NAS (network-attached storage) allows clients to access files over a network. It uses file sharing protocols like NFS and CIFS to provide access to files stored on storage devices. NAS devices have benefits like centralized storage, simplified management, scalability, and security integration. They improve efficiency by allowing multiple servers and clients to access shared storage.
Learn how to setup Samba and NFS in ubuntu server-ubuntu client and ubuntu server-windows client. Also, comparsion of NAS vs SAN, NAS vs DAS, why we are using NAS, its comonents and challanges with actual real world scenario that what if we use NAS and what if we not use NAS.
A SAN (Storage Area Network) is a network designed to transfer data from servers to storage targets as an alternative to directly attached storage. The document defines SAN architecture, which accesses storage at the block level and provides high performance, shared storage with good management tools. It discusses various SAN technologies like Fiber Channel and IP-based solutions. SANs connect storage subsystems, while NAS uses a general network to connect file-based storage. The document also covers SAN topologies, virtualization, protocols, advantages and disadvantages.
This document provides an introduction to storage area networks (SANs). It defines a SAN and describes its typical components, including host servers, host bus adapters, Fibre Channel hubs and switches that connect the fabric layer, and storage arrays. The document discusses SAN interface technologies like Fibre Channel, iSCSI, and InfiniBand. It also covers common SAN topologies like point-to-point, arbitrated loop, and switched fabric. Key benefits of SANs are reduced data center space, disaster recovery capabilities, increased I/O performance, and efficiency through reliability and scalability.
Storage Area Network (SAN) is a dedicated, high-speed network that connects servers to storage devices like disks, disk arrays, and tapes. A SAN provides centralized storage that can be accessed by multiple servers, providing high capacity, high availability, and scalability compared to Direct Attached Storage. Fiber Channel is commonly used as the networking technology for SANs, allowing blocks of data to be accessed by servers over the high-speed SAN fabric.
Introduction to san ( storage area networks )sagaroceanic11
This document provides an introduction and overview of different types of storage networks, including DAS, NAS, and SAN. It defines each type of storage network and compares their key features such as interface technologies, file systems, capacity, speed, management, and more. The document also outlines some core technologies and major players involved in networking solutions, storage solutions, backup technologies, SAN management, high availability, and disaster recovery. It concludes by discussing emerging technologies and future focus areas for storage networks.
A Storage Area Network (SAN) provides block-level access to shared storage pools through high-speed fiber connections, allowing multiple servers to access storage. A SAN consists of hosts, logical unit numbers (LUNs), host bus adapters (HBAs), storage controllers, and multipathing input/output (MPIO). iSCSI allows SCSI commands to be transmitted over IP networks as an alternative to fiber channel, consisting of iSCSI qualified names (IQNs), software initiators, and extended unique identifiers (EUIs).
Storage Area Network (SAN) is a dedicated, high-speed network that connects servers to storage devices like disks, disk arrays, and tapes. A SAN provides centralized storage that can be accessed by multiple servers, providing high capacity, high availability, and scalability compared to Direct Attached Storage. Fiber Channel is commonly used as the networking technology for SANs, allowing blocks of data to be accessed by servers over the high-speed SAN fabric.
NAS (network-attached storage) allows clients to access files over a network. It uses file sharing protocols like NFS and CIFS to provide access to files stored on storage devices. NAS devices have benefits like centralized storage, simplified management, scalability, and security integration. They improve efficiency by allowing multiple servers and clients to access shared storage.
Learn how to setup Samba and NFS in ubuntu server-ubuntu client and ubuntu server-windows client. Also, comparsion of NAS vs SAN, NAS vs DAS, why we are using NAS, its comonents and challanges with actual real world scenario that what if we use NAS and what if we not use NAS.
A SAN (Storage Area Network) is a network designed to transfer data from servers to storage targets as an alternative to directly attached storage. The document defines SAN architecture, which accesses storage at the block level and provides high performance, shared storage with good management tools. It discusses various SAN technologies like Fiber Channel and IP-based solutions. SANs connect storage subsystems, while NAS uses a general network to connect file-based storage. The document also covers SAN topologies, virtualization, protocols, advantages and disadvantages.
