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Choosing Data Center For Financial Services in Indonesia
The financial services industry is multiplying in Indonesia, and you have several business opportunities. You can take advantage of them by choosing the right data center for your operations. In this post, we will discuss how to select a data center in Indonesia and what factors you should consider before making your decision.
Data Center Indonesia
Data Center Indonesia is a data center provider in Indonesia. They have many data center options available, and their reputation is good, with good customer service to back it up. Data Center Indonesia offers high-quality services that are fully customizable for your needs.
Their facilities are designed and built to meet various requirements, including availability and security. They are also able to provide solutions that fit your budget. Data Center Indonesia has 24 hours monitoring system for the data center with CCTV cameras, fire detection systems, and access control systems.
The reasons why you want to choose a data center for your financial services
The reasons why you want to choose a data center for your financial services:
Security. The data center provides a secure environment protected from physical damage, natural disasters, and unauthorized access.
Availability. The servers are accessible 24 hours a day, seven days a week, so you can access the information anytime you need it. Without interruption in service due to maintenance or other issues related to hosting providers' network reliability (e.g., power outage).
Reliability - The bandwidth provided by the Internet Service Provider (ISP) will guarantee high-quality connectivity between your systems and customers' systems through their network infrastructure, including routers and switches installed within ISP's premises as well as on each client site where several ISPs may be present simultaneously providing redundancy in case one fails unexpectedly during peak usage times such as holidays season when many people go online shopping during Christmas Eve midnight sale event held annually by some leading retailers like Amazon Prime Day Sale Day which usually happens around July 15th every year since 2015 when it started first time back then until now there hasn't been any significant change yet except maybe some minor tweaks here & there, but nothing important enough where we need worry about losing everything due re-installation process takes too long time frame so instead just make sure everything gets done right away before anything happens again!
How to choose a data center in Indonesia?
When choosing a data center, the location is the most critical factor. The closer it is to your customers, the better.
In addition to location and price, you should also consider your data center provider's power supply, network connectivity, and security.
If redundancy is essential for you (e.g., if you need failover), make sure that both providers offer this feature in their packages so that if one goes down or experiences an outage during maintenance work. Another can take over seamlessly without any impact on services provided by them.
Tips on how to choose Data Center for financial services in Indonesia.
When choosing a data center for your financial services business, there are several factors to consider. The location of the data center is essential because it can affect how fast you can access your servers and how much bandwidth they will use. An ideal location would have good internet connectivity, but if there's no other option available, don't worry too much about it! If there are multiple suitable locations nearby, pick one with reasonable security measures in place--you want to avoid someone gaining access to your servers by walking right through their front door!
The power backup system is another important consideration because it ensures that any downtime due to an electricity outage won't affect your business operations or customer satisfaction levels (and, like this, lead them away from doing business with you). For example: if we installed no power backup at our hypothetical financial services company's office building, then we'd have no way of keeping our computers running during those times. When there wasn't any electricity from outside sources such as solar panels or wind turbines (which could happen frequently depending on where exactly "here" happens
to exist). In addition to making sure that these systems are adequately maintained so as not to cause any damage themselves over time due to lack of maintenance efforts being put forth on behalf of their owners' part(s); these components also need regular checkups done periodically throughout each year so as ensure proper functionality remains intact throughout those twelve months' worth span between checks being performed regularly rather than sporadically only every few years--which would mean missed opportunities could occur during those interim periods without anyone knowing until after they've already occurred which means less chance
Choosing Data Center For Financial Services in Indonesia
Choosing a data center for your financial services is a challenging task. It's crucial to consider many factors before making your decision. To help you out, we have prepared this guide on choosing the best data center for your business.
Data Center Indonesia has been operating since 2012. It has grown into one of the most respected names in the industry, with customers ranging from small startups to Fortune 500 companies such as Google and Microsoft. Two former engineers started the company from Facebook and saw an opportunity to provide a better service than what was currently available in Indonesia. Today, they operate four locations across Jakarta (East Jakarta), Bandung (West Java), Surabaya (East Java), and Bali. They provided both colocation space and managed to host services through their facilities or third parties such as Amazon Web Services (AWS).
Read more about The Ideal Disaster Recovery Center For Large-Scale Business.
Conclusion
In conclusion, choosing Data Center For Financial Services in Indonesia takes much work. Before making any decisions, you must know all the details about this service and how it works. Data centers are essential because they protect against disasters and other emergencies that could harm your data. However, there are some things that you should consider before hiring one of these companies or investing money in one yourself:
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Digital Transformation Benefits for Green Data Centers
Many companies see digital transformation benefits in the industry as they strive to transform their business processes into digital organizations. Data centers are not immune to these changes and are becoming more integrated with the digital transformation benefits. A green data center is a data center that is environmentally responsible and has a reduced impact on its surroundings.
Green data centers will get more digital transformation benefits amidst the increasing energy crisis and climate change. All data center users will switch to green data centers.
Let's break it down.
Why Can Green Data Centers Get More Digital Transformation Benefits?
Digital transformation affects companies of all sizes, industries, and geographies; it impacts every business sector, from financial services to retail, healthcare, and telecommunications.
When we talk about digital transformation benefits, it is not only about saving money or increasing efficiency. Green data centers also help IT companies build a positive brand image. The reason is that IT companies are no longer just selling products or services; they are developing sustainable solutions for customers with a clear social impact.
Digital transformation benefits can be found in green data centers because it allows them to grow with the company's changing needs. A green data center will allow for future expansion without having to deal with the drawbacks of a traditional one. A green data center will be able to support new technologies quickly, as well as give flexibility to the employees who work there.
Green data centers get more digital transformation benefits than their traditional counterparts.
An energy-efficient data center can help reduce costs throughout your organization by cutting down on power consumption and operating more efficiently than less eco-friendly models.
Green data centers are more successful at their mission, and there are many of data to back it up. A recent study by the Ponemon Institute showed that companies operating green data centers have a 42 percent greater likelihood of attaining digital transformation success than companies that don't.
They've achieved cost savings 30 percent greater than non-green data centers.
They're experiencing revenue growth 30 percent greater than non-green data centers.
The green data centers they operate are more competitive in the marketplace.
