teams, letting them innovate and ship software faster than ever before. But implementing a microservices architecture comes with a number of new challenges that need to be dealt with. Chief among these finding an appropriate platform to help manage a growing number of independently deployable services.
In this session, Sam Newman, author of Building Microservices and a renowned expert in microservices strategy, will discuss strategies for building scalable and robust microservices architectures, how to choose the right platform for building microservices, and common challenges and mistakes organizations make when they move to microservices architectures."
This document discusses best practices for migrating a large database from Apache Cassandra to Amazon DynamoDB based on Samsung's experience migrating their cloud services database. It covers the planning, data analysis, data modeling, testing and execution phases of the migration. Key lessons included evaluating the suitability of DynamoDB for the workload, testing with realistic workloads, designing tables to match access patterns, performing an online migration to minimize downtime, and addressing ongoing operational challenges like backup and diluted partitions.
This document summarizes a presentation given by Henry Hahn on launching applications using AWS services. It discusses how Amazon transformed its development practices to focus on DevOps principles like continuous integration and delivery. It also outlines the various AWS Code services like CodeCommit, CodeBuild, CodeDeploy and CodePipeline that help automate the software development lifecycle from source control to deployment. The presentation demonstrates using these services to deploy a sample application through CodeStar and monitoring the deployment pipeline.
DEV204_Debugging Modern Applications Introduction to AWS X-RayAmazon Web Services
Analyzing and debugging production distributed applications built using a service oriented, microservices, or serverless architectures is a challenging task. In this session, we introduce AWS X-Ray, an AWS service that makes it easier to identify performance bottlenecks and errors, pinpoint issues to specific services in your application, identify the impact of issues on application users, and visualize the service call graph and the request timelines for your applications. We will also showcase a customer, Chick-fil-A and how they have adopted AWS X-Ray to play a role throughout the microservice lifecycle in order to ensure quality, transparency, and operational visibility for their services on AWS
Taking DevOps Closer to the AWS Edge - CTD401 - re:Invent 2017Amazon Web Services
Since last year’s ‘Taking DevOps to the Edge’, and with the introduction of AWS Lambda@Edge, the tools available to apply DevOps practices to your application edge have broadened. In this updated session, we dive deep into how you can integrate Amazon CloudFront and related services into your application, be agile in developing and adapting the application, and follow best practices when configuring the services to improve security and performance, all while reducing costs. Attend this session and learn how to determine the best location (origin, edge, or client) to execute your code, avoid needless forwarding of headers and cookies, test your application when making changes, version your configuration changes, monitor usage and automate security, create templates for new distributions, configure SSL/TLS certificates, and more.
MBL204_Architecting Cost-Effective Mobile Backends for Scale, Security, and P...Amazon Web Services
Successful mobile applications rely on a broad spectrum of backend services that support the features and functionality of the front-end mobile application. The success of the mobile application depends on those backend services being built so that they can scale as the application’s audience grows, sometimes explosively when an app takes off. They must also protect the security and privacy of the data used in the application.
Motion detection triggers have reduced the amount of video recorded by modern devices. But maybe you want to reduce that further—maybe you only care if a car or a person is on-camera before recording or sending a notification. Security cameras and smart doorbells can use Amazon Rekognition to reduce the number of false alarms. Learn how device makers and home enthusiasts are building their own smart layers of person and car detection to reduce false alarms and limit video volume. Learn too how you can use face detection and recognition to notify you when a friend has arrived.
Unprecedented computational power for massively parallel applications creates unprecedented storage requirements. Learn about coherent storage clusters processing millions of IOPS at submillisecond latency, how to architect storage for HPC in the cloud, and how to do it all without breaking the bank. This session incorporates live demonstrations, including APN Competency Partner solutions.
STG330_Case Study How Experian Leverages Amazon EC2, EBS, and S3 with Clouder...Amazon Web Services
Experian gathers, analyzes, and processes credit data at massive scale to help businesses make smarter decisions, individuals gain access to financial services, and lenders to minimize risk. The company built its petabyte-scale data-ingestion and analytics solution using CDH (Cloudera Distribution Including Apache Hadoop) running on Amazon EC2, with data stored in Amazon EBS and Amazon S3. This next generation big data platform aims to improve the data accuracy by moving away from traditional batch uploads to a real-time API-based ingestion process. In this talk, you will learn how Experian has leveraged different AWS compute and storage services for agility and quicker time to market. We will discuss lessons learned and best practices for success throughout.
From One to Many: Evolving VPC Design (ARC309-R1) - AWS re:Invent 2018Amazon Web Services
As more customers adopt Amazon VPC architectures, the features and flexibility of the service are encountering the obstacles of evolving design requirements. In this session, we follow the evolution of a single regional VPC to a multi-VPC, multi-region design with diverse connectivity into on-premises systems and infrastructure. Along the way, we investigate creative customer solutions for scaling and securing outbound VPC traffic, securing private access to Amazon S3, managing multi-tenant VPCs, integrating existing customer networks through AWS Direct Connect, and building a full VPC mesh network across global regions. Please join us for a speaker meet-and-greet following this session at the Speaker Lounge (ARIA East, Level 1, Willow Lounge). The meet-and-greet starts 15 minutes after the session and runs for half an hour.