This document provides an introduction to storage area networks (SANs). It defines a SAN and describes its typical components, including host servers, host bus adapters, Fibre Channel hubs and switches that connect the fabric layer, and storage arrays. The document discusses SAN interface technologies like Fibre Channel, iSCSI, and InfiniBand. It also covers common SAN topologies like point-to-point, arbitrated loop, and switched fabric. Key benefits of SANs are reduced data center space, disaster recovery capabilities, increased I/O performance, and efficiency through reliability and scalability.
Storage Area Network (SAN) is a dedicated, high-speed network that connects servers to storage devices like disks, disk arrays, and tapes. A SAN provides centralized storage that can be accessed by multiple servers, providing high capacity, high availability, and scalability compared to Direct Attached Storage. Fiber Channel is commonly used as the networking technology for SANs, allowing blocks of data to be accessed by servers over the high-speed SAN fabric.
Introduction to san ( storage area networks )sagaroceanic11
This document provides an introduction and overview of different types of storage networks, including DAS, NAS, and SAN. It defines each type of storage network and compares their key features such as interface technologies, file systems, capacity, speed, management, and more. The document also outlines some core technologies and major players involved in networking solutions, storage solutions, backup technologies, SAN management, high availability, and disaster recovery. It concludes by discussing emerging technologies and future focus areas for storage networks.
A Storage Area Network (SAN) provides block-level access to shared storage pools through high-speed fiber connections, allowing multiple servers to access storage. A SAN consists of hosts, logical unit numbers (LUNs), host bus adapters (HBAs), storage controllers, and multipathing input/output (MPIO). iSCSI allows SCSI commands to be transmitted over IP networks as an alternative to fiber channel, consisting of iSCSI qualified names (IQNs), software initiators, and extended unique identifiers (EUIs).
Storage Area Network (SAN) is a dedicated, high-speed network that connects servers to storage devices like disks, disk arrays, and tapes. A SAN provides centralized storage that can be accessed by multiple servers, providing high capacity, high availability, and scalability compared to Direct Attached Storage. Fiber Channel is commonly used as the networking technology for SANs, allowing blocks of data to be accessed by servers over the high-speed SAN fabric.
Network attached storage (NAS) allows multiple users to access files over a local area network. A NAS device contains one or more hard drives configured in a RAID array for redundancy. It connects directly to the network and has its own IP address. NAS provides a simple way for organizations to centralize, share, and protect their data. Common uses of NAS include file sharing, email storage, and databases. Maintenance includes monitoring performance, addressing failures, tuning storage usage, and supporting users. Future developments aim to improve NAS speed, flexibility, and functionality for high-security environments.
The document discusses storage area networks (SANs) and fiber channel technology. It provides background on SANs and how they function as a separate high-speed network connecting storage resources like RAID systems directly to servers. It then covers SAN topologies using fiber channel, including point-to-point, arbitrated loop, and fabric switch configurations. Finally, it discusses planning, managing and the management perspective of SANs in the data center.
Fast2016 liang ming-converged_storage_technology-final (1)Liang Ming
This document provides a tutorial on converged storage technology and key-value storage. It discusses the concept of object storage and key-value storage, as well as next generation converged storage solutions that integrate different storage devices and provide various storage services through a unified abstraction. It also describes work being done to promote a key-value storage standard through the development of a Key-Value Framework (KVF).
1. Software defined storage (SDS) provides application-centric data services including block, file, and object storage independent of the underlying hardware.
2. SDS uses policies to provide quality of service (QoS), ensuring minimum and maximum IOPS and bandwidth for different applications.
3. Caching is an important data service, using SSDs to improve performance by blending them with SAN, NAS, and object storage according to policies that monitor IOPS and adjust the cache size and hit rate.
Network attached storage (NAS) allows centralized storage and sharing of data over a network. A NAS device maintains one or more hard disks and is directly connected to a network to provide file-level access to stored data. NAS provides benefits like simplified management, improved efficiency, and flexibility in accessing data globally compared to traditional localized storage. It uses common protocols like TCP/IP, NFS, and SMB to connect to client systems and retrieve or store data.