They'll ensure that your technology is always running at peak performance while also helping you save money. Their green data centers use around 30% less energy than regular facilities, and they're resilient enough to keep up with any fluctuation in your power needs.
It means that they'll be able to handle any change in load or any other changes in your IT requirements, so you won't have to worry about having an insufficient or overworked system that doesn't perform as well as it should.
Everyone Switches to Green Data Center
Green data centers are the future, and sooner than we think. Over the last few years, there has been a growing demand from companies and governments to switch from traditional data centers, which use immense amounts of energy to power their servers and cooling systems, to green ones.
The benefits of green data centers in comparison to traditional ones are well known: they help reduce carbon footprint and also increase the ROI of the organization. But currently, there is one more benefit of switching to green data centers that are rarely discussed: they can help accelerate digital transformation initiatives.
In a digital world, technology is rapidly changing. Organizations are transforming themselves into digital companies by integrating technology with every aspect of their business to stay on top of the competition. Following this shift, businesses need a more efficient way to use their resources—and most importantly, data center resources—to stay ahead of their competitors. This is where green data centers come in handy for organizations that want to get ahead with their digital transformation initiatives.
Read more about Green Data Center Brings Efficiency to Digital Business.
Conclusion
Many companies are seeing digital transformation benefits in the industry as they strive to transform their business processes into a digital organizations. Data centers are not immune to these changes and are becoming more integrated with the digital transformation benefits.
A green data center is a data center that is environmentally responsible and has a reduced impact on its surroundings.
The trend of green data centers is becoming a hot topic worldwide, and for a good reason: by switching to a green data center, companies can improve their bottom lines and make themselves more competitive in today's marketplace.
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Data Center Environmental Sustainability & Other Concerns
You can do several things as an individual or small business owner to make your data center more environmentally sustainable. This post will focus on ways to reduce your carbon footprint and other factors that impact data center environmental sustainability, such as power usage effectiveness (PUE).
Data Center Environmental Sustainability
Data center technology comprises many components, including the physical structure itself. From the air conditioning and ventilation to the power and storage equipment, data centers can have an enormous environmental impact on their local areas. Several factors contribute to this impact, and while some are beyond a company's control, many can be mitigated.
One of the most significant concerns for data center operators is power usage effectiveness (PUE). Power usage effectiveness describes how much of the total power used by a data center is used by IT equipment rather than supporting infrastructure. In smaller facilities, PUE can exceed 5:1, meaning that for every unit of energy used by servers, nearly five teams are consumed elsewhere in supporting infrastructure. However, as companies continue developing more efficient cooling techniques and other methods to reduce overhead power consumption, PUEs steadily decrease.
Data centers also use a great deal of water; however, with proper planning and design, they can keep water usage at a minimum. For example, installing high-efficiency standby generators eliminates the need for cooling towers; most generators run on natural gas or diesel fuel instead of diesel fuel. Data centers also require significantly less water than traditional office buildings because they typically use no restrooms or kitchens.
Why is Data Center Environmental Sustainability Very Important?
The environmental sustainability of data centers is increasingly important in light of the growing demand for cloud computing, which relies upon data centers to store and process information. The need for efficient cooling systems, the efficiency of power supplies, and the limited amount of energy required to run servers are all factors that contribute to environmental sustainability.
Many organizations have instituted policies to reduce their data center's carbon footprint to improve these issues and achieve greater environmental sustainability. It starts with using renewable energy sources such as wind or hydroelectricity and taking steps to reduce their overall energy usage. For example, Apple has built two North Carolina and Oregon solar farms to power its iTunes data center.
What Data Center Can Do with Cooling System
Traditional data center cooling systems need to be more varied and wasteful. While the majority of heat from the data center is released through air conditioning units, a significant percentage is also lost through hot exhaust fans. Cooling systems that can operate on outside air are more environmentally friendly and much more efficient than traditional systems, saving energy and money.
These cooling systems use outside air to cool hot equipment and then discharge the air to the outside. The advantages of these systems include the following:
Reduced environmental impact because they use outside air instead of recirculating hot, stale air;
Reduced costs by using outdoor air instead of warmer indoor air;
Operate at higher efficiency since they can be designed to run at a lower temperature;
Less wear and tear on mechanical components because they don't have to work as hard as traditional cooling systems.
What are the other concerns?
Data centers create significant carbon emissions, are generally energy-intensive, and raise various other concerns. Chief among these are security and safety. In a natural disaster or terrorist attack on a data center, the media and public rely on data centers to maintain the continuity of operations, communications systems, and other functions critical to society. Yet despite the vital role that data centers play, many are located in areas prone to natural disasters (like earthquakes).
Another critical concern is reliability. When a data center is suddenly shut down or has its power source disrupted, e-mail and other digital communication services can be severely hampered or even shut down entirely. This is especially problematic because global enterprises—and thus their data centers—are becoming more interconnected and globalized.
Data centers also require high-tech facilities that require constant maintenance and highly trained technicians to monitor and operate them. Moreover, their continued operation depends on the uninterrupted flow of electricity; if there is a blackout or brownout in the area of the facility, it could lead to a disruption in service.
Read more about Europe's Gas Price Surge Leading Data Center Cost Rising.
Conclusion
Data center energy consumption is a big deal. According to a report from IDC, the world's data centers consume about 90 billion KWh, which is about 1.5% of the total electric energy usage in Europe and North America.
It's expected that data center energy consumption will triple by 2023. This is an enormous increase, and it has the potential to create substantial environmental issues, so we need to be more conscientious about how we use power, especially concerning our data centers.
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Data Center Management Challenges: The Cost of Inefficiency
Data centers are giant energy hogs, and their carbon footprint is growing. This problem can be devastating for the environment and costly for consumers. Data center managers must address inefficiencies to reduce costs and environmental impact.
Inefficient data centers use more energy than they need to.
A recent study found that data centers are responsible for 2% of global electricity consumption. That number may seem minor compared to other areas of industry and infrastructure. However, considering that each data center can use over 1 million kilowatt-hours per year (KWh/year), it's easy to see why they're such an essential part of our nation's energy mix.
