PengantarTeknologiInformasidanTeknologiHijau ... · PDF filePerawatan tinggi untuk PC client...
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Pengantar Teknologi Informasi dan Teknologi HijauPengantar Teknologi Informasi dan Teknologi Hijau
Suryo Widiantoro, ST, MMSI, M.Com(IS)
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Topics covered1. Cloud computing
2. Virtualization
3. Thin client
4. Smart grid4. Smart grid
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Cara tradisional berkomputerKasus 1:
Mengerjakan file
Menyimpan file
Kasus 2:
• Unduh program
• Install program
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Menyimpan file
Komputer crash, file hilang
• Install program
• Jalankan program
Cloud .. computingCloud
Sumberdaya atau layanan yang dibutuhkan melalui internet dimana pusat datanya dapat diandalkan
Cloud computing
Gaya berkomputer dengan skala ukuran dinamis dan biasanya dengan sumberdaya divirtualisasikan yang disediakan sebagai layanan melalui jaringan internet
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Pengguna tidak perlu memiliki pengetahuan atau pengalaman atau pengendalian atas infrastruktur teknologi pada “cloud” yang mendukungnya
Contoh: Wordpress
Cloud pengguna tinggal daftar, setting wordpress, lalupakai
Manual pengguna download wordpress, sewa hosting, atur settingan hosting, upload dan install wordpress, setting wordpress, baru pakai
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Karakteristik cloud computing1. Virtual perangkat lunak, basisdata, web server,
sistem operasi, storage dan networking diatur secaravirtual
2. On-demand dapat menambahkan ataumengurangi kapasitas prosesor, memori, bandwidth network, storage
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CLOUD COMPUTING
APPLICATIONS:
Web application
Peer-to-peer
SaaS
CLIENTS:
Thin client
Thick client
PLATFORMS:
Web hosting
Web-app COMPUTING Thick client
Mobile devices
INFRASTRUCTURE:
Virtualization
Grid computing
IaaS
Web-app frameworks
PaaS
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Applications - Software as a ServiceThe applications segment of cloud computing represents
the applications that are accessed via the cloud. It is often referred to as software-as-a-service (SaaS)
Populer dengan cepat di kalangan pengusaha kecil dan Populer dengan cepat di kalangan pengusaha kecil dan menengah
Tidak memerlukan perangkat keras dan perangkat lunak yang harus dikelola
Layanan diberikan melalui aplikasi browser
Contoh: Google Mail, Salesforce.com, CRM, HRD, dll.
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ClientsA cloud client is computer hardware and/or computer
software which relies on the cloud for application delivery, or which is specifically designed for delivery of cloud servicescloud services
Contoh software client adalah web browser sepertiFirefox, Chrome
Contoh hardware client adalah Nokia’s Internet Tablet N900, Apple iPhone atau Netbooks
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Platforms - Platform as a ServiceA cloud platform is the delivery of a platform within
which to run applications as a service. It is often referred to as platform-as-a-service (PaaS)
Platform dibangun di atas infrastruktur, yang biasanya Platform dibangun di atas infrastruktur, yang biasanya mahal
Manajemen platform yang meliputi hardware dansoftware bukanlah hal yang mudah
Layanan populer: storage, database
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Storage
Cloud based storage is the exposure of storage services on the cloud.