A storage area network (SAN) provides centralized storage for multiple servers to access over a network. SANs are useful for large networks that require more storage than a single server can offer, allowing terabytes of data to be accessible by multiple machines. The key components of a SAN include fiber channel switches that connect servers and storage devices, host bus adapters that interface storage with operating systems, and storage devices like fiber channel disks. SANs provide benefits like high storage capacity, reduced costs, increased performance, and improved backup and recovery compared to adding more individual servers. However, SANs also have disadvantages in being expensive to implement and maintain and requiring technical expertise.
Network attached storage (NAS) is a file-level computer data storage server connected to a computer network providing data access to a heterogeneous group of clients. It is designed to be easy to set up and maintain while providing reliable storage that scales easily. NAS uses standard network protocols like NFS and CIFS to provide file sharing capabilities without requiring dedicated server hardware or software. This makes NAS simpler and more cost-effective than traditional server-based storage while offering high performance and reliability for small or large storage needs.
A brief study on Storage Area Network (SAN), SAN architecture & its importance. It focuses on the techniques and the technologies that have evolved around SAN & its Security.
Complete configuration of SAN using ESXI Environment and Installation guide. Now you will be able to configure storage area network with the help of these slides.
This configuration helps user to configure ESXI 4, ESXI 3.0 Servers
The document discusses storing SQL Server database files on a network attached storage (NAS) device. It describes how SQL Server maps databases to operating system files, including primary data files, secondary data files, and log files. It then explains that NAS allows hard disk storage to be added to a network without shutting down servers, and that SQL Server databases can be configured to store files on a NAS by enabling trace flag 1807 and identifying a file share with full access.
This document discusses the differences between SAN (storage area network), NAS (network attached storage), and DAS (direct attached storage) and how they can be used with QlikView Server. It provides definitions and examples of typical architectures for SAN, NAS, and DAS. It also discusses considerations and best practices for using SAN/NAS with QlikView Server configurations, such as ensuring fast access times and avoiding overloading shared storage resources. Example configurations are provided that utilize SAN with virtual or physical NAS solutions for QlikView Server cluster file storage.
A presentation for FY and SY student about basic knowledge of NAS which includes :
1. Introduction of NAS
2. Applications
3. Benefits
4. Advantages
5. Disadvantages
6. NAS vs SAN
7. Future of NAS
This document provides an overview of various data storage technologies including RAID, DAS, NAS, and SAN. It discusses RAID levels like RAID 0, 1, 5 which provide data striping and redundancy. Direct attached storage (DAS) connects directly to servers but cannot be shared, while network attached storage (NAS) uses file sharing protocols over IP networks. Storage area networks (SAN) use dedicated storage networks like Fibre Channel and iSCSI to provide block-level access to consolidated storage. The key is choosing the right solution based on capacity, performance, scalability, availability, data protection needs, and budget.
Sdc2010 scality cloud storage vs object storage for distributionJerome Lecat
The document discusses cloud storage and object storage technologies. It defines cloud storage as storage provided as a service through a monthly billing model and accessible via API. Object storage is identified as the technology best suited for building cloud storage services due to its scalability, availability, and other features. Several example technologies are listed and classified as either cloud storage services or underlying storage technologies that can be used to provide cloud storage.
Cloud party 2014 - Deploy your infrastructure with Saltstack - Salt Cloud wit...Corley S.r.l.
This document summarizes steps for deploying and scaling a web application across cloud infrastructure using automation tools. Key steps include:
1. Defining profiles for database, cache, web, and proxy layers using Salt Cloud to provision resources across different cloud providers and regions.
2. Configuring Salt states to deploy and configure applications and middleware like MySQL, Memcached, Nginx on the provisioned instances.
3. Implementing load balancing and high availability by distributing sessions, database queries, and HTTP requests across the instances using tools like Memcached, MySQL replication, and Nginx proxy.
4. Automating the infrastructure deployment and configuration using configuration management with Salt to enable scalability.