AWS networking fundamentals - SVC303 - Santa Clara AWS SummitAmazon Web Services
In this session, we first cover build-out and design fundamentals for VPCs, including selecting your IP space, subnetting, routing, security, and more. We then discuss different approaches and scenarios for connecting your VPC to your data center with AWS VPN or AWS Direct Connect. Throughout this presentation, we discuss our latest networking services and updates, including AWS Transit Gateway and AWS PrivateLink. This mid-level architecture discussion is for architects, network administrators, and technology decision makers interested in understanding the building blocks that AWS makes available with Amazon VPC. Learn how to connect VPCs with your offices and data center footprint.
How Do I Build a Global Transit Network on AWS? - MSC302 - re:Invent 2017Amazon Web Services
As customers put more workloads into AWS, the number of VPCs a customer needs to manage also grows. VPCs can exist across geographically disparate AWS Regions, or run in separate AWS accounts connecting to a common VPC that serves as a global network transit center. This session shows you how to implement a networking construct that AWS calls a transit VPC using the Cisco Cloud Services Router. This network topology simplifies network management and minimizes the number of connections that you need to set up and manage. Even better, it is implemented virtually and doesn't require physical network gear or a physical presence in a colocation transit hub. Come hear why customers are procuring this service through AWS Marketplace and how customers are using the transit VPC for private networking, shared connectivity, and cross-account AWS usage.
MBL209_Learn How MicroStrategy on AWS is Helping Vivint Solar Deliver Clean E...Amazon Web Services
"Vivint Solar is a leading full-service residential solar provider in the United States with more than 100,000 solar systems to its credit. Vivint Solar uses MicroStrategy on AWS to keep track of internal processes, including operations, finance, customer support, and human resources. With MicroStrategy on AWS, Vivint Solar could deploy a fully configured MicroStrategy environment in just an hour, giving their IT team more time to focus on other high-value projects. Today, Vivint Solar uses over 25 different AWS tools and services including, AWS Lambda, AWS Step Functions, Amazon SQS, AWS CloudFormation, and AWS CodeDeploy to track and analyze their data. Join us in this session to learn how Vivint Solar is using analytics to transform the way they do business and revolutionize the way people think about renewable energy.
Session sponsored by MicroStrategy"
This document summarizes a presentation given at AWS re:Invent 2017 about Cisco's journey from monolithic architecture to microservices. The presentation discusses Cisco's migration of thousands of services to microservices running across over 100 instances. It describes the four pillars of Cisco's approach: automation, cloud services, microservices, and continuous delivery pipelines. Specific microservices patterns for data management are also summarized, including patterns for shared static data, shared mutable data, and distributed transactions.
If you want to deliver videos to all consumers on all devices, building such workloads is complex, time consuming, and expensive. Now, it is fast and easy to implement video-on-demand workflows on AWS and distribute video content to a global audience. Companies, small or large and in various industries, can deliver streaming video without complex professional video tools. In this session, learn how to build complex video workflows entirely in code using AWS services.
by Rich Cowper, Solutions Architect Manager & Itzik Paz, Solutions Architect, AWS
Calling all serverless developers! Wild Rydes (www.wildrydes.com), the world’s leading unicorn transportation startup, needs your help! The company's rydesharing network of unicorns has grown to thousands, fulfilling hundreds of thousands of passenger rydes each day. Your mission is to collect, store, process, and analyze data to track the real-time location and health of our unicorns. In this workshop, learn how to build infrastructure to process data streams in real time using Amazon Kinesis. Build serverless applications using Amazon Kinesis Analytics to aggregate and summarize data, and use AWS Lambda to store aggregated data in Amazon DynamoDB. Finally, use Amazon Kinesis Firehose to build a data lake in Amazon S3, and use Amazon Athena to run ad-hoc queries against it. Requirements: laptop, text editor, AWS account, and AWS Command Line Interface (CLI) installed and configured.
In this session, we explore the new Network Load Balancer that was launched as part of the Elastic Load Balancing service, which can load balance any kind of TCP traffic. This offers customers a high-performance, scalable, low-cost load balancer that can handle millions of requests per second with very low latencies, while maintaining high levels of performance. Come and learn more about this new Network Load Balancer.
Startups and enterprises are increasingly using open source projects for architectures. AWS customers and partners also run their own open source programs and contribute key technologies to the industry (see DCS201). At AWS, we engage with open source projects in several ways. Through bug fixes and enhancements to popular projects, including work with the Hadoop ecosystem (see BDM401), Chromium (see BAP305) and Boto, and standalone projects like the security library s2n (see NET405) and machine learning project MXNet (see MAC401). We have services like Amazon ECS for Docker (see CON316) and Amazon RDS for MySQL and PostgreSQL (see DAT305) that make open source easier to use. In this session, learn more about existing AWS open source work and our next steps.