One such storage service provider is the end-user One such storage service provider is the end-user focused Dropbox
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Infrastructure - Infrastructure as a ServiceCloud infrastructure is the delivery of computer
infrastructure (typically a platform virtualization environment, but not necessarily) as a service. It is often referred to as Infrastructure-as-a-Service (IaaS)
Akses ke infrastruktur:
Akses penuh sistem operasi
Firewalls
Routers
Menyeimbangkan beban
Contoh: Flexiscale
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Faktor kesamaan
1. Bayar per penggunaan
2. Skalabilitas secara instan
3. Keamanan
SaaS
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3. Keamanan
4. Kehandalan
IaaS
PaaS
Keunggulan layanan
1. Biaya kepemilikan yang rendah2. Mengurangi tanggung jawab
pengelolaan infrastruktur
SaaS
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pengelolaan infrastruktur3. Memungkinkan beban sumberdaya
yang tidak terduga4. Rollout aplikasi lebih cepat
IaaS
PaaS
Nilai ekonomis
1. Virtualisasi mengurangi biaya dengan meningkatkan utilisasi
2. Economies of scale dapat tercapai
SaaS
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2. Economies of scale dapat tercapai melalui teknologi
3. Kebijakan update secara otomatis
IaaS
PaaS
Faktor resiko
Keamanan Downtime Akses
SaaS
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Akses Ketergantungan Interoperabilitas
IaaS
PaaS
Benefits of cloud computing1. Enables users to effectively outsource much of the
non-strategically sensitive operations to external third parties so they can focus on other truly strategic operationsstrategic operations
2. Liberates users so that no longer are they tied to using personally owned programs stored on personal computers/servers
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CC as Green IT initiative Cloud computing’s potency as a Green IT initiative is
often attributed to one single underlying enabling technology: Virtualization
Virtualization is largely responsible for cloud Virtualization is largely responsible for cloud computing’s direct and indirect impacts on emissions of green house gasses
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Direct impactThe direct impact of cloud computing relates to the
reduction in CO2 emissions directly based on its usage
reductions in privately owned hardware and higher utilisation of cloud resourcesutilisation of cloud resources
leveraging of ‘cloud based’ centralised third parties who are capable of providing IT capabilities as a service to masses of customers
drop in global electricity consumption attributed to powering the hardware as well as that attributed to cooling the hardware
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Systemic/social impact Due to the diminished requirement to sit in front of a
desktop at work, etc the necessity of commuting to work every day diminishes, as does the need to live in high density citieshigh density cities
Burden on our streets and public transport diminishes, and the CO2 emission reductions follow
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Early history During the 1960s and 1970s IBM had pioneered
virtualization as a rationing device within their mainframes
- the large processing capacity of mainframes were divided - the large processing capacity of mainframes were divided up using virtualization into smaller virtual machines.
This method of carving up the processing capacity of the mainframes allowed it to perform multiple functions at once
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Throughout the 1980s and 1990s while the client/server paradigm dominated, virtualization was rarely used.
- instead, enterprises commonly opted for a one server per - instead, enterprises commonly opted for a one server per application model to divide up their total processing capacity, mitigate risk to ensure business continuity
Seiring dengan pemikiran efisiensi energi maka konsep virtualisasi mulai marak diterapkan kembali (2000)
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Impact of client/server paradigm1. Tingkat penggunaan CPU rendah
HP Laboratories: 1,000 servers were using just 10-35% of processing power. IBM: average capacity utilisationof desktop computers was just 5%. All of this wasted capacity still requires power and cooling.capacity still requires power and cooling.
2. Tingkat penggunaan listrik tinggiIDC: server operating at 10% utilisation requires same
power and cooling as server operating at 75% utilisation. For every $1.00 of capital expenditure on new servers, enterprise spends $0.50 on power and cooling.
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3. Peningkatan biaya perawatan dan infrastruktur fisik
4. Pengurangan tingkat kegagalan dan opsi pencegahan bencana
5. Perawatan tinggi untuk PC client5. Perawatan tinggi untuk PC client
6. Biaya pendingin yang tinggi
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Virtualization: konsep dasar
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Abstraksi dari sumberdaya komputer – teknologi yang mendasari semua arsitektur cloud
Dengan kemampuan untuk memvirtualkan server, maka storage, peralatan, desktop, aplikasi dan maka storage, peralatan, desktop, aplikasi dan sumberdaya komputer lain dapat dialokasikan sesuai kebutuhan
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Benefits of virtualization1. Higher CPU utilisation due the ability to now consolidate
virtual machines to fewer physical machines2. There is likely to be lower physical infrastructure and
maintenance costs due to a reduction in the amount of power consuming units
3. Improved failover and disaster protection options due to the 3. Improved failover and disaster protection options due to the decoupling of software and hardware. Virtualization enables entire virtual machines being backed up and recovered rather than individual files on those servers
4. Lower power usage due to both consolidation of hardware and the possibility of building dynamic infrastructure with highly elastic power consumption patterns
5. Lower cooling costs once again due to consolidation of hardware
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Konsep Dasar Thin ClientTidak perlu menjalankan semua aplikasi
secara lokal pada PC (Thick Client) dengan segala biaya dan permasalahannya, namun segala biaya dan permasalahannya, namun cukup menjalankan aplikasi secara terpusat dengan menampilkan layar update dan input pada thin client
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The earlier term “dumb terminals” that could only handle simple text entry and display with no mice.