The Scality RING is a software-defined storage platform that runs on standard x86 servers and is designed to scale linearly across multiple sites and thousands of servers to store petabytes of data. It provides a single, distributed storage system with unlimited storage capacity and high durability through data replication and erasure coding. The hardware-agnostic RING architecture ensures continuous availability during hardware upgrades and failures.
The document discusses the differences between network attached storage (NAS) and storage area network (SAN) solutions for small businesses. It outlines the key benefits and use cases of each technology. NAS is best for file sharing and backup, while SAN provides faster performance for databases and applications. The document also notes that a combination of NAS and SAN can provide the best of both worlds.
The document discusses different types of storage networks including direct attached storage (DAS), network attached storage (NAS), storage area networks (SANs) using Fibre Channel (FC) or iSCSI, and Fibre Channel over Ethernet (FCoE). DAS connects storage directly to servers but has limitations. NAS uses a traditional LAN to share storage files between servers but has performance limitations. SANs allow block-level access to centralized storage using high-speed FC networks or iSCSI over Ethernet. FCoE encapsulates FC frames in Ethernet to converge network traffic.
Pro active datacenter-infrastructures-ccie-bulent-morten-16.10.2014Mustafa Kuğu
The document discusses datacenter transformations and proactive datacenter solutions. It covers topics like tenant vs multitenant architectures, scalability, SDN, cloud services, legacy datacenter layers for network, services, compute, storage and management. It then focuses on SDN and provides examples of SDN solutions like OpenStack, OpenFlow protocol, VXLAN, ACI, and how ACI and OpenStack can integrate. It concludes by thanking the audience.
This document outlines a presentation on policy-based validation of SAN (storage area network) configurations. It introduces SANs and compares them to NAS (network-attached storage). It then discusses factors like global access, economics, issues, and challenges in SAN management. It covers relevant data structures, protocols, components like HBAs. The future work section outlines an architecture for policy-based validation including a policy evaluator, request generator, and action handler.
Enterprises require that their mission critical business applications such as Microsoft, SAP and Oracle are up and running 24x7. Whatever it is, the requirements are the same: Availability, security and flexibility are key. In this session we will walk through practical examples of how AWS customers operate heavily mission critical applications in the cloud. Through real world customer examples, you will learn how Enterprise deploy mission critical workloads in highly redundant manner as well as apply security controls which will provide you with increased visibility and control of your applications.
This document provides an overview of Amazon Lightsail, a platform for deploying and managing virtual private servers. It highlights key Lightsail features like easy instance provisioning, predictable pricing, global availability, and integration with other AWS services. The document also demonstrates how to launch an instance, access it via SSH, take snapshots, and programmatically control Lightsail using the AWS API. It discusses when Lightsail is suitable compared to other AWS services and how applications can grow on Lightsail.
Network attached storage (NAS) allows multiple users to access files over a local area network. A NAS device contains one or more hard drives configured in a RAID array for redundancy. It connects directly to the network and has its own IP address. NAS provides a simple way for organizations to centralize, share, and protect their data. Common uses of NAS include file sharing, email storage, and databases. Maintenance includes monitoring performance, addressing failures, tuning storage usage, and supporting users. Future developments aim to improve NAS speed, flexibility, and functionality for high-security environments.
The document discusses storage area networks (SANs) and fiber channel technology. It provides background on SANs and how they function as a separate high-speed network connecting storage resources like RAID systems directly to servers. It then covers SAN topologies using fiber channel, including point-to-point, arbitrated loop, and fabric switch configurations. Finally, it discusses planning, managing and the management perspective of SANs in the data center.
Fast2016 liang ming-converged_storage_technology-final (1)Liang Ming
This document provides a tutorial on converged storage technology and key-value storage. It discusses the concept of object storage and key-value storage, as well as next generation converged storage solutions that integrate different storage devices and provide various storage services through a unified abstraction. It also describes work being done to promote a key-value storage standard through the development of a Key-Value Framework (KVF).
1. Software defined storage (SDS) provides application-centric data services including block, file, and object storage independent of the underlying hardware.
2. SDS uses policies to provide quality of service (QoS), ensuring minimum and maximum IOPS and bandwidth for different applications.