CTD201_Introduction to Amazon CloudFront and AWS Lambda@EdgeAmazon Web Services
End users expect to be able to view static, dynamic, and streaming content anytime, anywhere, and on any device. Amazon CloudFront is a web service that accelerates delivery of your websites, APIs, video content, or other web assets to end users around the globe with low latency, high data transfer speeds, and no commitments. In this session, learn what a content delivery network (CDN) such as Amazon CloudFront is and how it works, the benefits it provides, common challenges and needs, performance, recently released features and examples of how customers are using CloudFront. You will also learn about recustomizing content delivery through AWS Lambda@Edge - a serverless compute service that lets you execute functions to customize the content delivered through CloudFront.
GPSWKS406-Migrating a Microsoft ASP.NET Application to AWSAmazon Web Services
In this workshop, we explore the AWS methodology for migrating Microsoft applications to AWS. We walk through the concerns and considerations to take into account while planning a migration. Learn how to develop and implement a migration plan to move applications from on-premises (or traditional hosting) to AWS. This session uses a case study format to dive deep into the details of how to successfully plan a Microsoft application migration.
ARC330_How the BBC Built a Massive Media Pipeline Using MicroservicesAmazon Web Services
The BBC iPlayer is the biggest audio and video-on-demand service in the UK. Over one-third of the country submits 10 million video playback requests every day, and the service publishes over 10,000 hours of media every week. Moving iPlayer to the cloud has enabled the BBC to shorten the time-to-market of content from 10 hours to 15 minutes. In this session, the BBC’s lead architect describes the approach behind creating iPlayer architecture, which uses Amazon SQS and Amazon SNS in several ways to improve elasticity, reliability, and maintainability. You see how BBC uses AWS messaging to choreograph the 200 microservices in the iPlayer pipeline, maintain data consistency as media traverses the pipeline, and refresh caches to ensure timely delivery of media to users. This is a rare opportunity to see the internal workings and best practices of one of the largest on-demand content delivery systems operating today.
I Want to Analyze and Visualize Website Access Logs, but Why Do I Need Server...Amazon Web Services
Nowadays, it’s common for a web server to be fronted by a global content delivery service, such as Amazon CloudFront, to accelerate delivery of websites, APIs, media content, and other web assets. Website administrators and developers want to generate insights in order to improve website availability through bot detection and mitigation, by optimizing web content based on the devices and browser used, by reducing perceived latency by caching a popular object closer to its viewer, and so on. In this session, we dive deep into building an end-to-end serverless analytics solution to analyze Amazon CloudFront access logs, both at rest and in transit, using Amazon Athena and Amazon Kinesis Analytics, respectively, and we generate visualization insights using Amazon QuickSight. Join a discussion with AWS solution architects to learn more about the various ways to generate insights to improve the overall perceived experience for your website users.
Increasingly, organizations are turning to microservices to help them empower autonomous teams, letting them innovate and ship software faster than ever before. But implementing a microservices architecture comes with a number of new challenges that need to be dealt with. Chief among these finding an appropriate platform to help manage a growing number of independently deployable services.
In this session, Sam Newman, author of Building Microservices and a renowned expert in microservices strategy, will discuss strategies for building scalable and robust microservices architectures, how to choose the right platform for building microservices, and common challenges and mistakes organizations make when they move to microservices architectures."
This document discusses best practices for migrating a large database from Apache Cassandra to Amazon DynamoDB based on Samsung's experience migrating their cloud services database. It covers the planning, data analysis, data modeling, testing and execution phases of the migration. Key lessons included evaluating the suitability of DynamoDB for the workload, testing with realistic workloads, designing tables to match access patterns, performing an online migration to minimize downtime, and addressing ongoing operational challenges like backup and diluted partitions.
This document summarizes a presentation given by Henry Hahn on launching applications using AWS services. It discusses how Amazon transformed its development practices to focus on DevOps principles like continuous integration and delivery. It also outlines the various AWS Code services like CodeCommit, CodeBuild, CodeDeploy and CodePipeline that help automate the software development lifecycle from source control to deployment. The presentation demonstrates using these services to deploy a sample application through CodeStar and monitoring the deployment pipeline.
DEV204_Debugging Modern Applications Introduction to AWS X-RayAmazon Web Services
Analyzing and debugging production distributed applications built using a service oriented, microservices, or serverless architectures is a challenging task. In this session, we introduce AWS X-Ray, an AWS service that makes it easier to identify performance bottlenecks and errors, pinpoint issues to specific services in your application, identify the impact of issues on application users, and visualize the service call graph and the request timelines for your applications. We will also showcase a customer, Chick-fil-A and how they have adopted AWS X-Ray to play a role throughout the microservice lifecycle in order to ensure quality, transparency, and operational visibility for their services on AWS
Taking DevOps Closer to the AWS Edge - CTD401 - re:Invent 2017Amazon Web Services
Since last year’s ‘Taking DevOps to the Edge’, and with the introduction of AWS Lambda@Edge, the tools available to apply DevOps practices to your application edge have broadened. In this updated session, we dive deep into how you can integrate Amazon CloudFront and related services into your application, be agile in developing and adapting the application, and follow best practices when configuring the services to improve security and performance, all while reducing costs. Attend this session and learn how to determine the best location (origin, edge, or client) to execute your code, avoid needless forwarding of headers and cookies, test your application when making changes, version your configuration changes, monitor usage and automate security, create templates for new distributions, configure SSL/TLS certificates, and more.
