Module 1 - Amazon AWS üzerindeki sanal makineleri Microsoft Azure taşıma
Bulut Bilisim Nedir ? Ne Degildir ?
1. Bilişim Nedir ?
Ne Değildir ?
Mustafa Kara | MVP
mustafa.kara@bilgeadam.com
www.mustafakara.net.tr
Twitter : @mustafakara01
Linkedin : mustafakara1
Web :
2. MVP - System Center Cloud and Datacenter Management
Bilge Adam Bilişim Hizmetleri firmasında Sistem ve Güvenlik
departmanı birim müdürüdür. Uzun yıllardır Microsoft teknolojilerinde
danışmanlıklar yapmış ve eğitimler vermiştir.
Microsoft Certified Trainer (MCT) ve System Center Cloud and
Datacenter Management alanında Most Valuable Professional (MVP)
unvanlarına sahiptir. Uzman olduğu teknolojiler System Center ürün
ailesi, Hyper-V, Office 365 ve Microsoft Azure.
www.mustafakara.net.tr
18. Platform
(as a Service)
Bir Servis olarak Platform
(PaaS)
Software
(as a Service)
Bir Servis olarak Yazılım
(SaaS)
Infrastructure
(as a Service)
Bir Servis olarak Altyapı
(IaaS)
On premises
Şirket İçi
19. Internet
Teknolojileri
Kullandıkça Öde
Paylaşılan
Ölçeklenebilir ve
Elastik
Servis Tabanlı
Servisler Internet protokolleri üzerinden kullanılırlar.
Farklı ödeme yöntemlerini mümkün kılmak için servisler
kullanım oranına göre takip edilirler.
Servisler düşük maliyet için kaynak havuzlarından
faydalanırlar.
Servisler talep üzerine, gerektiğinde yeni kaynaklar eklenip
çıkarılarak ölçeklenebilir.
Servis ara yüzleri sayesinde müşteri kaygıları ile servis
sağlayıcı kaygıları birbirinden ayrıştırılır.
Bulut Bilişimi oluşturan beş ortak yapı taşı
1
2
3
4
5
29. Depolama
Hibrit Uygulamalar
Uygulama Geçişi
MS Ürün Dağıtımı
& POCs
Test & Geliştirme
Windows 8 & Telefon
Uyg.
Endüstri Çözümleri
Medya Servisleri
Bağlı Cihazlar
BI/ Büyük Veri
Data merkezli senaryolar Uygulama merkezli senaryolar
31. Bulut Depolama Senaryoları Genel Bakış
• Pahalı şirket içi depolama
• Uyumluluk gereksinimleri
TABLO depo
MEDYA Servisleri
SM’de SQL
SQL Veritabanı
Hadoop
BLOB depo
• Yeni medya tiplerine ve
dağıtımlarına duyulan
eşi benzeri görülmemiş
talep
• Sosyal ve diğer kitlesel
data grupları
Müşteri SıkıntısıSenaryo Çözüm
The storage use cases are broad and broken up into these three main scenarios
Windows Azure storage offers a number of storage capabilities to address these three main scenarios
The storage offers for FY13 will focus mainly on the first bucket: tiered storage, archive and backup & DR
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Slide Objectives:
Explain the differences and relationship between IaaS, PaaS, and SaaS in more detail.
Speaking Points:
Here’s another way to look at the cloud services taxonomy and how this taxonomy maps to the components in an IT infrastructure.
Packaged Software
With packaged software a customer would be responsible for managing the entire stack – ranging from the network connectivity to the applications.
IaaS
With Infrastructure as a Service, the lower levels of the stack are managed by a vendor. Some of these components can be provided by traditional hosters – in fact most of them have moved to having a virtualized offering.
Very few actually provide an OS
The customer is still responsible for managing the OS through the Applications.
For the developer, an obvious benefit with IaaS is that it frees the developer from many concerns when provisioning physical or virtual machines.
This was one of the earliest and primary use cases for Amazon Web Services Elastic Cloud Compute (EC2).
Developers were able to readily provision virtual machines (AMIs) on EC2, develop and test solutions and, often, run the results ‘in production’.
The only requirement was a credit card to pay for the services.
PaaS
With Platform as a Service, everything from the network connectivity through the runtime is provided and managed by the platform vendor.
The Windows Azure best fits in this category today.
In fact because we don’t provide access to the underlying virtualization or operating system today, we’re often referred to as not providing IaaS.
PaaS offerings further reduce the developer burden by additionally supporting the platform runtime and related application services.
With PaaS, the developer can, almost immediately, begin creating the business logic for an application.
Potentially, the increases in productivity are considerable and, because the hardware and operational aspects of the cloud platform are also managed by the cloud platform provider, applications can quickly be taken from an idea to reality very quickly.
SaaS
Finally, with SaaS, a vendor provides the application and abstracts you from all of the underlying components.
Windows Azure offers highly-available Compute capacity that enables you to run application code in the cloud and allows you to quickly scale your applications up or down to meet your customer needs.
Goal for Slides 6 thru 9 is to explain how easy is it to scale up and down based on your capacity needs.
Windows Azure is designed for high availability providing 99.95% monthly SLA with automatic hardware failover .
Windows Azure has datacenters in 8 locations (4 in the USA, 2 in Europe and 2 in the Asia pacific region) which allows us to provide services in 83 countries around the world.