3. Caching is an important data service, using SSDs to improve performance by blending them with SAN, NAS, and object storage according to policies that monitor IOPS and adjust the cache size and hit rate.
Network attached storage (NAS) allows centralized storage and sharing of data over a network. A NAS device maintains one or more hard disks and is directly connected to a network to provide file-level access to stored data. NAS provides benefits like simplified management, improved efficiency, and flexibility in accessing data globally compared to traditional localized storage. It uses common protocols like TCP/IP, NFS, and SMB to connect to client systems and retrieve or store data.
A storage area network (SAN) provides centralized storage for multiple servers to access over a network. SANs are useful for large networks that require more storage than a single server can offer, allowing terabytes of data to be accessible by multiple machines. The key components of a SAN include fiber channel switches that connect servers and storage devices, host bus adapters that interface storage with operating systems, and storage devices like fiber channel disks. SANs provide benefits like high storage capacity, reduced costs, increased performance, and improved backup and recovery compared to adding more individual servers. However, SANs also have disadvantages in being expensive to implement and maintain and requiring technical expertise.
Network attached storage (NAS) is a file-level computer data storage server connected to a computer network providing data access to a heterogeneous group of clients. It is designed to be easy to set up and maintain while providing reliable storage that scales easily. NAS uses standard network protocols like NFS and CIFS to provide file sharing capabilities without requiring dedicated server hardware or software. This makes NAS simpler and more cost-effective than traditional server-based storage while offering high performance and reliability for small or large storage needs.
A brief study on Storage Area Network (SAN), SAN architecture & its importance. It focuses on the techniques and the technologies that have evolved around SAN & its Security.
Complete configuration of SAN using ESXI Environment and Installation guide. Now you will be able to configure storage area network with the help of these slides.
This configuration helps user to configure ESXI 4, ESXI 3.0 Servers
The document discusses storing SQL Server database files on a network attached storage (NAS) device. It describes how SQL Server maps databases to operating system files, including primary data files, secondary data files, and log files. It then explains that NAS allows hard disk storage to be added to a network without shutting down servers, and that SQL Server databases can be configured to store files on a NAS by enabling trace flag 1807 and identifying a file share with full access.
This document discusses the differences between SAN (storage area network), NAS (network attached storage), and DAS (direct attached storage) and how they can be used with QlikView Server. It provides definitions and examples of typical architectures for SAN, NAS, and DAS. It also discusses considerations and best practices for using SAN/NAS with QlikView Server configurations, such as ensuring fast access times and avoiding overloading shared storage resources. Example configurations are provided that utilize SAN with virtual or physical NAS solutions for QlikView Server cluster file storage.
A presentation for FY and SY student about basic knowledge of NAS which includes :
1. Introduction of NAS
2. Applications
3. Benefits
4. Advantages
5. Disadvantages
6. NAS vs SAN
7. Future of NAS
This document provides an overview of various data storage technologies including RAID, DAS, NAS, and SAN. It discusses RAID levels like RAID 0, 1, 5 which provide data striping and redundancy. Direct attached storage (DAS) connects directly to servers but cannot be shared, while network attached storage (NAS) uses file sharing protocols over IP networks. Storage area networks (SAN) use dedicated storage networks like Fibre Channel and iSCSI to provide block-level access to consolidated storage. The key is choosing the right solution based on capacity, performance, scalability, availability, data protection needs, and budget.
Sdc2010 scality cloud storage vs object storage for distributionJerome Lecat
The document discusses cloud storage and object storage technologies. It defines cloud storage as storage provided as a service through a monthly billing model and accessible via API. Object storage is identified as the technology best suited for building cloud storage services due to its scalability, availability, and other features. Several example technologies are listed and classified as either cloud storage services or underlying storage technologies that can be used to provide cloud storage.
Cloud party 2014 - Deploy your infrastructure with Saltstack - Salt Cloud wit...Corley S.r.l.
This document summarizes steps for deploying and scaling a web application across cloud infrastructure using automation tools. Key steps include:
1. Defining profiles for database, cache, web, and proxy layers using Salt Cloud to provision resources across different cloud providers and regions.