MBL204_Architecting Cost-Effective Mobile Backends for Scale, Security, and P...Amazon Web Services
Successful mobile applications rely on a broad spectrum of backend services that support the features and functionality of the front-end mobile application. The success of the mobile application depends on those backend services being built so that they can scale as the application’s audience grows, sometimes explosively when an app takes off. They must also protect the security and privacy of the data used in the application.
Motion detection triggers have reduced the amount of video recorded by modern devices. But maybe you want to reduce that further—maybe you only care if a car or a person is on-camera before recording or sending a notification. Security cameras and smart doorbells can use Amazon Rekognition to reduce the number of false alarms. Learn how device makers and home enthusiasts are building their own smart layers of person and car detection to reduce false alarms and limit video volume. Learn too how you can use face detection and recognition to notify you when a friend has arrived.
Unprecedented computational power for massively parallel applications creates unprecedented storage requirements. Learn about coherent storage clusters processing millions of IOPS at submillisecond latency, how to architect storage for HPC in the cloud, and how to do it all without breaking the bank. This session incorporates live demonstrations, including APN Competency Partner solutions.
STG330_Case Study How Experian Leverages Amazon EC2, EBS, and S3 with Clouder...Amazon Web Services
Experian gathers, analyzes, and processes credit data at massive scale to help businesses make smarter decisions, individuals gain access to financial services, and lenders to minimize risk. The company built its petabyte-scale data-ingestion and analytics solution using CDH (Cloudera Distribution Including Apache Hadoop) running on Amazon EC2, with data stored in Amazon EBS and Amazon S3. This next generation big data platform aims to improve the data accuracy by moving away from traditional batch uploads to a real-time API-based ingestion process. In this talk, you will learn how Experian has leveraged different AWS compute and storage services for agility and quicker time to market. We will discuss lessons learned and best practices for success throughout.
From One to Many: Evolving VPC Design (ARC309-R1) - AWS re:Invent 2018Amazon Web Services
As more customers adopt Amazon VPC architectures, the features and flexibility of the service are encountering the obstacles of evolving design requirements. In this session, we follow the evolution of a single regional VPC to a multi-VPC, multi-region design with diverse connectivity into on-premises systems and infrastructure. Along the way, we investigate creative customer solutions for scaling and securing outbound VPC traffic, securing private access to Amazon S3, managing multi-tenant VPCs, integrating existing customer networks through AWS Direct Connect, and building a full VPC mesh network across global regions. Please join us for a speaker meet-and-greet following this session at the Speaker Lounge (ARIA East, Level 1, Willow Lounge). The meet-and-greet starts 15 minutes after the session and runs for half an hour.
AWS networking fundamentals - SVC303 - Santa Clara AWS SummitAmazon Web Services
In this session, we first cover build-out and design fundamentals for VPCs, including selecting your IP space, subnetting, routing, security, and more. We then discuss different approaches and scenarios for connecting your VPC to your data center with AWS VPN or AWS Direct Connect. Throughout this presentation, we discuss our latest networking services and updates, including AWS Transit Gateway and AWS PrivateLink. This mid-level architecture discussion is for architects, network administrators, and technology decision makers interested in understanding the building blocks that AWS makes available with Amazon VPC. Learn how to connect VPCs with your offices and data center footprint.
This document provides an overview of AWS networking fundamentals including VPC concepts such as IP addressing, subnets, routing, security groups, and connecting VPCs. It discusses choosing IP address ranges and creating subnets across availability zones. It also covers routing and traffic flow, DNS options, network security using security groups and network ACLs, and VPC flow logs. Methods for connecting VPCs like VPC peering, Transit Gateway, VPN connections, and Direct Connect are also summarized.
Fundamentals of AWS networking - SVC303 - Atlanta AWS SummitAmazon Web Services
The document discusses Amazon Virtual Private Cloud (VPC) networking concepts such as IP addressing, subnets, routing, security groups, network access control lists, DNS, internet connectivity, connecting VPCs, and connecting to on-premises networks. It provides examples and explanations of how to configure these VPC networking features on AWS.
From One to Many: Diving Deeper into Evolving VPC Design (ARC310-R2) - AWS re...Amazon Web Services
Most organizations today run their production workloads inside Amazon Virtual Private Cloud (Amazon VPC). This software-defined network structure provides the boundaries that are needed for the security that an organization and its customers require. For most organizations, the natural evolution in their architecture, security, and environment involves migrating from a single VPC to multiple VPCs in the same AWS Region and across many other AWS Regions. The question of how to enforce security policies while simplifying the flow of traffic between multiple VPCs, the data center, and remote offices while adhering to AWS best practices becomes an intricate one to answer. In this chalk talk, we provide solutions to scenarios like these and more. Topics include Amazon security groups, NACLs, static and dynamic VPNs, AWS Direct Connect, IPS and IDS, transit VPC architectures, designing for security, and more.