The storage use cases are broad and broken up into these three main scenarios
Windows Azure storage offers a number of storage capabilities to address these three main scenarios
The storage offers for FY13 will focus mainly on the first bucket: tiered storage, archive and backup & DR
Windows Azure lets developers choose the framework and tools they want, with first-class support of .NET, Java, PHP and Node.js. Windows Azure consists of a set of foundational services - let’s take a quick tour, starting with 3 core services: Compute, Data Yönetim and Networking.
Compute:
Windows Azure offers highly-available Compute capacity that enables you to run application code in the cloud and allows you to quickly scale your applications up or down to meet your customer needs. Each Compute instance is a virtual machine that isolates your application from other customers. Once Compute resources are assigned to your application, Windows Azure automatically handles network load balancing and failover to provide continuous availability.
Cloud Services(PaaS): Capture the full benefits of the cloud that quickly scale up or down. Infrastructure Yönetim is all done by Microsoft, so you can focus your resources on building the best app.
Virtual Machines (IaaS): Instantly run your existing applications and infrastructure in a VHD image. You retain full control to configure and maintain the image.
Web Sites: Quickly and easily deploy sites to the cloud with support for multiple frameworks and popular open source applications including WordPress, Drupal, Joomla! and Umbraco.
Data Yönetim:
Storage
The design point is for the cloud is availability of storage, there are 3 replicas of data, and we implement guaranteed consistency. In the future there will be some transaction support and this is why we use guaranteed consistency.
There are 4 types of storage
Tables = Key value store
Queues = a simple queuing mechanism
Blobs = Binary file storage in the cloud
Drives = A mechanism that allows a VHD in a blob to be mounted as an NTFS drive into a Compute role
Authenticated access and triple replication to help keep your data safe
Easy access to data with simple REST interfaces, available remotely and from the data center
Database:
Simple to provision- create a logical server in the Portal, execute a create DB Command to create a new database
Can add and remove DBs easily from application to scale up and down
No need to install or patch software or other physical administration
Automatic high availability and fault tolerance
Support for T-SQL based familiar relational database model
Networking
Windows Azure offers multiple levels of connectivity through Windows Azure Connect and Virtual Networks
Connect
Windows Azure connect is a Windows Azure feature that enables Azure services to connect to on-premise resources in a manner that is secure, quick to setup, and easy to manage. Target audience: developers
Best for simple, scoped connectivity
Easy agent-based installation, set up within minutes
Works through firewall
Granular control over connectivity – “machine to machine”
Virtual Networks
Virtual Network allows enterprises to securely extend their on-premise networks into Windows Azure with complete control over network topology: Target audience: IT & network admins
Provides control, set up and configuration similar to traditional VPN
Allows to bring your IP addresses, DNS etc. to the Cloud
Currently, the IPSec tunnel is through internet
Scalable “Site to site” connectivity
Traffic Manager
Improves app performance and resiliency by automatically routing traffic to the nearest deployed datacenter and provides seem less failover in the event of a failover
Beyond these 3 core services, Windows Azure offers a growing set of additional services to help you bring your application, and your business, to the next level.
CDN:
The Windows Azure CDN provides edge nodes around the world, providing better performance and user experience for users who are farther from the source of the content stored in the Windows Azure Blob service.
Windows Azure Customers have control over how long data is cached.
Windows Azure CDN has 20 locations globally (United States, Europe, Asia, Australia and South America) and continues to expand
Caching:
Windows Azure In Memory Caching service provides high speed access to data that is kept in-memory, instead of relying on slower disk based storage or database.
Allows applications to be architected for easy scale-out scenarios
Provides easy scale up or scale down by allowing you to dynamically increase or decrease the cache size
Integration:
complete message based infrastructure supporting multiple messaging patterns to connect applications and systems in real-time both on Windows Azure as well as between Windows Azure and on-premise systems.
Business Analytics
SQL Server Reporting provided as a service
Reports authored using existing tools (BIDS)
Reports can include rich Data Visualizations (Maps, Charts, Tablix) and exported to variety of formats
Microsoft ‘Big data’ solution comprises of large scale analytics on less structured data like log files, images, video, sensor or device output, and public data via Hadoop services on Windows Azure.
Identity
Windows Azure Active Directory is a modern cloud service providing identity Yönetim and access control capabilities to cloud applications, whether those are Windows Azure applications, Microsoft Office 365, Dynamics CRM Online, Windows Intune or other 3rd party cloud services.
Easily integrate Live ID, Facebook, Yahoo, Google, & Active Directory for application single sign-on.
Media
Media Services enables content companies and solution providers to build end to end media workflows on Windows Azure.
Enhancing existing solutions or creating new workflows, you can easily combine and manage Media Services to create custom workflows that fit every need be it Encoding, Format Conversion, Content Protection, Live Streaming or on demand Streaming.
HPC
You can easily build, deploy and manage scalable, fault-tolerant and high-performing applications seamlessly across on-premise clusters and the Windows Azure.
Commerce
Reach millions of buyers by selling your products and services in Microsoft stores
Make your products and services available within Microsoft in-product experiences
Benefit from Microsoft marketing and merchandising
Developer Languages and SDK
Easy to quickly develop cloud applications with a unified SDK experience, with services and APIs that follow consistent design guidelines across features and capabilities.
Support for client libraries for .Net, Java, php, node .JS and Python
The storage use cases are broad and broken up into these three main scenarios
Windows Azure storage offers a number of storage capabilities to address these three main scenarios
The storage offers for FY13 will focus mainly on the first bucket: tiered storage, archive and backup & DR
The storage use cases are broad and broken up into these three main scenarios
Windows Azure storage offers a number of storage capabilities to address these three main scenarios
The storage offers for FY13 will focus mainly on the first bucket: tiered storage, archive and backup & DR