2. Configuring Salt states to deploy and configure applications and middleware like MySQL, Memcached, Nginx on the provisioned instances.
3. Implementing load balancing and high availability by distributing sessions, database queries, and HTTP requests across the instances using tools like Memcached, MySQL replication, and Nginx proxy.
4. Automating the infrastructure deployment and configuration using configuration management with Salt to enable scalability.
The Scality RING is a software-defined storage platform that runs on standard x86 servers and is designed to scale linearly across multiple sites and thousands of servers to store petabytes of data. It provides a single, distributed storage system with unlimited storage capacity and high durability through data replication and erasure coding. The hardware-agnostic RING architecture ensures continuous availability during hardware upgrades and failures.
The document discusses the differences between network attached storage (NAS) and storage area network (SAN) solutions for small businesses. It outlines the key benefits and use cases of each technology. NAS is best for file sharing and backup, while SAN provides faster performance for databases and applications. The document also notes that a combination of NAS and SAN can provide the best of both worlds.
The document discusses different types of storage networks including direct attached storage (DAS), network attached storage (NAS), storage area networks (SANs) using Fibre Channel (FC) or iSCSI, and Fibre Channel over Ethernet (FCoE). DAS connects storage directly to servers but has limitations. NAS uses a traditional LAN to share storage files between servers but has performance limitations. SANs allow block-level access to centralized storage using high-speed FC networks or iSCSI over Ethernet. FCoE encapsulates FC frames in Ethernet to converge network traffic.
Pro active datacenter-infrastructures-ccie-bulent-morten-16.10.2014Mustafa Kuğu
The document discusses datacenter transformations and proactive datacenter solutions. It covers topics like tenant vs multitenant architectures, scalability, SDN, cloud services, legacy datacenter layers for network, services, compute, storage and management. It then focuses on SDN and provides examples of SDN solutions like OpenStack, OpenFlow protocol, VXLAN, ACI, and how ACI and OpenStack can integrate. It concludes by thanking the audience.
This document outlines a presentation on policy-based validation of SAN (storage area network) configurations. It introduces SANs and compares them to NAS (network-attached storage). It then discusses factors like global access, economics, issues, and challenges in SAN management. It covers relevant data structures, protocols, components like HBAs. The future work section outlines an architecture for policy-based validation including a policy evaluator, request generator, and action handler.
Enterprises require that their mission critical business applications such as Microsoft, SAP and Oracle are up and running 24x7. Whatever it is, the requirements are the same: Availability, security and flexibility are key. In this session we will walk through practical examples of how AWS customers operate heavily mission critical applications in the cloud. Through real world customer examples, you will learn how Enterprise deploy mission critical workloads in highly redundant manner as well as apply security controls which will provide you with increased visibility and control of your applications.
This document provides an overview of Amazon Lightsail, a platform for deploying and managing virtual private servers. It highlights key Lightsail features like easy instance provisioning, predictable pricing, global availability, and integration with other AWS services. The document also demonstrates how to launch an instance, access it via SSH, take snapshots, and programmatically control Lightsail using the AWS API. It discusses when Lightsail is suitable compared to other AWS services and how applications can grow on Lightsail.
越來越多的企業正在使用 Amazon Web Services 的靈活、可擴展和安全的基礎架構來運行他們的 Microsoft Windows 工作負載。 這場線上研討會將演示 AWS 如何確保大多數 Microsoft 應用程序的定制、高可用性和可擴展性。 我們分享在 AWS 上部署 Active Directory(AD)的最佳做法,以支援 Microsoft 工作負載,如何在AWS上部署 SQL Server 以確保高可用性,以及 AWS 上的客戶使用案例。 立即報名參加這場研討會,了解有關在 AWS 上運行 Microsoft 工作負載的最佳做法和注意事項。
Living on the Edge, It’s Safer Than You Think! Building Strong with Amazon Cl...Amazon Web Services
Your application is exposed to a variety of threats from common distributed attacks to sophisticated zero-day vectors. Learn how to architect beyond the region and take advantage of the AWS Edge Network and upgrade your security posture with easy to deploy solutions that scale. At this session you will learn how to I ensure your application will withstand malicious threats and DDoS attacks, what role does architecture play in your security posture, and how professional services and partners like Flux7 can help.
