Here are the key benefits of Windows Azure Workflow:- Scalable - Workflow instances can scale out across multiple servers as load increases.- Durable - Workflow instances persist across service restarts and hardware failures.- Visible - Workflow instances and their state can be monitored and managed.- Programmable - Workflow activities can call any Azure service or external system.- Event-driven - Workflows can respond to events from services like queues, tables, etc. - Integrated - Workflows integrate with other Azure services like storage, SQL, etc.So in summary, Windows Azure Workflow allows long-running, reliable processes to be built as workflows that integrate with other Azure services and
The document provides an overview of Microsoft Cloud services including Azure Services Platform, Online Services, and Live Services. It describes key Azure components like compute, storage, SQL services, .NET services, and developer tools. It recommends that readers download the Visual Studio tools and SDK to start developing applications, deploy to the cloud after getting an account, and provide feedback to help shape Microsoft cloud offerings.
Semelhante a Here are the key benefits of Windows Azure Workflow:- Scalable - Workflow instances can scale out across multiple servers as load increases.- Durable - Workflow instances persist across service restarts and hardware failures.- Visible - Workflow instances and their state can be monitored and managed.- Programmable - Workflow activities can call any Azure service or external system.- Event-driven - Workflows can respond to events from services like queues, tables, etc. - Integrated - Workflows integrate with other Azure services like storage, SQL, etc.So in summary, Windows Azure Workflow allows long-running, reliable processes to be built as workflows that integrate with other Azure services and
Windows Azure - Uma Plataforma para o Desenvolvimento de AplicaçõesComunidade NetPonto
Semelhante a Here are the key benefits of Windows Azure Workflow:- Scalable - Workflow instances can scale out across multiple servers as load increases.- Durable - Workflow instances persist across service restarts and hardware failures.- Visible - Workflow instances and their state can be monitored and managed.- Programmable - Workflow activities can call any Azure service or external system.- Event-driven - Workflows can respond to events from services like queues, tables, etc. - Integrated - Workflows integrate with other Azure services like storage, SQL, etc.So in summary, Windows Azure Workflow allows long-running, reliable processes to be built as workflows that integrate with other Azure services and (20)
Automating Google Workspace (GWS) & more with Apps Script
Here are the key benefits of Windows Azure Workflow:- Scalable - Workflow instances can scale out across multiple servers as load increases.- Durable - Workflow instances persist across service restarts and hardware failures.- Visible - Workflow instances and their state can be monitored and managed.- Programmable - Workflow activities can call any Azure service or external system.- Event-driven - Workflows can respond to events from services like queues, tables, etc. - Integrated - Workflows integrate with other Azure services like storage, SQL, etc.So in summary, Windows Azure Workflow allows long-running, reliable processes to be built as workflows that integrate with other Azure services and
1. Microsoft Cloud 101
Bill Zack, Architect Evangelist, Microsoft
wzack@microsoft.com
Blog: blogs.msdn.com/billzack
2. In case we don’t get to it learn more at the
New York Windows Azure User Group
Windows Azure: Application Model & Roles,
Cloud Storage, Health Monitoring
SQL Services: SQL Data Services, Queries,
Sync
.NET Services: Internet Service Bus , Access
Control , Workflow
Live Services: Live ID, Live Mesh
Every 4th Monday
http://www.azureusergroup.com
3. Additional Resources
The Azure Services Portal
http://azure.com
The Documentation Library
http://msdn.microsoft.com/en-us/azure
4. Who is the Azure™ Services Platform for?
Anyone building scalable available services
Entrepreneurs
ISVs (large and small)
Web startups
Hobbyists
etc.
5. Why should I bet my business on it?
Consumption-based model (TBA Summer 09)
You pay only for what you use
No minimum or long term commitment
An inexpensive way to experiment
Easy to grow as your business grows
Managed elastic capacity and scalability
Simpler operating and management environment for
developers
Integrates well with on-premises applications and
services
Leverages existing technology investments and skills
6. Sounds great! What should I do next?
Download the Visual Studio tools & SDK
Develop and test locally
Start experimenting now
Get access to the real Cloud
Sign up for an account
Deploy your application to the cloud
Test it out
Give us feedback!
Help us “shape the cloud”
8. Online +
Microsoft or partner hosted versions of onpremise software.
Most carry “Online” moniker. (Some do not )
Hosted services include:
Exchange Online and Exchange Hosted Services
SharePoint Online
Office Communications Online (not available yet)
Live Meeting
Dynamics CRM Online
9. Live
Large set of Microsoft based services
Subscribed to by an Aggregator (which could also
be Microsoft as in the case of the Windows Live
portal
For adding functionality to web sites the
Aggregators offers up to Internet clients.
10.
11. Azure Services Platform
Used to build distributed applications and data
which may involve on-premise and cloud based
components.