The problem is that many data centers need to be operating at peak efficiency levels, which directly impacts their bottom line and our planet's health. Suppose your company needs to take care of its servers properly and keep them running smoothly. In that case, they'll likely become less efficient over time and costlier than necessary in terms of power consumption costs alone!
The consumer charges these substantial energy bills.
The costs of inefficient data centers pass on to the consumer. Part of that money goes towards keeping a company's data center running when you pay your electric bill. It also means that energy bills are increasing and will continue to rise if nothing happens. The energy cost is unsustainable, so we need solutions like energy efficiency software like Data Center Monitor (DCM).
Energy inefficiency also damages the environment.
Data center inefficiency also has a significant impact on the environment. According to the U.S. Environmental Protection Agency (EPA), data centers account for 2-3% of all electricity usage in the U.S., but they produce about 4% of greenhouse gas emissions--a higher percentage than any other industrial sector. This number is due to their reliance on power-hungry computers and cooling systems that require large amounts of energy to operate efficiently. For example, during construction processes, you can use resources like water and natural gas as server room ac unit installation or rack installation services at your facility's data center location(s).
The cost of inefficient data centers is growing and becoming unsustainable.
The cost of inefficient data centers is growing and becoming unsustainable. The growing demand for digital services and applications has led to a massive increase in the energy consumed by data centers. This enormous energy consumed has resulted in tremendous environmental damage. In the end, consumers through higher electricity bills and tax increases.
Data center managers must address inefficiencies and streamline operations or risk being left behind.
Data centers are no longer a place to house servers and storage. They're now central to the success of every business, with their ability to enable agility, efficiency, and productivity. But as data center managers look for ways to stay competitive in a rapidly changing world, they must also consider the inefficiency cost and its impact on their bottom line.
Data centers must be efficient if they want to stay competitive today and into the future; otherwise, they risk falling behind by more agile competitors who can offer more value at a lower cost than they can provide. It means data center managers need an understanding of what makes up efficiency and practical steps on how best practices can be implemented within their organizations' unique environments.
Data center managers must look closely at their IT infrastructure to reduce costs and environmental impact.
Data centers could be more efficient.
Not only rising the electricity cost on consumers, and the environmental impact of inefficiency is growing. To reduce costs and environmental impact, data center managers must look closely at their IT infrastructure and address inefficiencies before they become too big to manage.
Read more about The Average Cost of Data Center Downtime in 2021 – 2022
Conclusion
Data centers are a critical piece of the global economy but also a huge source of inefficiency. The cost of inefficient data centers is growing and becoming unsustainable. Data center managers must address inefficiencies and streamline operations or risk being left behind.
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Green Data Center Requirement to Lower Cost and Carbon Dioxide
Green data center requirements are changing, and you need to know what that means for your data center. As the industry moves to more environmentally friendly practices, there will be more costs associated with operating a data center—and that's not going to change in the future. The best way to prepare for this is to start implementing green ideas now so you're ahead of the curve when these changes are made.
General Green Data Center Requirement
The term "green data center" can have a variety of meanings depending on whom you ask. But even the most basic definition involves some measure of sustainability or environmental consciousness. As data centers grow in size and number, they need to be more mindful of their ecological impact.
The first step is to start using renewable energy. This means looking into wind power, installing solar panels on rooftops, or generating power from waste products. While this adds upfront expenses, it can save money later by reducing utility bills. Plus, over time, you might recover the costs of those initial investments if you can sell excess energy back to the grid.
Because many companies have needed to adapt their facilities and operations to environmental concerns, new regulations will likely be passed that require all corporations to use more environmentally-friendly tactics. The least expensive way to comply with these regulations is to invest in renewable energy equipment now—you'll have it ready and waiting when new laws go into effect.
Here are several requirements for a green data center:
Green data centers must have recycling programs, including separating paper, plastic, and glass.
Green data centers should use temperature controls and energy-efficient HVAC systems to maximize energy efficiency.
Green data centers must use sustainable practices so that their work doesn't affect the environment.
Green data centers must develop a green power certification plan for future developments.
Green data centers must implement an Environmental Management System (EMS) that will be used to track its carbon footprint, energy usage per square foot, water usage per square foot, waste management system, sustainability programs, etc.
Following the leader in this industry
The greenest data center facilities are those that make use of energy-efficient equipment and power sources, such as solar panels or wind turbines. These facilities also aim to minimize their reliance on non-renewable power sources, such as nuclear or coal power plants.
Many other aspects of the physical plant affect its environmental friendliness; aspects in this category include construction materials used and how they were acquired. Also, where they were built, how much pollution was released during construction, and what vehicles are used to transport materials (a fleet of trucks running on diesel fuel releases more pollutants than a few trucks running on natural gas).
To achieve carbon neutrality, data centers need to increase their use of renewable energy sources such as solar panels or wind turbines. Datacenter providers that use clean energy, such as Microsoft and Apple, will also need to invest in carbon capture systems to offset any non-renewable resources used by their companies.
Google has implemented several green energy practices in its data centers, including wind, solar, and geothermal power. They've also implemented a "free cooling" program that allows them to operate their servers at lower temperatures than possible with traditional air conditioning methods.
Amazon has been working with a partner to build Virginia's 100% renewable energy source data center. This data center will use wind, hydro, and solar energy produced by the various sources offered by Amazon. The main reason for Amazon's action is that they want to lower the cost of energy spent on their data centers and also help the environment by reducing their carbon footprint.
Read more about Data Center Power Distribution Unit (PDU) Best Practices.
Conclusion
Green data centers are becoming a hot topic in the industry. The US Environmental Protection Agency (EPA) is working with the technology sector to increase energy efficiency and reduce waste. As of August 2015, EPA outlined new requirements for data centers.
According to the organization, the new standards will require all new data centers to be carbon neutral by 2020, and all existing data centers must reduce 50% of their carbon emissions footprint by 2030. The expansion of these requirements comes from a concern about high energy usage in data centers and the related effects of climate change.
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Data Center Sustainability Benchmarks for Evaluating LEED
Data Center Sustainability Benchmarks provide a framework for improving sustainability at data centers. It includes several benchmarks on water use, recycling and waste, material selection, and carbon emissions reduction. Each benchmark consists of a list of best practices for achieving excellence in the area in question and serves as an example of the type of steps that other data centers can take to become more sustainable.