Scale Website dan Mobile Applications Anda di AWS hingga 10 juta penggunaAmazon Web Services
Dengan cloud computing, Anda akan mendapatkan sejumlah keuntungan, seperti kemampuan untuk scale web application atau website secara on-demand. Jika Anda sedang membangun web application dan ingin mulai menggunakan cloud computing, mungkin terlintas di benak Anda, “Mulai dari mana?” Mari bergabung bersama kami dalam sesi ini untuk memahami praktik terbaik untuk scaling infrastruktur Anda, mulai dari nol hingga jutaan pengguna. Kami akan tunjukkan cara terbaik untuk membangun bisnis Anda dengan layanan AWS, membantu memutuskan pilihan yang lebih cerdas, dan bagaimana scaling infrastruktur Anda di cloud.
Did you know 52% of today’s organizations are planning to leverage a hybrid-cloud approach? With eight years’ experience running Windows workloads in the cloud, AWS provides the perfect platform to modernize your Microsoft applications.
This webinar will demonstrate how AWS ensures customization, high availability and scalability for most of your Microsoft applications on a hybrid-cloud model and learn how to reduce cost. We will also offer you an understanding of how these workloads are licensed and monitored, and share best practice reference architectures.
Key Outcomes:
• How to get the most out of your Microsoft Applications
• How do you start Migrating Applications to AWS?
• Hybrid cloud deployments using AWS
• Licensing Considerations
Session is suitable for
• Technical Decision Makers
• Senior IT Managers and Specialist
• DBA’s
• Solution Architects and Engineers
This document discusses migrating Microsoft applications to AWS. It covers why AWS is suitable for Microsoft workloads, planning an order of operations for migration. Key steps include setting up Active Directory, then migrating SQL Server and other applications like Exchange and SharePoint. Design considerations for SQL Server on AWS include using Amazon RDS for a managed service or launching SQL Server on EC2 for more customization options.
This document discusses methodologies for migrating Microsoft workloads to Amazon Web Services (AWS). It covers migration prerequisites like security, networking and Active Directory setup. Tools that can help with migration are also presented, including AWS Migration Hub, Application Discovery Service and Server Migration Service. Different migration patterns are compared, and examples of migrating applications like Exchange and SharePoint are provided. Finally, next steps and additional resources are suggested.
Oracle Enterprise Solutions on AWS - ENT326 - re:Invent 2017Amazon Web Services
This document summarizes a presentation about running Oracle enterprise solutions on AWS. It discusses how several large customers have successfully migrated Oracle E-Business Suite, PeopleSoft, and Siebel applications to AWS. The presentation covers the architectures for running these applications on AWS, along with considerations for backups, high availability, and migration strategies using tools like AWS Database Migration Service. It also discusses a case study of how consulting partner Sierra-Cedar helped a customer migrate their PeopleSoft environment from their data center to AWS.
Serverless introduction - AWS IL Beer Sheva meetupBoaz Ziniman
- The document discusses serverless computing, which allows building and running applications without having to manage servers. It describes how serverless is an evolution from physical servers, to virtual servers in datacenters, to virtual servers in the cloud. With serverless, there is no server to manage, which eliminates responsibilities around provisioning, scaling, operations, availability and fault tolerance. Serverless applications are event-driven and pay only for usage, with continuous scaling. Common use cases provided include a 3-tier web app and image thumbnail creation.
GPSBUS220-Refactor and Replatform .NET Apps to Use the Latest Microsoft SQL S...Amazon Web Services
Developers and architects migrating Microsoft enterprise applications to AWS can leverage new tools and services to implement DevOps best practices identified and developed by AWS solution architects and service teams. Learn about architectural best practices and AWS services such as AWS CodeBuild and AWS CodeDeploy, focusing on the .NET environment. Get examples of using the latest SQL Server release on Amazon EC2 or Amazon RDS, or on other database offerings native to AWS, like Amazon Aurora or serverless environments. Hear how an APN Partner took a global retail customer’s ecommerce engine and SQL Server–based data platform from on premises to the AWS Cloud in just weeks.