Plan Advanced AWS Networking Architectures - SRV323 - Chicago AWS SummitAmazon Web Services
Networking is the foundation supporting many applications and services on AWS. As such, it is one of the first and most important things to consider when architecting with AWS. In this session, we discuss planning for your advanced AWS networking architectures.
AWS networking fundamentals - SVC211 - São Paulo AWS SummitAmazon Web Services
In this session, we cover build-out and design fundamentals for virtual private clouds (VPCs), including selecting an IP space, subnetting, routing, and security. We discuss different approaches and scenarios for connecting a VPC to a datacenter with AWS VPN or AWS Direct Connect. We also introduce our latest networking services and updates, including AWS Transit Gateway and AWS PrivateLink. This mid-level architecture discussion is for software architects, network administrators, and technology decision makers interested in understanding the building blocks AWS makes available with Amazon Virtual Private Cloud (Amazon VPC) and learning how to connect VPCs with offices and datacenter footprints.
Networking Many VPCs: Transit and Shared Architectures - NET404 - re:Invent 2017Amazon Web Services
This session focuses on best practices for connectivity between many virtual private clouds (VPCs), including the Transit VPC. We review how the Transit VPC works and use cases for centralization, network security, and connectivity. We include best practices for multiple accounts, multiple regions, and designing for scale. In addition, we also review some of the variants and extensions to the Transit VPC, including how to customize your own.
Speaker: Bradley Acar, AWS
Level: 300
In the journey of cloud adoption, Hybrid architectures are commonplace and are often seen as a very important milestone in business enablement. AWS offers customers many options to facilitate connectivity of their Amazon Virtual Private Cloud environments back to their existing on-premises networks.In this session, we will show you how to choose the best option for your business and how each of these options scale. We’ll also show you how you can use a CI/CD pipeline to automate deployment of AWS Accounts and VPCs and connect them to your existing network, on-the-fly, with all your guard rails in-place.
Deep Dive on New AWS Networking Features - AWS Online Tech TalksAmazon Web Services
Learning Objectives:
- Introduction to new AWS networking features - PrivateLink, Direct Connect gateway, and more
- How the new features, PrivateLink and Direct Connect gateways, work together
- Best practices for deploying these new features
Your Virtual Data Center: VPC Fundamentals and Connectivity Options (NET201) ...Amazon Web Services
This document provides an overview of Amazon Virtual Private Clouds (VPCs). It discusses VPC fundamentals like choosing IP address ranges and creating subnets. It also covers connectivity options for VPCs like creating internet gateways, VPC peering, and connecting to on-premises networks. The document lists additional topics like using security groups, VPC endpoints, DNS, and VPC flow logs. Related training sessions are also referenced.
Expanding Your AWS and On-premise Footprint to AWS GovCloud (US)Amazon Web Services
As customers progress through their cloud journeys, sensitive and regulated IT workloads, and data migrations could necessitate the use of AWS GovCloud (US). But how do you get started? What do you need to know before expanding your footprint to the AWS GovCloud (US) region? Is extending the footprint from standard AWS regions different than extending from on-premise environments and datacenters? Join us to learn the technical and operational considerations, approaches, best practices and tools to successfully extend your IT environments and technology footprint and migrate assets to the AWS GovCloud (US) Region.
Exploring the fundamentals of AWS networking - SVC210 - Chicago AWS SummitAmazon Web Services
The document is a presentation on AWS networking fundamentals that covers topics like VPCs, subnets, routing, security, internet connectivity, connecting VPCs, and connecting to on-premises networks. It provides examples and explanations of how to configure networking components in AWS like NAT gateways, VPC peering, Transit Gateways, and more. The presentation aims to explain core AWS networking concepts and help attendees explore networking options in AWS.
Creating Your Virtual Data Center - VPC Fundamentals and Connectivity Options...Amazon Web Services
In this session, we'll walk through the fundamentals of Amazon VPC, including: build-out, design details, picking your IP space, subnetting, routing, security and NAT. Then, we'll look at different approaches and use cases for optionally connecting your VPC to your physical data center with VPN or AWS Direct Connect. This session is aimed at architects, network administrators, and technology decision-makers interested in understanding the building blocks that AWS makes available with Amazon VPC.
This document provides an overview of Amazon Virtual Private Clouds (VPC) and networking fundamentals on AWS. It discusses key VPC concepts like IP addressing, subnets, routing, security groups, network access control lists and internet connectivity. It also covers options for connecting VPCs like VPC peering and the AWS Transit Gateway which allows connections between multiple VPCs and on-premises networks.