What are Data Center Sustainability Benchmarks?
The Data Center Sustainability Benchmarks are a set of requirements and best practices developed by the Uptime Institute for data center operations. They provide a sustainability rating system for data centers and recommendations for improving the efficiency of data centers and how they operate.
The benchmarks contain three core areas.
The first is Environmental, which focuses on reducing waste and increasing efficiency.
The second area is Energy Efficiency, which focuses on reducing energy consumption.
The final area is Data Center Operations, which focuses on improving the reliability, availability, and security of operations within data centers.
Data center managers can use this set of methods to learn about best practices for energy efficiency, renewable energy, and waste management. The benchmarks can also help them assess progress over time by measuring performance against the criteria.
What is LEED?
A LEED (Leadership in Energy and Environmental Design) certification is an internationally recognized green building certification system that originated in the United States.
LEED is an internationally recognized green building standard. It provides third-party verification that a building or community was designed and built using strategies to improve performance across all the metrics. It is essential for owners and occupants: energy savings, water efficiency, CO2 emissions reduction, improved indoor environmental quality, stewardship of resources, and sensitivity to their impacts.
LEED version 2.2 has established five levels of achievement for green buildings: Certified, Silver, Gold, Platinum, and LEED for Homes. Data center projects are eligible for LEED certification as either part of a larger building or project or as standalone facilities. There are currently no data center-specific standards within LEED—applicants must choose from among several categories related to sustainable site development, water efficiency, energy and atmosphere performance, materials management, indoor environmental quality, and innovation in design.
How to Evaluate LEED for a Data Center?
The U.S. Green Building Council developed Leadership in Energy and Environmental Design (LEED®) to establish benchmarks for sustainable building practices, which are listed in the LEED Reference Guide. Today, a data center that meets these sustainability benchmarks is one of the market's most energy-efficient, eco-friendly data centers.
To achieve a LEED certification for a data center, the designer must meet these benchmarks:
Designate 10% of the site as green space.
Use an automated control system.
Use environmentally sound construction materials.
Be powered by renewable sources.
Maximize energy efficiency through constant monitoring of power usage.
The following sustainability benchmarks should be considered when evaluating a data center's sustainability:
Buildings should have sufficient natural light and ventilation and access to fresh air. Fresh air is essential in keeping the temperature within bounds while keeping internal humidity low and circulating contaminants out of the air stream by using an air exhaust system equipped with a high-efficiency particulate air (HEPA) filter. Buildings should also be naturally lit and ventilated without artificially powered lighting or mechanical ventilation.
For optimal energy performance, a data center should maintain a constant temperature.
Fresh air intake ductwork should be designed to keep outside air from mixing with inside air by using a heat exchanger that maintains a constant temperature between the two air streams.
All IT equipment must run at an optimal temperature range of 20°C to 25°C (68°F to 77°F). The ideal temperature range ensures proper cooling.
The benchmarks include:
Reduce overall energy use by 50%.
Choose renewable sources for 100% of the facility's power consumption.
Maximize the use of outside air for cooling, and minimize the use of chillers.
Maximize daylighting, minimize artificial lighting, and use LED lighting where necessary.
Maximize recycling and reuse water from rainwater harvesting systems and washing equipment.
Minimize waste by minimizing the number of waste streams generated, minimizing the generation of hazardous wastes, and maximizing recycling.
Reduce total cost of ownership through facility optimization.
Read more about: List of The Best Data Center White Paper to Learn
Conclusion
The data center sustainability benchmarks are intended to be generic enough to apply across all types of organizations, including small businesses and large enterprises, single sites or multi-site operations, and customers who are designing new facilities or building out existing facilities.
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France Data Center List, Location, and Contact Number
The data center market in France is still growing, with a few locations already established as significant players. With the help of its European neighbors, they built The country's infrastructure, which has led to substantial investment in internet infrastructure over the last few years. Businesses looking to set up their own data center can choose from one of several options that provide excellent connectivity, reliability, and security compared to other countries around Europe.
France Data Center List and Contact Number
France's data center list is one of the most popular in Europe. It has many advantages over other countries. The most important thing is that France has a robust economy and a stable government; stored data will be safe. France is also one of the most developed countries in Europe, so it's easy to get around there and find everything you need.
Byblos Data Center
Telecity 4 Data Center
Digital Realty - Paris 1 Data Center
Interxion Paris Data Center
Interxion PAR1 Data Center
Interxion PAR2 Data Center
Interxion PAR3 Data Center
Telehouse Metro Paris North (St Denis) Data Center
Equinix – Internet Equinix Paris (PA) IBX Data Center
Address location: 17 rue des Suisses 93400 Saint Ouen France
Contact telephone: +33 1 40 87 68 00
Contact website: www.equinix.fr/locations/paris-ibx-data-centers/equinix-Paris-pa/
10. Equinix – Equinix Paris PA2 Data Center
Address location: 17 rue des Suisses, 93400 Saint Ouen, Paris, France
Contact Telephone .: +33 1 40 87 68 00
11. Telehouse Cologix P7V
Location: - 43 Boulevard Victor, Paris, France. Data Center
12. OVH
Address location: 2 rue Kellermann - 59100 Roubaix - France
Contact telephone : 0 805 560 666
Contact Website: www.ovh.com
Usually, they provide a Free Trial. With these features :
High-end security, 24/7 monitoring, round-the-clock support with SLA
The data center is Tier 3 certified with SAS70 type II certification for availability and security standards (including PCI DSS)
Fully redundant power sources/UPS systems with N+1 power capacity design (2N+1 redundancy) by using dedicated UPS systems for each cabinet and separate diesel generators for power supply reliability. The facility includes an extensive monitoring system per customer requirements for physical and logical security controls. This facility ensures round-the-clock monitoring of all critical parameters, such as temperature control systems (HVAC), fire detection systems, and physical access control systems, such as biometric devices.
Datacenter cost in France
Cost of a data center in France: Data centers are not cheap, and you want to save money for what you need. We can help you find the right location and facility at the best price so your budget is protected. Datacenter cost is an annual subscription licensing model for data centers.