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.
GPSWKS407-Strategies for Migrating Microsoft SQL Databases to AWSAmazon Web Services
Data is king! In this workshop, we explore different strategies and options for migrating Microsoft SQL Server databases to AWS. We cover the migration process, mechanisms, best practices, version and object compatibility, and licensing. We walk you through the migration plan and activities, landing zone, and what you need to consider before migrating. We also discuss the different tools you can use for migration, monitoring, and backup and recovery.
There is a large number of legacy enterprise Microsoft applications (HR, Finance, CMS, BPM apps) still running on premises. This session will focus on retiring technical debt and bringing some of those applications into AWS. You will learn why it's important to go cloud, how easy it is to run & optimize Microsoft applications on AWS, the different approaches to maximize server utilization and save money.
Bring the VMware Software-Defined Data Center to Amazon Web Services with VMware Cloud. In this webinar we will dive into the compute, network and storage architecture of the VMware Cloud on AWS solution. We will look at real-world, live applications running in VMware Cloud on AWS which integrate with native AWS services such as S3 and Amazon Relational Database Service. We’ll discuss common deployment scenarios including Hybrid Cloud Architectures and Disaster Recovery and explore how the TCO of these implementations differ in VMware Cloud as compared to on-premises implementations.
AWS Database and Analytics State of the Union - 2017 - DAT201 - re:Invent 2017Amazon Web Services
In this session, we discuss the evolution of database and analytics services in AWS, the new database and analytics services and features we launched this year, and our vision for continued innovation in this space. We are witnessing an unprecedented growth in the amount of data collected, in many different forms. Storage, management, and analysis of this data require database services that scale and perform in ways not possible before. AWS offers a collection of database and other data services—including Amazon Aurora, Amazon DynamoDB, Amazon RDS, Amazon Redshift, Amazon ElastiCache, Amazon Kinesis, and Amazon EMR—to process, store, manage, and analyze data. In this session, we provide an overview of AWS database and analytics services and discuss how customers are using these services today.
Migrating Microsoft SQL Server Databases to AWS – Best Practices and Patterns...Amazon Web Services
Migrating databases to the cloud is a critical part of organizations cloud journey and requires careful planning and architecture considerations including migration methods. This session will provide you with best practices and guidelines in migrating and/or architecting hybrid database architecture on AWS with focus on Microsoft SQL server databases. We will review current SQL on RDS, SQL on EC2 capabilities, compare and contrast various migration methods including SQL Export, Backup and Restore, and using AWS Database Migration Service (DMS). We will also look at how Expedia is migrating monolith SQL server databases to AWS using a hybrid approach leveraging SQL Server Distributed Availability Architecture. Expedia will share lessons learned during initial test and deployment phase followed by a demo of their existing architecture and deployment.
WIN301-Migrating Microsoft SQL Server Databases to AWS-Best Practices and Pat...Amazon Web Services
Migrating databases to the cloud is a critical part of organizations cloud journey and requires careful planning and architecture considerations including migration methods. This session will provide you with best practices and guidelines in migrating and/or architecting hybrid database architecture on AWS with focus on Microsoft SQL server databases. We will review current SQL on RDS, SQL on EC2 capabilities, compare and contrast various migration methods including SQL Export, Backup and Restore, and using AWS Database Migration Service (DMS). We will also look at how Expedia is migrating monolith SQL server databases to AWS using a hybrid approach leveraging SQL Server Distributed Availability Architecture. Expedia will share lessons learned during initial test and deployment phase followed by a demo of their existing architecture and deployment.
Build a Java Spring Application on Amazon ECS - CON332 - re:Invent 2017Amazon Web Services
This workshop teaches you how to lift and shift existing Spring and Spring Cloud applications onto the AWS platform. Learn how to build a Spring application container, understand bootstrap secrets, push container images to Amazon ECR, and deploy the application to Amazon ECS. Then, learn how to configure the deployment for production.
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.