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Get to Know More About Cloud Computing Technology - FIND IT Universitas Gajah Mada
1. Get To Know More About Cloud
Computing Technology
Sutedjo Tjahjadi
Managing Director,
Datacomm Cloud Business
April 28th 2019
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2. Agenda
• Digital Transformation & Making Indonesia 4.0
• Introduction to Cloud Computing and Future Trends
• Datacomm Cloud Business Overview
• Preparing yourself to Capture Opportunities at Digital Era
UGM FIND IT Seminar
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4. Industry Revolution
• REVOLUSI INDUSTRI 1.0
1760 -1840 di Inggris Raya terjadi perubahan proses manufaktur dari tenaga manusia ke
mesin akibat dari ditemukannya tenaga uap oleh Ilmuan
• 1764 - James Watt menemukan mesin uap
• 1783 – Marquis de Jouffroy menemukan mesin uap penggerak kapal
• 1804 – Richard Trevithick menemukan lokomotif uap pertama
Dampak yang terjadi adalah terjadinya pengangguran masal, demonstrasi masal menuntuk
penyediaan tenaga kerja, tenaga mesin menjadi jauh lebih murah.
• REVOLUSI INDUSTRI 2.0
• 1870 – 1879 Thomas Alva Edison menciptakan telegraf pita kertas dan lampu
• 1908 Henry Ford mengubah pabriknya dengan menggunakan ban berjalan sehingga
biaya produksi menjadi lebih murah dan bisa menurunkan harga hingga 300 %, Ford
menguasai pasar akibatnya banyak pabrik mobil tutup karena kalah bersaing.
• 1930 – Industri mobil turun drastic dari 250 perusahaan menjadi 20 perusahaan saja.
History
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5. Industry Revolution
• REVOLUSI INDUSTRI 3.0
• Dimulai dengan penemuan di bidang telekomunikasi dan komputer.
• 1970 ditemukan PLC (Programmable Logic Controller) yang bisa membuat mesin
industry berjalan sendiri dan biaya produksi menjadi lebih murah.
• Ditandai perubahan dalam industri music, dengan lahirnya music digital yang cepat
menguasai pasar.
• Terjadi juga dalam dunia photography, menggambil gambar dan berbagi bisa
dilakukan dengan mudah, tidak diperlukan kertas film sebagai media
• REVOLUSI INDUSTRI 4.0
• Dimulai Transformasi Digital tahun 2000, mesin-mesin yang menggunakan operator
diganti oleh mesin – mesin fully automatic sehingga hanya sedikit membutuhkan
tenaga manusia.
• Penjaga pintu parkir dengan e-parking
• Google dalam menggembangkan ‘self driving car’ sehingga tidak memerlukan
tenaga manusia dalam berkendara
History
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8. Market Overview
Focused Technologies In Indonesia Industry 4.0 Roadmap
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Implementing the roadmap will generate new opportunities in automation and robotics,
IoT, advances production methods, human machine interface and AI
Source : Ministry of Industry, Press Release, Business Sweden Analysis
Internet of Things Robotics and
Automation
Big Data and
Cloud Computing
Human Machine
Interface
Advanced
Production Method
13. The Roadmap
10 Prioritas Nasional
• Perbaikan alur aliran barang dan material
• Desain ulang zona industri
• Mengakomodasi standar-standar
keberlanjutan
• Memberdayakan UMKM
• Membangun infrastruktur digital nasional
• Menarik minat investasi asing
• Peningkatan kualitas SDM
• Pembangunan ekosistem inovasi
• Insentif untuk investasi teknologi
• Harmonisasi aturan dan kebijakan
Focus Sectors & National Initiatives
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14. The Opportunities
SME IT adoption is the lowest
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Source : Asia Cloud Computing Association, The Market for Cloud Computing 2015
15. Market Overview
Key Drivers & Challenges for Industry 4.0
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Source : Ministry of Industry, Press Release, Business Sweden Analysis
Challenges Drivers
Infrastructure
Lack of necessary digital infrastructure
and cloud solution to support new tech
Labor
Lack of skilled labor
combined with low productivity
Local SME’s
Local SME's with limited
technological adoption
Funding
Government funding will likely continue to be insufficient
to meet the increasing need to invest in new tech
Up-Mid Stream Industry
High dependency on imported raw material
for manufacturers
Population
Large population and growing middle class
driving up domestic demand
Economy
Indonesia is the largest economy in ASEAN
with robust economic growth
Government Initiatives
Ambitions initiatives form government
to boost the growth of the manufacturing sector
Labor Cost
Competitive labor cost within
the manufacturing sector attracts foreign investors
Natural Resources
Rich in natural resources to support
the grwoth of the domestic raw material processing facilities
17. What is Cloud Computing
Definition
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The practice of using a network of
remote servers hosted on the
internet to store, manage, and
process data; rather than a local
server or a personal computer (PC).
25. Cloud Computing – The Future
Serverless Computing
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Bare Metal
Server
Bare Metal
Server
A B
Bare Metal Server
VM VM VM
A B
Bare Metal Server
VM VM
Container
Engine
A B
Bare Metal Server
VM VM
Container
Engine
FaaS Runtime
A B A
Time
Sharing
Dedicated Server Virtualization Containerization Serverless
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28. Company Overview
Datacomm Cloud Business
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ABOUT
PT. Datacomm Diangraha business division focusing on
Cloud opportunity in Indonesia. Our philosophy are
Enterprise, Secure and Local.