France data center list and cost detail:
France, Paris Data Center – 70€/month
France, Paris, 1 Gbps – 65€/month
France, Paris, 10 Gbps – 1,000€/month
France, Marseille Data Center – 70€/month
France, Marseille, 1 Gbps – 65€/month
France, Marseille, 10 Gbps – 1,000€/month
Jira Data Center
Jira Data Center is Jira's most powerful, scalable, and secure version. It provides access to all of the same features as Jira Cloud but also includes additional capabilities such as:
Per-Project and Per-User licensing
Advanced backup and restore options
Customizable role-based access control (RBAC)
High availability, disaster recovery, and scalability features (including multi-master replication)
Support for high-volume data sets
Advanced security options
Jira Data Center cost and pricing are charged monthly based on the maximum number of users with access to Jira Software, Jira Service Desk, and Jira Core.
Read more about: Euro digital business keeps rising while gas supply surge
Conclusion
Our goal is to provide you with a complete solution for your data center needs. Whether you need to build a new facility or upgrade an existing one, we can help.
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Why Raised Floor In Data Center Construction is Important?
"Raised floor" refers to a specific type of raised flooring used in modern data centers. This flooring is often laid out in alternating horizontal layers and vertical stacks, each with a particular purpose. The horizontal layers consist of electrical conduits that route power and network connections throughout the facility. "Vertical stacks" of raised flooring contain components such as raised floor panels and distribution frames, which serve as hubs for routing all the data cables needed by the servers in this space.
What is raised floor in data center construction?
Raised flooring is a floor constructed above the ground and is usually made from concrete slabs or other materials that increase the floor's strength. The raised floor in data center construction helps provide the required cooling to the servers and continuity of power supply. It protects the servers from dust, humidity, and other harmful elements.
Why is it so important?
The raised floor in data center construction is an important aspect of the data center's construction. A raised floor provides an empty space underneath so that the cabling and other electrical infrastructure can be organized.
It gives more room to quickly access all of the cables and provides space to run new wires if needed. A raised floor also helps keep dust, dirt, and other small particles from getting into the equipment and potentially damaging it.
Some people are concerned that a raised floor will not be able to function correctly if there is too much weight on top of it, but this is not a problem for most modern data centers.
The most important thing about a raised floor is that it provides the structure for everything you put on top of it, which can be servers or other equipment. The structure allows you to build vertically, saving space while having easy access to everything inside the racks.
The benefits
A data center's raised floor, usually made of concrete or foam, is an important component in the data center construction process. The raised floor provides several benefits to the data center, including:
Better Cooling: The raised floor allows for better cooling in the data center. Air can flow more easily under and around racks containing servers, which is essential to keeping that equipment cool.
Handrails: Handrails are easier to install on a raised floor than on a traditional concrete slab because it is more impermeable. These handrails are essential for safety purposes and give people working in the data center a place to grab onto if they need to pull themselves up.
Easier Maintenance: The raised floor makes it easier for technicians to work on equipment and cables inside the data center. They have better access and visibility because everything is on the same level rather than spread below the floor.
Optimal Airflow: Because of its unique design, the raised floor allows optimal airflow throughout the room. There are fewer obstacles to put in its way, so it can carry hot air away from components and out through vents or other exits while carrying cool air into a system through vents or other entrances.
A raised floor can also act as a containment area for any spilled liquid that might occur in the data center. This helps prevent spills from spreading to other areas of the building and allows them to be cleaned up more quickly than if they were allowed to spread throughout a room. A raised floor can also prevent damage to equipment due to flooding or high humidity levels by acting as a barrier between the two.
Finally, the raised floor adds a layer of soundproofing, which is essential for keeping server components from overheating due to excess noise vibrations.
Read more about: data center provider
Conclusion
The raised floor is an essential feature of any data center design. It creates a distinctive, intuitive layout that makes it easier for employees to find their way around and increases the overall efficiency of the building.
A raised floor provides many benefits for data center construction, mainly due to its ability to keep all pieces separate while being easily accessible. This helps increase efficiency when working with servers and makes it easier to ensure that everything is being taken care of properly.
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Online Transaction Processing Security Challenges
Security is a high priority when it comes to online transaction processing. This is due to the large amounts of sensitive data being processed, such as credit card information and social security numbers. A payment processing provider must always maintain the data's integrity. To ensure this, many organizations have implemented a comprehensive security policy addressing internal and external threats.
These security measures are crucial in ensuring the integrity of your business name and are just as important as having a good product or service.
Online Transaction Processing Security Threat
Like any other transaction, an online transaction passes through various intermediate systems before reaching its destination. Each of these systems is vulnerable to different threats:
Threats due to software vulnerabilities.
Threats due to flaws in operating systems, application programs, or database management systems.
Threats due to human errors like accidental breaches of security measures.
Threats due to malicious intent (intentional violation of security rules).
If not properly addressed, these threats can easily lead to fraudulent activities and compromise data integrity. The danger becomes real when an attacker accesses customer information or initiates illegal financial transactions. To mitigate these threats and challenges, we must implement appropriate security measures at every stage of online transaction processing.
Secure Online Transaction Processing
Any online transaction processing (OLTP) system must meet the challenge of recording and maintaining financial data in a secure, reliable, and timely manner. The security of this data is paramount to any financial institution or business that conducts online transactions. The goal of monitoring OLTP systems is to maintain high levels of security while providing timely access to information.
Understanding the threats posed by system failure is a top priority for companies that process OLTP data. While it may seem challenging to protect data from within, it is equally essential to safeguard the system from outside attacks by potential hackers who are always searching for vulnerable networks. Understanding the capabilities and limitations of existing monitoring technologies is critical to select the most appropriate solutions for your specific needs.
Here are some solutions to overcome the online payment processing threat.
Security Monitoring Tools
Security monitoring tools can help identify suspicious activity to protect against potential fraud attempts. They can also be used in risk management by analyzing transaction patterns and flagging unusual activity for further investigation. Security monitoring tools generally fall into two categories: agents and passive monitoring. Passive monitoring tools examine network traffic for warning signs of malicious activity, while agent-based tools monitor individual computers within a network in search of unauthorized activity.
