4. Cloud Computing
• A model for enabling convenient, on-demand network access to
a shared pool of configurable computing resources (e.g.,
networks, servers, storage, applications, and services) that can
be rapidly provisioned and released with minimal management
effort or service provider interaction
5. Conventional vs Cloud Computing
Conventional:
•Manually Provisioned
•Dedicated Hardware
•Fixed Capacity
•Pay for Capacity
•Capital & Operational
Expenses
•Managed via Sysadmins
Cloud:
•Self-provisioned
•Shared Hardware
•Elastic Capacity
•Pay for Use
•Operational Expenses
•Managed via APIs / self
service portal
6. 5 Key Cloud Computing Attributes
• Shared / pooled resources
• Broad network access
• On-demand self-service
• Scalable and elastic
• Metered by use
8. Three Service Delivery Models
• IaaS: Infrastructure as a Service
Consumer can provision computing resources within provider's
infrastructure upon which they can deploy and run arbitrary
software, including OS and applications
• PaaS: Platform as a Service
Consumer can create custom applications using programming
tools supported by the provider and deploy them onto the
provider's cloud infrastructure
• SaaS: Software as a Service
Consumer uses provider’s applications running on provider's
cloud infrastructure
11. Deployment Model
• Private Cloud
The cloud infrastructure is provisioned for exclusive use by a single
organization comprising multiple consumers (e.g., business units).
premises
• Community Cloud
The cloud infrastructure is provisioned for exclusive use by a specific
community of consumers from organizations that have shared
concerns
• Public Cloud
The cloud infrastructure is provisioned for open use by the general
public
• Hybrid Cloud
The cloud infrastructure is a composition of two or more distinct
cloud infrastructures (private, community, or public)
12. Deployment Model
Private On-
premise
(Customer)
Public
External
Private
(Service Provider)
Hybrid
Cloud Provider
Share infrastructure
accross different users
Inexpensive and easy to
setup
Service & infrastructure
provided publlicly for multiple
client. Most economical
solution, but security and
compliance concerns.
Does not share
infrastructure
Mission critical workload,
security, uptime, etc
The hosting infrastructure is
provided exclusively for one
customer (either locally or at en
external provider). Most
expensive solution for security
requirements.
Data residence based on
classificaiton
Dynamic and highly
changeable workload
Customized combination of
private and public cloud
services. Most flexible system,
but difficult to implement.
25. Top 5 Benefits of Cloud Computing
for Smart City
1. Faster time to market
2. Cost saving
3. Faster access to new technology / resources
4. High performance infrastructure
5. Better scalability
27. Top 5 Questions
• Unauthorized access to customer and business data
• Security risks at the vendor
• Compliance and legal risks
• Risks related to lack of control
• Availability risks
28. How to Choose Cloud Computing
Vendor
• Reputation
• Service Level Agreement (SLA)
• Learn their technologies & infrastructure
• Perform a risk assessment and assess the compliance
• ISO 27018 – Cloud Privacy Protection
• ISO/IEC 19086-1:2016 Cloud Service Level Agreement Framework
• The Health Insurance Portability and Accountability Act (HIPAA)
• Etc
• Local Regulation (PP82)
30. GO-JEK provides transport,
logistics and payment services to
25 cities in Indonesia using
Google Cloud Platform
From January 2015 to March 2016, we completed 100
million orders, including 15 million food deliveries,” says
Jakubowski. “We have more than 250,000 drivers, more
than 100,000 restaurants and over 7,000 other service
providers.” The business provides services in 15 industry
verticals and is the market leader in 13 of them. In 2016,
GO-JEK launched GO-PAY, which quickly became one of
the leading digital wallet services in Indonesia.
31. Smart Parking’s core product is a sensor-based system
called SmartPark, used in environments such as
shopping centres, airports, commercial parking
operations, universities, and municipal streets.
Smart Parking has deployed over 50,000 sensors
worldwide to support parking systems. It estimates at
least 70% of production-scale and currently operating
smart parking environments globally are using its
technologies.
Built core infrastructure in under 4 months
32. With Google Cloud
Platform, Qlue
delivers a range of
Smart City
applications that
improve the lives of
residents in
Indonesian cities.
500K downloads, 90K users, 4K incident reports daily
Qlue needed a platform to help run these functions and scale to support increasing
loads on its web services and database systems due to expansion into more
domestic and international cities. The need to scale without investing up to
US$200,000 up-front ruled out the purchase of servers, storage, networking, and
associated systems. The cloud was the only option.
33. The platform lets the 28 million citizens of Jakarta share real-time flood information in a part of the
world increasingly affected by flooding. In addition to the collection and dissemination of information
by community members through location-enabled mobile devices, researchers can complement
existing manual water gauges with water-level-sensing devices to inexpensively increase monitoring
across the waterway network in Jakarta.
34. E-Vehicle Charging Stations
Powered by Microsoft Azure
Cloud Services
Deployed at each charging station as an IoT
gateway is Advantech’s UTX-3117 fanless
computer
Azure IoT Hub is an easy-to-use, secure, and
reliable tool for connecting edge devices to the
cloud.
35. Intelligent Fleet/Logistics
Management Based on Azure
Cloud ServicesAdvantech’s in-vehicle computers
provide an IoT gateway t
Microsoft’s Azure Stream Analytics
is another cloud service that can
help companies by streamlining
their dataflow at the network edge
36. Are you ready to cloud?
Join us!
https://www.acci.or.id/register