It provides:
Cloud based Execution of ASP.NET and batch applications
Multiple Storage types,
Database,
Internet message relay and pub/sub
Workflow
12. Azure™ Services Platform
Windows® Azure™ (Cloud OS)
Service Management
Compute
Essential Storage
Developer Experience
SQL Services
SQL Data Services
.NET Services
Access Control
Service Bus
Workflow
12
13. Windows Azure Service Management
Massive scale
Compute & Storage “Fabric”
Hundreds / thousands of server nodes
Upward / downward scalability
Availability & Durability
Fault Domains
Update Domains
Geo-Distribution
14. Windows Azure Service Management
You focus on your Business Logic
We provide “Enlightened Mode”
(managed) VMs
We handle Automated Service
Management
Manage services not machines!
Declarative specification (model)
Image multi-cast deployment & upgrade
Auto scale-out of instances
Configuration, Health, Alerts, Usage/Billing, SLA
Some programming limitations exist
17. Windows Azure Compute
Processing Roles (Front End, Back-End)
Web
Worker
Web + Worker
Instances
Scalability
Distribution
Lean OS & Hypervisor based
Supports Managed and Unmanaged code
18. Windows Azure Web Role
LB
n
Front End Role
API
Configuration
Store
n identical instances of a single role
Ex: Highly scalable web application
19. Windows Azure Web and Worker Roles
LB
n
Front End Role
m
Queue
Back End Role
API
API
Configuration
Configuration
Store
Queue enables async, reliable processing
Ex: Video encoding application
20. Windows Azure Storage
Massive scale and low cost
Durable, available, scalable and secure
Redundant copies, commodity hardware,
layered architecture
Blobs: Simple interface for storing named
files along with metadata for the file
Tables: Structured storage. A set of entities,
which contain a set of properties.
Partitonable
Queues: Reliable storage and delivery of
messages for an application
21. Windows Azure Storage: Blobs
Store Large Objects (up to 50 GB each)
Account/Container/Blob/Block naming
Standard REST Put/Get Interface
PutBlob(BlobName, stream, size)
Overwrites the existing blob by that name
GetBlob(BlobName, starting offset, length)
DeleteBlob(BlobName)
Associate Metadata with Blob
Metadata is <name, typed value> pairs
Set/Get with or separate from blob data bits
Up to 8KB per blob
22. Streaming a Blob via Blocks
Uploading a Large Blob
blobName = “MyMovie”;
Benefit:
• Efficient continuation
and retry
• Parallel and out of
order upload of blocks
PutBlock(blobName, blockId1, block1Bits);
PutBlock(blobName, blockId2, block2Bits);
Block Id N
Block Id 3
Block Id 2
Block Id 1
10 GB Movie
…………
PutBlock(blobName, blockIdN, blockNBits);
PutBlockList(blobName,
blockId1,…,blockIdN);
MyMovie Windows Azure
Storage
22
24. Windows Azure Storage: Tables
Structured storage in the form of Tables
A Table is a set of entities (rows)
An Entity is a set of properties (columns)
Namespace
Account Name
– Table Name
Entity (PartitionKey, RowKey)
Table Name
You give a unique name to each Table, which is scoped by
Account
An account can create many tables
Focus is to provide Scalable Structured Storage via Tables
Not a relational database (e.g., no foreign keys, no joins,
etc)
25. Windows Azure Storage: Tables
Your table can grow to be billions of entities
(rows) and TBs of data
The table may need to be spread across
thousands of servers to handle traffic to that
table
Partitioning is how we spread the table out
The Table’s entities are broken into partitions
26. Scaling Tables through Partitions
Partition Key
Document
Name
Row Key
Version
Column 3
Modification
Time
Column
4
State
……
….
Column N
Description
Examples Doc
V2.0
8/2/2007
Current
……
….
Committed version
Partition 1
Examples Doc
V2.0.1
9/28/2007
Working
Alice’s working version
FAQ Doc
V1.0
5/2/2007
Current
Current committed version
FAQ Doc
V1.0.1
7/6/2007
Working
Alice’s working version
FAQ Doc
V1.0.2
8/1/2007
Working
Sally’s working version
FAQ Doc
V1.0.3
9/6/2007
Working
Bob’s working version
Partition 2
Table’s entities are broken up into Partitions
Partition: set of entities with same partition key value
PartitionKey – unique ID for the partition within the Table
RowKey – unique ID for the row within the partition
All Queries are sorted by Partition Key and then by Row Key
Each partition can be served by different nodes
26
27. Why Partition?
Entity Locality
Entities in the same partition will be stored
together for efficient querying and cache locality
when accessing
Table Throughput
Table Storage automatically performs partition
load balancing based upon the partition key
Scale to meet the traffic needs of your application
27
28. Windows Azure: Queues
Provides reliable queued message delivery
Simple, asynchronous work dispatch via queues
The programming semantics ensure that a message is
retrieved at least once
Queue access provided via REST
Account can contain Queues
Queue contains Messages
URL:
http://<Account>.queue.core.windows.net/<QueueName>
Queues contain Messages
Message Size <= 8 KB
Messages can contain references to blob/table storage
28
30. Windows Azure Developer Experience
Extends what you already know how to do!