These dumb terminals communicated directly to the central mainframe for almost everything they did.central mainframe for almost everything they did.
All the data and processing stayed in the computer room away from user’s desks - all the user saw was the display of a Windows computer as if it was running on their PC just like normal
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Centralising servers and server support leads directly to higher utilisation levels, which reduce costs and environmental impact
No remote servers, no desktop configuration, no need No remote servers, no desktop configuration, no need to redesign and integrate e-mail architectures. In many cases, the end-user can connect the device and be working within minutes, without doing any configuration themselves
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Komparasi Thin vs ThickThin client lebih unggul karena kecil, ringan dan hanya sedikit menggunakan:
1) Material → plastik dan metal
2) Energi (kWH) → pada saat diproduksi dan 2) Energi (kWH) → pada saat diproduksi dan digunakan
3) Menghasilkan sedikit buangan (CO2 dan material solid) → pada saat diproduksi, digunakan dan dibuang
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Karakteristik Thin Client Dirancang supaya berbentuk praktis
Menggunakan server khusus untuk memproses semua perintah dan menjalankan semua aplikasi
Bebas virusBebas virus
Tidak membutuhkan perawatan atau upgrade secara berkala
Mudah dikelola dan mengurangi biaya TI
Semua data penting tersimpan di satu server sehingga mudah diback-up
Mengurangi kemungkinan downtime
Lebih murah daripada PC biasa
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Potensi Kelemahan Thin Client1. Biaya cukup tinggi untuk pengadaan server dan
instalasinya
2. Butuh bandwidth lebih besar; multimedia berjalan lebih lambatlebih lambat
3. Tidak memungkinkan instalasi perangkat lunak yang dibutuhkan segera
4. Harga PC semakin turun; pengguna butuh komputer dengan kemampuan tinggi
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5. Users will generally not have access to floppy and CD/DVD drives although it is technically possible through USB pass through
6. A server failing will affect everyone connected to that 6. A server failing will affect everyone connected to that server
7. In the past thin client was not suitable for users using highly graphical Environments such as CAD (computer aided designed)
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Browser-based applications Although you may not have considered it, many of the
websites we use today are in effect thin client applications
New technologies such as Ajax are being developed to help make using applications in a web browser as interactive as make using applications in a web browser as interactive as normal applications installed onto your computer
Most new line of business applications either have browser support or have moved completely over to being browser-based
It’s almost as if the browser (Internet Explorer, Firefox, Chrome, Safari etc.) has become the operating system in which applications can run
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Thin clients for Green IT1. The first and most obvious environmental element of a
Thin Client is that it is energy efficient
2. Typically a Thin Client uses 10% of an average PC. Thin Clients’ power consumption can range from 2 Watts to 30 Watts but average around the 15 WattsWatts but average around the 15 Watts
3. thin clients are smaller, lighter and less complex they require less raw materials in the form of metals and plastics, which reduces the embedded carbon
4. longevity thin clients should last twice as long as PC’sbecause they have no moving parts, are left on less and software functionality can be improved by upgrading the back end server rather than the front end terminal
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power is generated in large centralised power stations and distributed to the consumer via a series of wires called an Electrical Grid, Power Grid, or shortened to just “The Grid”just “The Grid”
a chronic underinvestment in transmission and distribution infrastructure
impact of this long term underinvestment has resulted in a grid, which lacks efficiency, flexibility, reliability, resilience, viability/transparency, and ability to control costs