(ARC403) From One to Many: Evolving VPC Design | AWS re:Invent 2014Amazon Web Services
As more customers adopt Amazon VPC architectures, the features and flexibility of the service are squaring off against increasingly complex design requirements. This session follows the evolution of a single regional VPC into a multi-VPC, multiregion design with diverse connectivity into on-premises systems and infrastructure. Along the way, we investigate creative customer solutions for scaling and securing outbound VPC traffic, managing multitenant VPCs, conducting VPC-to-VPC traffic, running multiple hybrid environments over AWS Direct Connect, and integrating corporate multiprotocol label switching (MPLS) clouds into multiregion VPCs.
Exploring the fundamentals of AWS networking - SVC211 - New York AWS SummitAmazon Web Services
Although the basic concepts underpinning traditional networks and networks for the cloud are similar, there are many issues that are specific to each. In this session, we explore the fundamentals of networking in AWS. First we look at the basics of designing and building VPCs, including selecting your IP space, subnetting, routing, security, and more. We then discuss different approaches and scenarios for connecting your VPC to your data center with AWS VPN or AWS Direct Connect. This mid-level architecture discussion is for architects, network administrators, and technology decision-makers interested in understanding the building blocks that are available with Amazon VPC.
Join us to learn about connectivity options to AWS and how they build the infrastructure foundation for hybrid, migration, and DR use cases. In this session, we will shed light on the recent changes with AWS Direct Connect to enable new GovCloud (US) and global regional access. We will also touch on networking integration options with AWS services and partners offering like VMware Cloud on AWS to enrich migration options to AWS cloud.
Planning advanced AWS networking architectures - SVC304 - Chicago AWS SummitAmazon Web Services
The document discusses advanced AWS networking architectures including AWS Transit Gateway, AWS PrivateLink, and AWS Global Accelerator. It provides an overview of each service and how they can help interconnect VPCs at scale, provide private connectivity to services, and route traffic across regions with low latency. Examples of use cases are also presented, such as using Transit Gateway to interconnect multiple VPCs and VPNs through a single connection point.
Similar to ARC304_From One to Many Evolving VPC Design (20)
Come costruire servizi di Forecasting sfruttando algoritmi di ML e deep learn...Amazon Web Services
Il Forecasting è un processo importante per tantissime aziende e viene utilizzato in vari ambiti per cercare di prevedere in modo accurato la crescita e distribuzione di un prodotto, l’utilizzo delle risorse necessarie nelle linee produttive, presentazioni finanziarie e tanto altro. Amazon utilizza delle tecniche avanzate di forecasting, in parte questi servizi sono stati messi a disposizione di tutti i clienti AWS.
In questa sessione illustreremo come pre-processare i dati che contengono una componente temporale e successivamente utilizzare un algoritmo che a partire dal tipo di dato analizzato produce un forecasting accurato.
Big Data per le Startup: come creare applicazioni Big Data in modalità Server...Amazon Web Services
La varietà e la quantità di dati che si crea ogni giorno accelera sempre più velocemente e rappresenta una opportunità irripetibile per innovare e creare nuove startup.
Tuttavia gestire grandi quantità di dati può apparire complesso: creare cluster Big Data su larga scala sembra essere un investimento accessibile solo ad aziende consolidate. Ma l’elasticità del Cloud e, in particolare, i servizi Serverless ci permettono di rompere questi limiti.
Vediamo quindi come è possibile sviluppare applicazioni Big Data rapidamente, senza preoccuparci dell’infrastruttura, ma dedicando tutte le risorse allo sviluppo delle nostre le nostre idee per creare prodotti innovativi.
Ora puoi utilizzare Amazon Elastic Kubernetes Service (EKS) per eseguire pod Kubernetes su AWS Fargate, il motore di elaborazione serverless creato per container su AWS. Questo rende più semplice che mai costruire ed eseguire le tue applicazioni Kubernetes nel cloud AWS.In questa sessione presenteremo le caratteristiche principali del servizio e come distribuire la tua applicazione in pochi passaggi
Vent'anni fa Amazon ha attraversato una trasformazione radicale con l'obiettivo di aumentare il ritmo dell'innovazione. In questo periodo abbiamo imparato come cambiare il nostro approccio allo sviluppo delle applicazioni ci ha permesso di aumentare notevolmente l'agilità, la velocità di rilascio e, in definitiva, ci ha consentito di creare applicazioni più affidabili e scalabili. In questa sessione illustreremo come definiamo le applicazioni moderne e come la creazione di app moderne influisce non solo sull'architettura dell'applicazione, ma sulla struttura organizzativa, sulle pipeline di rilascio dello sviluppo e persino sul modello operativo. Descriveremo anche approcci comuni alla modernizzazione, compreso l'approccio utilizzato dalla stessa Amazon.com.
Come spendere fino al 90% in meno con i container e le istanze spot Amazon Web Services
L’utilizzo dei container è in continua crescita.
Se correttamente disegnate, le applicazioni basate su Container sono molto spesso stateless e flessibili.