PCI DSS Compliance
The Payment Card Industry Data Security Standard (PCI DSS) is a set of requirements designed to help merchants maintain secure online credit card transactions and the integrity of customer account data. It was first released in 2004 and has since been updated to include new threats and best practices for ensuring secure online transactions are maintained by retailers and third-party vendors, including payment processors and other merchant service providers.
Key Passwords
Always ensure that only authorized individuals can access passwords and other OLTP credentials. When users change their passwords, ensure they comply with any existing company password policies and don't reuse old passwords from previous accounts. This will help make sure those credentials are both secure and unique.
Client-Side Encryption
If your business deals in transactions that include sensitive customer information like credit card numbers and social security numbers, always use client-side encryption so that data is encrypted before it's transmitted over a network. It also goes for any files that store that type of data. It is an absolute must unless you want your corporate database to get hacked by identity thieves.
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Conclusion
The security threats on online transactions have become more complicated and sophisticated in the last few years. As time goes by, security issues arise, and new measures must be taken to protect consumers and businesses using these platforms. The biggest challenge facing companies is ensuring that security measures are in place that protects the consumer from harmful sites and their own business from fraudulent charges on their credit card accounts.
Fraudulent transactions are a severe issue for online businesses because it costs them hundreds of thousands of dollars each year to ensure that their customers receive legitimate products and services from them. They invest this money into credit card processors and fraud prevention software to protect their company's reputation and their customers from being scammed by an illegitimate business.
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Designing Efficient Data Centers Focusing These Components
In today's all-digital era, it is increasingly important to be able to design efficient data centers to be able to compete and protect the environment. The rapid increase in demand has led to the construction of numerous data centers that significantly impact the environment. To mitigate this, an efficient design is required. This post will explain how to put together an efficient data center design.
Before Designing an Efficient Data Center, Consider This!
As we move into a more technological world, efficient data centers are becoming increasingly important. Data centers are one of the world's biggest energy consumers; efficient designs are necessary for the energy cost to continue to increase. Designing efficient data centers that compete with other countries and protect our environment is crucial.
To reduce energy consumption, a data center should be located near its customer base. We must choose the data center location carefully. If the data center is too far from the customers, it will have higher transmission and maintenance costs. Among many factors, the location of the data center should consider the number of employees in each place, the wage cost in each place, and the power consumption cost in each area.
Efficient Data Centers Components
When designing efficient data center facilities, it is essential to focus on the following components: data center infrastructure, power and cooling, and physical security.
Power
The power challenge in data centers is daunting because the data center has become a complex machine that must operate 24/7. The power demand is tremendous, and it can be expensive to satisfy those demands. Power is a critical part of data center design, but it's often one of the last things to be considered. Data centers should have an energy policy covering all power aspects (generation, transmission, distribution, consumption, and conservation).
Many data center buildings will be around for decades and may even outlive the companies that use them. Unlike many other types of structures built with a specific purpose, data centers often have their uses changed as needs shift and change over time. They have to accommodate various services and functions without undergoing major changes or requiring significant renovations.
Given all of this information, it's clear that a data center must be designed with efficiency in mind at every turn if it is to be considered successful. That's why many data center designers choose simple designs over complex ones—simple designs are much easier to manage over time and hold up better without needing constant adjustments or additions.
Cooling system
Since the first data center was created, designers have aimed to design a facility that can run at all times without failure by providing a solution for cooling servers. The modern data center has become more complicated over time, with its cooling system becoming an integral part of the overall design.
When designing a cooling system, there are four main factors to consider:
Designing it with a mind toward future expansion.
Make sure it's redundant so that if one part goes down, it won't affect the entire operation.
The amount of power used by the system.
Keeping it as efficient as possible.
Monitoring
A building management system (BMS) is a software system that monitors and controls the devices and subsystems in a building. It can be divided into two parts: one is to monitor the devices and subsystems, and another is to control the devices and subsystems. The monitoring function of BMS gathers data such as temperature, humidity, power usage, etc., from sensors while the controlling process maintains the equipment in a building. By deploying BMS's monitoring and controlling functions, an energy-efficient and safe environment can be achieved.
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Conclusion
The design of a data center facility is highly competitive in the telecom and internet industries. The design at each project stage directly affects the operating costs, backup power generation requirements, redundancy, fault tolerance, and efficiency. The design of a data center must be based on a comprehensive set of technical needs, service level agreements (SLAs), customer service level agreements (CSLAs), and energy consumption goals.
Data centers must be as efficient as possible and provide as much value as possible for each dollar spent. To design efficient data centers effectively, it is necessary to first go over some basic principles regarding efficiency in general and then discuss how business objectives can be addressed using those principles. Let's start by discussing efficiency and then move on to ways we can achieve it together.
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The Growing of Managed Cloud Services in Indonesia
Managed Cloud Service Providers (MCSP) is, as the name implies, a provider of cloud computing services to their customers. MSPs provide hardware and software services to help customers manage the cloud infrastructure layer of their data centers. These services include storage, servers, networking, and more. A managed cloud service provider collects the underlying cloud infrastructure for some or all of its customers' applications.
Managed Cloud Services Growth in Indonesia
In the age of information technology, the demand for cloud computing is increasing in Indonesia. Cloud Computing is a model used as infrastructure-as-a-service (IaaS), platform-as-a-service (PaaS), and software-as-a-service (SaaS). The service is available to anyone through a web browser or mobile device. Their services are very flexible, reliable, scalable, and cost-effective.
The cloud provider owns and controls all of the hardware and infrastructure in this service. The customer can access the computing resources when needed and pay only for what they use. This reduces upfront capital expenditure, risk, complexity, and management costs over owning your hardware or software.
Cloud computing services have become increasingly popular in Indonesia, with over 45 percent of enterprises adopting this technology. The growth of this technology can be seen in various sectors, such as banking and finance, telecommunications, media and entertainment, manufacturing and distribution, transportation, and logistics.
Indonesia Managed Cloud Services Market Size
Like several other countries in Asia, Indonesia has been experiencing rapid growth in cloud services. In particular, managed cloud services are increasing rapidly at a rate of 20% year over year and will be worth $1.6 billion by 2020. The national government has taken note of the growth and recently announced plans for a National Cloud Initiative to increase adoption and push for better standards within the industry. Indonesia's decision to promote a strong IT sector will play a key role in determining the future of cloud computing in the region.