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Permasalahan yang dihadapi1. Tidak efisien
Kebocoran transmisi
2. Tidak sejalan dengan tantangan modern
Tidak ada solusi penghematan energi Tidak ada solusi penghematan energi
Daya yang dihasilkan terbatas
SOLUSI : Perlu adanya jaringan yang lebih SMART
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Penggabungan Infrastruktur
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Menjadi smart grid
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What is smart grid?A smart grid is an electric network that can intelligently
integrate the behaviour and actions of all users connected to it - generators, consumers, and those that do both - in order to efficiently ensure sustainable, economic, and order to efficiently ensure sustainable, economic, and secure electricity supply
A Smart Grid uses digital technology to improve reliability, security, and efficiency of the electric system: from large generation, through the delivery systems to electricity consumers and a growing number of distributed generation and storage resources
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Komponen smart gridSmart grid memiliki dua komponen utama:
1) Konektifitas jaringan internet
2) Perangkat sensor dan pengukuranPerangkat sensor dan pengukuran
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Added green power sources
High-speed, networked
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Plug-in hybrid electric cars
Smart thermostats, appliances and in-home control devices
Real-time and green pricing signals
networked connections
Customer interaction with utility
http://www.worldchanging.com/smarthouse.jpg
Contoh penerapanAustin, Texas, 1st Smart Grid di US
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Smart gridAplikasi teknologi informasi digital untuk mengoptimasi pembangkitan, pendistribusian dan penggunaan energi listrik1. Self-healing dan adaptif2. Interaktif, dengan pelanggan2. Interaktif, dengan pelanggan3. Teroptimasi, penggunaan sumberdaya & perangkat lebih
baik4. Prediktif, dapat diperkirakan untuk pencegahan5. Terdistribusi, lintas daerah6. Terintegrasi, untuk pengawasan, pengendalian,
perlindungan, perawatan7. Lebih aman, dari serangan
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Self-healingKewaspadaan dan reaksi yang seketika (real-time) terhadap masalah yang dihadapi oleh sistem
Teroptimasi
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TeroptimasiMeningkatkan pembangkitan dan pendistribusian listrik:
Pembangkitan listrik yang lebih efisien
Jalur distribusi listrik yang dapat diandalkan
InteraktifPelanggan dapat mengawasi dan mengendalikan
“perangkat pintar” “perangkat pintar” untuk mengelola
penggunaan energi dan mengurangi biaya
listrik
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Menghindari Serangan Pemantauan jalur listrik secara real-time
Identifikasi dan respon terhadap gangguan yang disebabkan oleh manusia
Mengisolasi area yang terpengaruh dan mengarahkan Mengisolasi area yang terpengaruh dan mengarahkan ulang aliran listrik untuk menghindari fasilitas yang rusak
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Objectives of smart grid1. Ensure the reliability of power supply to levels not
achievable before.
2. Maintain the affordability of electricity.
3. Reinforce a nations’ / regions’ global competitiveness.3. Reinforce a nations’ / regions’ global competitiveness.
4. Enable the accommodation of renewable and traditional energy sources.
5. Potentially reduce a nations’ / regions’ greenhouse gas emissions.
6. Facilitate advancements and efficiencies yet to be envisioned
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Manfaat smart grid1. Mengintegrasikan teknologi untuk mengelola energi
lebih baik
2. Manajemen jaringan listrik yang proaktif
3. Manajemen respon demand/supply yang lebih baik3. Manajemen respon demand/supply yang lebih baik
4. Kualitas listrik yang lebih baik
5. Mengurangi emisi karbon
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Kelemahan smart grid1. Insfrastruktur saat ini belum layak
2. Perlu biaya tinggi untuk implementasi
3. Sumberdaya terbarukan lainnya tidak dapat diandalkan untuk mengamankan supply energidiandalkan untuk mengamankan supply energi
4. Peraturan dan kebijakan yang berkaitan dengan dampak smart grid
5. Pelaksanaan grid: pemantauan dan pengendalian
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