I servizi AWS ECS, EKS e Kubernetes su EC2 possono sfruttare le istanze Spot, portando ad un risparmio medio del 70% rispetto alle istanze On Demand. In questa sessione scopriremo insieme quali sono le caratteristiche delle istanze Spot e come possono essere utilizzate facilmente su AWS. Impareremo inoltre come Spreaker sfrutta le istanze spot per eseguire applicazioni di diverso tipo, in produzione, ad una frazione del costo on-demand!
In recent months, many customers have been asking us the question – how to monetise Open APIs, simplify Fintech integrations and accelerate adoption of various Open Banking business models. Therefore, AWS and FinConecta would like to invite you to Open Finance marketplace presentation on October 20th.
Event Agenda :
Open banking so far (short recap)
• PSD2, OB UK, OB Australia, OB LATAM, OB Israel
Intro to Open Finance marketplace
• Scope
• Features
• Tech overview and Demo
The role of the Cloud
The Future of APIs
• Complying with regulation
• Monetizing data / APIs
• Business models
• Time to market
One platform for all: a Strategic approach
Q&A
Rendi unica l’offerta della tua startup sul mercato con i servizi Machine Lea...Amazon Web Services
Per creare valore e costruire una propria offerta differenziante e riconoscibile, le startup di successo sanno come combinare tecnologie consolidate con componenti innovativi creati ad hoc.
AWS fornisce servizi pronti all'utilizzo e, allo stesso tempo, permette di personalizzare e creare gli elementi differenzianti della propria offerta.
Concentrandoci sulle tecnologie di Machine Learning, vedremo come selezionare i servizi di intelligenza artificiale offerti da AWS e, anche attraverso una demo, come costruire modelli di Machine Learning personalizzati utilizzando SageMaker Studio.
OpsWorks Configuration Management: automatizza la gestione e i deployment del...Amazon Web Services
Con l'approccio tradizionale al mondo IT per molti anni è stato difficile implementare tecniche di DevOps, che finora spesso hanno previsto attività manuali portando di tanto in tanto a dei downtime degli applicativi interrompendo l'operatività dell'utente. Con l'avvento del cloud, le tecniche di DevOps sono ormai a portata di tutti a basso costo per qualsiasi genere di workload, garantendo maggiore affidabilità del sistema e risultando in dei significativi miglioramenti della business continuity.
AWS mette a disposizione AWS OpsWork come strumento di Configuration Management che mira ad automatizzare e semplificare la gestione e i deployment delle istanze EC2 per mezzo di workload Chef e Puppet.
Scopri come sfruttare AWS OpsWork a garanzia e affidabilità del tuo applicativo installato su Instanze EC2.
Microsoft Active Directory su AWS per supportare i tuoi Windows WorkloadsAmazon Web Services
Vuoi conoscere le opzioni per eseguire Microsoft Active Directory su AWS? Quando si spostano carichi di lavoro Microsoft in AWS, è importante considerare come distribuire Microsoft Active Directory per supportare la gestione, l'autenticazione e l'autorizzazione dei criteri di gruppo. In questa sessione, discuteremo le opzioni per la distribuzione di Microsoft Active Directory su AWS, incluso AWS Directory Service per Microsoft Active Directory e la distribuzione di Active Directory su Windows su Amazon Elastic Compute Cloud (Amazon EC2). Trattiamo argomenti quali l'integrazione del tuo ambiente Microsoft Active Directory locale nel cloud e l'utilizzo di applicazioni SaaS, come Office 365, con AWS Single Sign-On.
Dal riconoscimento facciale al riconoscimento di frodi o difetti di fabbricazione, l'analisi di immagini e video che sfruttano tecniche di intelligenza artificiale, si stanno evolvendo e raffinando a ritmi elevati. In questo webinar esploreremo le possibilità messe a disposizione dai servizi AWS per applicare lo stato dell'arte delle tecniche di computer vision a scenari reali.
Amazon Web Services e VMware organizzano un evento virtuale gratuito il prossimo mercoledì 14 Ottobre dalle 12:00 alle 13:00 dedicato a VMware Cloud ™ on AWS, il servizio on demand che consente di eseguire applicazioni in ambienti cloud basati su VMware vSphere® e di accedere ad una vasta gamma di servizi AWS, sfruttando a pieno le potenzialità del cloud AWS e tutelando gli investimenti VMware esistenti.
Molte organizzazioni sfruttano i vantaggi del cloud migrando i propri carichi di lavoro Oracle e assicurandosi notevoli vantaggi in termini di agilità ed efficienza dei costi.
La migrazione di questi carichi di lavoro, può creare complessità durante la modernizzazione e il refactoring delle applicazioni e a questo si possono aggiungere rischi di prestazione che possono essere introdotti quando si spostano le applicazioni dai data center locali.
Crea la tua prima serverless ledger-based app con QLDB e NodeJSAmazon Web Services
Molte aziende oggi, costruiscono applicazioni con funzionalità di tipo ledger ad esempio per verificare lo storico di accrediti o addebiti nelle transazioni bancarie o ancora per tenere traccia del flusso supply chain dei propri prodotti.