The Public Cloud market in Indonesia is projected to grow by 20.78% (2022-2027), resulting in a market volume of US$2.76bn in 2027. The main reason for the growing demand for cloud-based solutions is that they offer an environment that can be easily accessed, used, and changed per the business requirements without any upfront capital investment. Also, it has enabled businesses to focus on their core competencies as they don't have to worry about setting up servers, storage, and other related resources, which otherwise would have taken a lot of time and effort.
There are many managed cloud service providers in Indonesia to cater to customers' growing needs. Some of these are Amazon Web Services (AWS), Microsoft Azure, Alibaba Cloud, Digital Ocean, and Google Cloud Platform, among others.
Some of the key trends responsible for the growth of the cloud computing market in Indonesia include:
Rapidly increasing internet penetration and smartphone usage. Indonesia is one of the largest digital penetration in the world. In 2023, Indonesia will have 230 internet users.
Increase in workforce resources from abroad.
Rise in e-commerce activities.
Increase in B2B transactions on online platforms.
Increase in the Government sector using cloud services.
In recent years, the Indonesian economy has experienced some of the highest rates of growth in the world.
Tech Giant Invest in Data Center in Indonesia
More and more tech giants worldwide are beginning to invest in data centers as one of their strategic moves. AWS, Google, and Microsoft are some of them. In Indonesia, they are OVH, IBM, Alibaba, and Google. They are to build their data center in Indonesia. These data centers help the country to boost its economy.
This is excellent news for the country that Indonesia can become an IT hub for an international companies to invest here. The data center will bring jobs to the people in Indonesia. This will also give a boost to the education sector since there will be a need for local engineers to work on it.
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Conclusion
Managed cloud services in Indonesia are growing rapidly from before. Several local companies partnering with Google and AWS have seen revenues improve. One of Indonesia's managed cloud service companies, Elitery, has already taken the floor on the Indonesian stock exchange.
Indonesia is the fourth largest country in terms of population and the third most populated country in the world, behind China and India, so it's crucial for businesses looking to expand internationally to have a presence there.
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Cluster Computing for High Performance Distributed Computing
Cluster computing uses multiple computer systems working in concert to solve the same task. This system is called "distributed computing" when the computers are networked. Parallel computing if all the computers in a cluster can perform tasks simultaneously. Cluster Computing for High-Performance Distributed Computing.
What is Cluster Computing?
Cluster computing is a form of distributed parallel computing in which a group of loosely coupled computers works together to perform enormous tasks. The goal is to solve problems that require more processing power than can be obtained from a single system.
In the late 1980s and early 1990s, research began on cluster computing, which would allow multiple computers to work together on complex problems. At the time, this was a new concept, but it was common for large companies and universities to use clusters for everything from scientific research to business operations.
Cluster computing is similar to grid computing, which distributes tasks across multiple servers rather than within one machine. However, cluster computing usually involves numerous devices located within proximity (as opposed to being scattered across the globe). In comparison, grid computing with either type of setup uses from anywhere.
Why use Cluster Computing?
The benefits of cluster computing are numerous and varied. Some of the benefits include:
High-Performance Computing: Clusters provide high-performance computing (HPC) solutions for scientific research, engineering, and other applications that require large amounts of processing power.
Cost-Effective Scalability: Clusters can be scaled quickly to meet growing workloads at a fraction of the cost of traditional supercomputers.
Energy Efficiency: Cluster computing is an energy-efficient alternative to traditional high-performance computing.
High Availability & Disaster Recovery Capabilities: Clusters offer high availability and disaster recovery capabilities allowing your organization to maintain business continuity in the event of failure or disaster.
Cluster Computing Software
Cluster computing is a parallel processing method where many computers work together to complete a task. You can use this system in high-performance computing (HPC) applications, such as weather modeling and nuclear simulations. Cluster computing also works in high-volume computing applications, such as data mining, stock trading, and oil exploration.
There are two main types of cluster computing systems:
Grid Computing: Grid computing uses an extensive networked computer system that provides resources through virtualization technology. The grid is an extension of supercomputing, but it is more flexible and uses less energy than traditional supercomputers. In addition, grid computing allows users to access resources from anywhere worldwide on demand with no installation required.
Cloud Computing: Cloud computing is another distributed networking system that allows users to access software or hardware via the internet instead of local servers or dedicated hardware devices. Cloud computing has become increasingly popular due to its increased flexibility and cost-effectiveness over traditional server farms.
Cluster Computing Hardware
Cluster Computing enables you to distribute your workload across multiple nodes. This computing allows you to increase your application's processing power and reduce the time it takes for a job to complete.
A cluster is a group of interconnected computers (nodes) that work together so that it appears as a single machine from the user's perspective. The set may be located in one physical location or across multiple sites. It can include any computer hardware, including desktop PCs running Windows 7/8/10 OS, laptops running Windows 7/8/10 OS, and servers running Windows Server 2008 R2/2012/2016 OS or Red Hat Linux 6.0/7.0 OS. Cluster computing can work with any application, including business applications like Microsoft Office 365 and Adobe Acrobat Pro DC software.
How to Build a Cheap PC Cluster
The best thing about building your PC cluster is that you can make it exactly the way you want. The only limit is your budget and your imagination.
In this article, we will discuss how to build a cheap PC cluster, but at the same time, we will keep in mind that it should be powerful enough to handle the needs of any real-world application.
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Conclusion
Cluster computing is not a shiny, new technology, nor will it replace grid computing anytime soon. It will, however, ensure the status of grid computing as a reliable platform for high-performance computing at scale. It offers a flexible framework capable of scaling to thousands of nodes and terabytes of memory. We have taken only a brief tour of some current open-source cluster computing platforms in this article. However, those we reviewed are an excellent place to start if you're looking for an enterprise-class distributed computing platform.
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Data Storage Solutions That Reduce Environmental Impact
With the ever-increasing use of data storage, people are looking for ways to ensure their data is safe and secure. At the same time, people want to protect the environment, so it's vital that a data storage solution also be environmentally friendly. Fortunately, there are many ways to do both.
Data storage drives have an impact on the environment.