PRODUCTS
Sentriciti – Security as a Service (SecaaS)
Cloudciti – Cloud Services (XaaS)
Datacomm Azure Stack – Hybrid Cloud
Datacomm Datacenter Federation - Colocation
WHY US?
We are backed up by +28 years experiences and +500
people. We have strong financial commitment, invested in it
owns local Data Center. We also certified by international
standard: ISO 9001, ISO 27001 and ISO 20000.
30. Infrastructure & Facilites
Datacomm Cloud Business
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Local Support and Data center location
24x7 Help Desk Support Center
24x7 Network Support Center
24x7 Security Desk Support Center
Rated 3 Constructed
Facilities
by TIA-942
CERTIFIED
DCOS Maturity 4
by TIA-942
CERTIFIED
ISO 9001:2008
CERTIFIED
ISO 27001:2013
CERTIFIED
ISO 20000:2011
CERTIFIED
PCI-DSS
CERTIFIED
31. Datacomm Datacenter Federation
Datacomm Cloud Business
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– Multiple Geographic Locations
– Certification – Rated-3 TIA-942 & PCI-DSS
– Operation Data Center – ISO 20000 & DCOS
– High Capacity Connectivity to Local Internet
• International Cloud Exchange Connectivity
• Clean Internet Protection – DDoS Protection
Service
• Cyber Security Service optional protection
32. Apa Itu Cloud Computing ?
Contoh Aplikasi
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Primagama
34. Peluang Masa Depan
Key Technology Trends by 2020
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Artificial
Intelligence
Cloud
Computing
The
Internet of
Things
Wearable
APIs
Security
Robotics
Virtual
Reality
35. Peluang Masa Depan
Profesi yang dibutuhkan di masa datang
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Database Administrator
Software Developer
Web Application Developer
Computer Systems Analysts
Mobile App Developers
Market Research Analysts
Information Security Analysts
37. Entrepreneurship Mindset
What is the requirement?
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KomunikasiKepercayaan Diri & DeterminasiVisi & Misi Manajemen Keuangan
Kreatifitas & Inovasi Berani Mengambil Resiko Pengendalian kegagalan
40. The Serverless Evolution
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Bare Metal Server
A
Bare Metal Server
BDedicated Server
Bare Metal Server
VM VM
A B
Virtualization
Bare Metal Server
VM VM
Container
Engine
A BContainerization
Bare Metal Server
VM VM
Container
Engine
FaaS Runtime
A B A
Time
Sharing
Serverless
1
2 3 4
Editor's Notes
This is the first page. You can change the text into anything that suit your need.
Definisi Human Machine Interface : http://iarc.weebly.com/hmi-design.html
DESKRIPSIHuman Machine Interface (HMI) adalah sistem yang menghubungkan antara manusia dan teknologi mesin. HMI dapat berupa pengendali dan visualisasi status baik dengan manual maupun melalui visualisasi komputer yang bersifat real time. Sistem HMI biasanya bekerja secara online dan real time dengan membaca data yang dikirimkan melalui I/O port yang digunakan oleh sistem controller-nya. Port yang biasanya digunakan untuk controller dan akan dibaca oleh HMI antara lain adalah port com, port USB, port RS232 dan ada pula yang menggunakan port serial. Fungsi HMI1. Memberikan informasi plant yang up-to-date kepada operator melalui graphical user interface2. Menerjemahkan instruksi operator ke mesin3. Memonitor keadaan yang ada di plant4. Mengatur nilai pada parameter yang ada di plant5. Mengambil tindakan yang sesuai dengan keadaan yang terjadi6. Memunculkan tanda peringatan dengan menggunakan alarm jika terjadi sesuatu yang tidak normal7. Menampilkan pola data kejadian yang ada di plant baik secara real time maupun historical (Trending history atau real time).
In case of dedicated servers applications (A,B) are deployed on physical servers. In consequence, the servers are often over dimensioned and have inefficient utilization rates.
Machine virtualization is mainly used to consolidate and isolate applications on virtual machine instead of dedicated servers. This increases the application density on bare metal servers but the virtual machine image (deployment unit) are very large.
To pragmatically operate more than one application per virtual machine, containerization established as a trend. A container starts faster than a virtual machine and shares the operating system with other containers, thus reducing deployment unit sizes and increasing application density per virtual machine.
But container still requests a share of CPU, memory, and storage - even if the provided service is hardly requested. it is more resource efficeint, if services would consume resources only if there are incoming requests, FaaS runtime environments enable that services can timeshare a host, however, this involves to follow a serverless architecture style.
Machine virtualizationis mainly used to consolidate and isolate applications that otherwise would have been deployed to dedicated servers. This increases the application density on bare metal servers but the virtual machine image (deployment unit) are very large. However, this application can stay untouched. If this model is provided as a cloud service it is called infrasturcture as a service (IaaS).
To pragmatically operate more than one application per virtual machine, containerization estabilished as a trend (docker). A container starts faster than a virtual machine and shares the operating system with other containers, thus reducing deployment unit sizes and icreasing application density per virtual machine. But the application should follow cloud architectural styles (like 23 factor app, microservices) to fully leverage the opportunities.
But container still requests a share of CPU, memory, and storage - even if the provided services is hardly requested. It would be more resource efficient, if services would consume resources only if there are incoming requests. This is waht FaaS runtiem environments provide. So, services can timeshare a host, thus further increasing application density per host. However, this involves to follow a more rich client architecture model for the user-interface and a service-composed-of-functions approach for services.