Leverages Visual Studio
3 New Templates
Focus on Business Logic, and
Leave the scalability and availability to us
SDK has The Cloud in a Box!
Emulated cloud services
Spin up multiple Roles & Instances
F5 debugging & breakpoints
No Breakpoints in the real cloud!
Logging/tracing to cloud based log files
31. Debugging
SDK includes the Cloud “In a Box”.
Emulated cloud services
Spin up multiple Roles & Instances
F5 debugging & breakpoints
No Breakpoints in the real cloud!
Logging/tracing to cloud based log files
31
37. SQL Services: SQL Data Services
Standard T-SQL over TDS
Managed SQL Server Fabric
Supports most of what you are used to
Relational Schema (Tables, Indexes & Views)
Stored Procedures
Triggers & Constraints
Table Variables & Session Temp Tables
Non-Distributed Transactions
Connection string change: local to cloud
There will be a per-DB max size limit
38. If Time Permits we will talk about
.NET Services
Access Control Service
[Internet] Service Bus
Workflow
39. .NET Services: Access Control Svc
Challenge
Ensuring secure transactions for systems in disparate security domains is
crucial but difficult to implement
COMPANY C
COMPANY A
ADFS
COMPANY B
Secure
Provides hosted identity and access services for organizations while
allowing them to fully control it
Federated &
Flexible
Next-generation AD access and federation services for organization
and third-party applications
Standards
Based
Claims based access control using secure tokens
Based on standards such as WS-Trust, REST and SOAP
40. .NET Services: Service Bus
Challenge
Applications built in the cloud will need to span systems to talk to other third
party apps or applications that are on premise
APPLICATION D
INTERNET SERVICE BUS
APPLICATION A
APPLICATION B
APPLICATION C
Federated
Applications can connect securely across firewalls and org boundaries
in a loosely coupled, federated manner
Powerful
Request - Response, and publish subscribe with multiple senders and
receivers on a single rendezvous point
Simple
low footprint download built using standards such as HTTP, RSS,
SOAP
41. Service Bus (WCF Relay Bindings)
Identity
Service
Trust
Authenticate
Connectivity
Service
3
Connect
Open
4
2
1
Authenticate
5
Relayed
Connection
Client
6
Direct
Connection
(optional)
Service
41
42. .NET Services: Workflow
Challenge
As activities are offloaded to the cloud, how do you do long running multi step
activities driven by events
Application C
Visual Studio
XAML
Application B
Application A
Agility
Enables you to create workflows without worrying about deployments
Simplicity
Uses similar programming model as on-premises workflows
Federated
Enables cross-organization and cross-trust domain workflows
43. Workflow (Update)
Windows Workflow in the cloud!
XOML only
Restricted list of allowed activities
Basic “process orchestration” between parties
HttpReceive
HttpSend
ServiceBusSend
XPathRead
XPathUpdate
Basic copy/paste deployment
Can also be done via an API
43
45. CTP Temporary Limitations (Updt)
Only in one data center
Access token expiration based on inactivity
Quota based account suspension, but
arrangements can be made for exceptions
Support limited to:
Forums
Limited incident support
45
46. CTP Temporary Limitations (Updt)
VMs provided
1 Core 1.9GHZ
2 GB memory
160 GB local storage (non-persistent)
2 role instances
8 VMs in simultaneous use per account
2 role instances x 2 roles x 2 tenants (staging and
production). This will not be a limitation of the final
release.
47. CTP Temporary Limitations (Repl)
50 GB of storage across all Authorities
1000 Containers per Authority
1 GB of Blob Entities per Container
100 MB of Flexible Entities per Container
Each Blob Entity will be capped at 100mb
48.
49. Sounds great! What should I do next?
Download the Visual Studio tools & SDK
Develop and test locally
Start experimenting now
Get access to the real Cloud
Sign up for an account
Deploy your application to the cloud
Test it out
Give us feedback!
Help us “shape the cloud”
From Directions on Microsoft: Chicago class. Named for the facility under way in Northlake, a suburb of Chicago, this type of data center is optimized for massive scale. Instead of using racks of servers, this facility is designed to accept shipping containers, each filled with approximately 2,500 servers, designed to a Microsoft specification and known internally as "Cblox." (For a photo of the interior of such a container, see "Inside a Data Center Container".) The building is designed like a parking garage, with spaces for semitrailers carrying containers. A single connector on the outside of the shipping container links its computers to a "spine" that contains connections for power, network, and cooling. This allows a Chicago-class facility to have hundreds of thousands of servers, with one employee on site for approximately every 30,000 servers. When a certain percentage of the servers in a particular container are offline or obsolete, Microsoft will decommission the entire container of 2,500 servers—a process that could take months in a Quincy-class facility will take approximately one hour in a Chicago-class facility. This ease of replacement will also allow Microsoft to improve energy efficiency over time, as new container designs will include more servers and more efficient cooling systems.