Enterprise All-In 사례 - 대한항공 사례를 중심으로
방희란 매니저, AWS
김탁용 차장, 대한항공
점점 더 많은 엔터프라이즈 기업들이 엄선된 클라우드 프로바이더에 자신들의 IT 인프라를 전사적으로 올인(All-in)하고 있습니다.본 세션에서는 최근 글로벌 엔터프라이즈 기업들의 혁신 과제인 클라우드 전사 올인에 대한 전반적인 소개를 다루면서, 대한항공의 AWS의 올인 사례를 통해 시사점을 알아보고, 다른 엔터프라이즈 기업에서 클라우드에 대한 올인전략을 수립할때 무엇을 준비하고 개선해야 하는지 조명해봅니다. 이에 맞춰 엔터프라이즈 IT의 역할 변화와 각 트렌드별 과제에 대한 추진 방안 및 전략을 공유합니다.
1. The document discusses microservices architecture and how Netflix transitioned from a monolithic architecture to microservices. Key aspects discussed include breaking the monolith into many small, independent services that are loosely coupled.
2. Netflix's microservices architecture is composed of hundreds of microservices running on thousands of servers. Each service focuses on doing a small, well-defined piece of work. Services communicate through well-defined APIs and share no code or databases.
3. The document provides examples of how other companies like Samsung and Vingle have also adopted microservices architectures on AWS, breaking monolithic applications into independent, scalable services. This allows for independent deployments, rapid innovation, and improved resilience.
Enterprise All-In 사례 - 대한항공 사례를 중심으로
방희란 매니저, AWS
김탁용 차장, 대한항공
점점 더 많은 엔터프라이즈 기업들이 엄선된 클라우드 프로바이더에 자신들의 IT 인프라를 전사적으로 올인(All-in)하고 있습니다.본 세션에서는 최근 글로벌 엔터프라이즈 기업들의 혁신 과제인 클라우드 전사 올인에 대한 전반적인 소개를 다루면서, 대한항공의 AWS의 올인 사례를 통해 시사점을 알아보고, 다른 엔터프라이즈 기업에서 클라우드에 대한 올인전략을 수립할때 무엇을 준비하고 개선해야 하는지 조명해봅니다. 이에 맞춰 엔터프라이즈 IT의 역할 변화와 각 트렌드별 과제에 대한 추진 방안 및 전략을 공유합니다.
1. The document discusses microservices architecture and how Netflix transitioned from a monolithic architecture to microservices. Key aspects discussed include breaking the monolith into many small, independent services that are loosely coupled.
2. Netflix's microservices architecture is composed of hundreds of microservices running on thousands of servers. Each service focuses on doing a small, well-defined piece of work. Services communicate through well-defined APIs and share no code or databases.
3. The document provides examples of how other companies like Samsung and Vingle have also adopted microservices architectures on AWS, breaking monolithic applications into independent, scalable services. This allows for independent deployments, rapid innovation, and improved resilience.
On Sept. 4, 2010 at XP Matsuri, Kenji Hiranabe talked about the current situation of Agile and XP. Covers history of Patterns and Agile, Lean and recent Kanban movements, and goes back to XP. Explores what was the thing called "XP" with love.
사내 발표자료 겸 만들었는데, ECS Fargate를 이용하실 분들이라면, 편리하게 쓰실 수 있도록 최대한 상세하게 만들어 보았습니다.
사실 CloudFormation 등 배포는 좀 더 편리하게 할 수 있지만, 회사 사정도 있고, 제가 일단 그런 기술을 너무 늦게 알았기 때문에 다루지는 않았습니다.
On Sept. 4, 2010 at XP Matsuri, Kenji Hiranabe talked about the current situation of Agile and XP. Covers history of Patterns and Agile, Lean and recent Kanban movements, and goes back to XP. Explores what was the thing called "XP" with love.
사내 발표자료 겸 만들었는데, ECS Fargate를 이용하실 분들이라면, 편리하게 쓰실 수 있도록 최대한 상세하게 만들어 보았습니다.
사실 CloudFormation 등 배포는 좀 더 편리하게 할 수 있지만, 회사 사정도 있고, 제가 일단 그런 기술을 너무 늦게 알았기 때문에 다루지는 않았습니다.
The product release plan outlines the company's planned releases of hardware and software products over the next few quarters. It includes the scheduled release of new workstation hardware and software, edge hardware and software, AI edge devices, vision and IoT kits, tools, and new Alpha workstation models. The plan provides a quarterly roadmap for introducing new products from Q3 to Q2 the following year.
This document discusses using an M48X MCU and Jetson Nano for a home automation project. The M48X MCU controls lights and other devices via UART commands from a Jetson Nano or PC. Example commands are given to turn lights on/off, change colors, and start automated light shows or routines. Additional commands allow controlling videos, music and messages played on the Jetson Nano through the M48X MCU.
This document describes the design of an autonomous guided vehicle (AGV) system. It outlines the main components including the order system, dispatcher, universal clock, AGVs, broker, grid map database. It then describes the functions of various components like the naive dispatcher, path planner using A* algorithm, discrete time simulation with the universal clock, AGV main flow, grid map GUI, and traffic control strategies to handle conflicts between AGVs.
The document discusses microservices and provides definitions, examples, and considerations around this architectural style. It defines microservices as small, independent processes communicating via APIs to compose complex applications. It notes microservices allow for increased modularity, independence, and scalability compared to traditional monolithic architectures. The document also shares perspectives from experts on microservices and examples of companies using this approach.
20160217 - Overview of Vortex Intelligent Data Sharing PlatformJamie (Taka) Wang
Vortex Intelligent is an intelligent data sharing platform that provides several product suites including Vortex OpenSplice, Vortex Starter Kit, and Vortex Device. Vortex OpenSplice is a DDS library that implements DDS 1.2 and DDSI 2.1 standards. It has both free and paid versions. Vortex Starter Kit and Vortex Device target different developer types. Additional products like Vortex Insight, Vortex Cafe, Vortex Web provide visualization, Java DDS library, and JavaScript DDS library capabilities. Vortex also includes options for cloud, fog, and gateway integration.
This document discusses strategies for IoT development. It proposes three levels of architecture - short, mid, and long term - to develop an IoT kernel and services. It also examines Advantech's IoT products and architectures, including their WebAccess SCADA system and WISE-Cloud platform. Challenges in IoT solutions are identified around connectivity, costs, reliability and time to market. Two proof-of-concept projects are proposed using edge cloud services and Modbus TCP.
This document discusses microservices architecture and how Docker has changed application development. It covers:
- The rise of microservices architecture which breaks applications into independently deployable small services.
- How Docker brings development and operations teams closer together through standardized deployment of services.
- How Docker provides consistency for continuous integration testing by allowing identical environments.
- How Docker enables collaboration through sharing of pre-built application containers.