Alla base di queste soluzioni ci sono i database ledger che permettono di avere un log delle transazioni trasparente, immutabile e crittograficamente verificabile, ma sono strumenti complessi e onerosi da gestire.
Amazon QLDB elimina la necessità di costruire sistemi personalizzati e complessi fornendo un database ledger serverless completamente gestito.
In questa sessione scopriremo come realizzare un'applicazione serverless completa che utilizzi le funzionalità di QLDB.
Con l’ascesa delle architetture di microservizi e delle ricche applicazioni mobili e Web, le API sono più importanti che mai per offrire agli utenti finali una user experience eccezionale. In questa sessione impareremo come affrontare le moderne sfide di progettazione delle API con GraphQL, un linguaggio di query API open source utilizzato da Facebook, Amazon e altro e come utilizzare AWS AppSync, un servizio GraphQL serverless gestito su AWS. Approfondiremo diversi scenari, comprendendo come AppSync può aiutare a risolvere questi casi d’uso creando API moderne con funzionalità di aggiornamento dati in tempo reale e offline.
Inoltre, impareremo come Sky Italia utilizza AWS AppSync per fornire aggiornamenti sportivi in tempo reale agli utenti del proprio portale web.
Database Oracle e VMware Cloud™ on AWS: i miti da sfatareAmazon Web Services
Molte organizzazioni sfruttano i vantaggi del cloud migrando i propri carichi di lavoro Oracle e assicurandosi notevoli vantaggi in termini di agilità ed efficienza dei costi.
La migrazione di questi carichi di lavoro, può creare complessità durante la modernizzazione e il refactoring delle applicazioni e a questo si possono aggiungere rischi di prestazione che possono essere introdotti quando si spostano le applicazioni dai data center locali.
In queste slide, gli esperti AWS e VMware presentano semplici e pratici accorgimenti per facilitare e semplificare la migrazione dei carichi di lavoro Oracle accelerando la trasformazione verso il cloud, approfondiranno l’architettura e dimostreranno come sfruttare a pieno le potenzialità di VMware Cloud ™ on AWS.
1) The document discusses building a minimum viable product (MVP) using Amazon Web Services (AWS).
2) It provides an example of an MVP for an omni-channel messenger platform that was built from 2017 to connect ecommerce stores to customers via web chat, Facebook Messenger, WhatsApp, and other channels.
3) The founder discusses how they started with an MVP in 2017 with 200 ecommerce stores in Hong Kong and Taiwan, and have since expanded to over 5000 clients across Southeast Asia using AWS for scaling.
This document discusses pitch decks and fundraising materials. It explains that venture capitalists will typically spend only 3 minutes and 44 seconds reviewing a pitch deck. Therefore, the deck needs to tell a compelling story to grab their attention. It also provides tips on tailoring different types of decks for different purposes, such as creating a concise 1-2 page teaser, a presentation deck for pitching in-person, and a more detailed read-only or fundraising deck. The document stresses the importance of including key information like the problem, solution, product, traction, market size, plans, team, and ask.
This document discusses building serverless web applications using AWS services like API Gateway, Lambda, DynamoDB, S3 and Amplify. It provides an overview of each service and how they can work together to create a scalable, secure and cost-effective serverless application stack without having to manage servers or infrastructure. Key services covered include API Gateway for hosting APIs, Lambda for backend logic, DynamoDB for database needs, S3 for static content, and Amplify for frontend hosting and continuous deployment.
This document provides tips for fundraising from startup founders Roland Yau and Sze Lok Chan. It discusses generating competition to create urgency for investors, fundraising in parallel rather than sequentially, having a clear fundraising narrative focused on what you do and why it's compelling, and prioritizing relationships with people over firms. It also notes how the pandemic has changed fundraising, with examples of deals done virtually during this time. The tips emphasize being fully prepared before fundraising and cultivating connections with investors in advance.
AWS_HK_StartupDay_Building Interactive websites while automating for efficien...Amazon Web Services
This document discusses Amazon's machine learning services for building conversational interfaces and extracting insights from unstructured text and audio. It describes Amazon Lex for creating chatbots, Amazon Comprehend for natural language processing tasks like entity extraction and sentiment analysis, and how they can be used together for applications like intelligent call centers and content analysis. Pre-trained APIs simplify adding machine learning to apps without requiring ML expertise.
Amazon Elastic Container Service (Amazon ECS) è un servizio di gestione dei container altamente scalabile, che semplifica la gestione dei contenitori Docker attraverso un layer di orchestrazione per il controllo del deployment e del relativo lifecycle. In questa sessione presenteremo le principali caratteristiche del servizio, le architetture di riferimento per i differenti carichi di lavoro e i semplici passi necessari per poter velocemente migrare uno o più dei tuo container.
88. EVOLVING DESIGN REQUIREMENTS
• Centralize network connectivity to and from cloud
• Centralize management, security, and common services
• Account owners in control of own VPC resources
• Many AWS accounts
• Many VPCs
• One region