The explosion in data storage is leading to an explosion in the number of hard drives sold. The capacity and durability of these drives have improved over time, but they still need improvement: they are made out of non-renewable resources like plastic, metal, and rare earth elements, which must be mined and processed to make them. These materials can also be recycled, but only if someone has the time and money to do so—the reality is that there's no easy solution for disposing of old hard drives. These devices will eventually end up in landfills after their useful lives are over.
And there's another problem: when we save things on our hard drives, we tend to hoard them without looking at them again—sometimes for years or even decades. This means that many gigabytes of space on our devices go unused, wasting valuable space and energy whenever we run or turn them on and run in the background.
We all rely on cloud storage solutions and online backup services to keep our files safe, but what impact are they on the environment? The three primary sources of damage are:
the servers and data centers that hold all of your information
the electricity used to power them
the pollution created by the mining and manufacturing of the components that make up the servers
Data storage industry
According to IBM, the storage industry is expected to grow from $81 billion in revenue in 2015 to $107 billion by 2020. As cloud storage becomes more prevalent and efficient, the amount of storage that an average person uses increases significantly. This means more servers are being built and more electricity is being used.
Statistically, a cloud server has an average lifespan of about 4-5 years, then replaced with a new one, although many run into problems long before they reach that time frame. In 2013, 3 million hard drives were replaced as they got their end of life. The cost of data storage continues to drop while the amount of data being stored continues to increase, which means that this number will continue to rise unless companies find a solution.
Both Dell and Seagate have introduced products designed for longer lifespans, intending only to replace their hard drives when necessary. Seagate has also developed a system that supports long-term data retention by storing data on both magnetic disks and DNA material. Although these technologies are still developing, they are promising steps towards a future with much lower environmental impact from data storage.
Data storage for the future.
The environmental impact of data storage can be significant, particularly if the data center needs to be optimized. The solution, then, is to find greener data storage solutions. Some of the options include:
Compression - Saving space with compression is one of the easiest ways to reduce the energy used for data storage; however, it can also make accessing files more difficult.
Deduplication - Deduplication removes duplicate copies of files to consolidate them in a single location, which reduces the need for additional disks or RAM.
Encryption - Encrypting files prevents unwanted users from accessing them and can help prevent losses due to natural disasters and theft.
Fault tolerance - Fault tolerance systems ensure that only one copy of a file is saved and stored on multiple disks; this helps safeguard against failure.
Cloud computing allows users to store files remotely, which makes accessing them more convenient, but it also means that users trust a third party—a provider—to protect their information.
You may also want to consider going with an SSD (solid state disk) rather than an HDD (hard disk drive) since SSDs are lighter and use less power than HDDs and can often come in smaller form factors as well (though they're more expensive).
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Conclusion
Energy is one of the most considerable costs associated with storing data, and a lot of that energy is used to power the physical infrastructure of a data center. That's an environmental problem in its own right, considering the amount of energy needed to store all our data physically.
For this reason, one of your primary considerations when choosing a digital backup solution should be its environmental impact. For example, suppose you're looking into traditional hard drive solutions. In that case, you can reduce the energy used by ensuring it is a model with an Energy Star rating or a reduced power mode option. An option that offers the same capacity in a smaller form factor will also generally use less power since there is less surface area across which heat can dissipate.
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Carbon Usage Effectiveness Metrics for a Green Data Center
Data center carbon footprint measures the amount of greenhouse gas emissions produced by a data center. You multiply the electricity consumed by the average carbon emission factor per unit of electricity.
Power Usage Effectiveness
Power Usage Effectiveness (PUE) is a metric that compares the total power used in a data center to the power delivered to IT equipment. The PUE is the overall facility PUE divided by the IT equipment PUE.
Power Usage Effectiveness (PUE) measures how efficiently a data center's cooling systems deliver power to IT equipment. It considers the following variables:
Overall Facility PUE = Total Facility Power / Total Floor Space
IT Equipment PUE = Total IT Equipment Power / Total Floor Space
PUE = Total Facility Power / IT Power
So if a data center uses 1 MW (megawatt) of power and 900 kW of that power is consumed by IT equipment, then you can calculate its PUE as follows:
PUE = 1 MW / 900 kW = 1.11
The PUE calculation is an essential metric for data center managers because it provides a way to compare different types of facilities and their energy efficiency.
It also allows data center managers to gauge their own facilities' performance over time since changes in PUE are often due to improvements in efficiency or new technologies.
Energy is used to power servers and cool them, which means data centers are more efficient if they can maintain acceptable temperatures without consuming too much energy.
Carbon Usage Effectiveness
The Carbon Usage Effectiveness Metrics for a Green Data Center is a method to measure the carbon footprint of a data center. It uses the Carbon Usage Effectiveness (CUE) metric, defined as IT equipment's energy efficiency.
The CUE metric allows you to compare the energy performance of different types of data centers and technologies in terms of their carbon footprint. The CUE metric can also predict how much you would reduce carbon dioxide emissions if you deploy a particular technology in your data center.
The formula for CUE is as follows:
CUE = P*E/P + E*A
Where:
P= Power consumed by the facility, kWh/month
E= Energy efficiency as measured by the power factor (PF)
A= Annual ambient temperature in degrees Celsius
How Can You Achieve a Green Data Center?
People often view data centers as the most energy-efficient part of a company’s IT infrastructure. But that doesn’t mean you can’t improve them. Some data center operators are finding ways to make their facilities more sustainable regarding carbon usage and overall efficiency.
There are many ways to achieve a green data center, but some of the most effective steps include the following:
Using new technology reduces energy consumption by as much as 30% or more. For example, using server virtualization instead of physical servers can save you money on power and cooling. Likewise, using energy-efficient servers helps reduce your carbon footprint.
Reducing the distance between data centers by consolidating them into one location. This lowers shipping emissions and fuel costs for transporting equipment.
Using renewable energy sources such as wind or solar power to generate electricity for your facility.
Green data centers are an essential part of the future of sustainable technology. They use less power, create less waste and use fewer resources.
While there is still much work in this area, we're seeing more organizations transition their data centers toward the green side. The data center industry has been working on this issue for years, with many companies creating metrics to measure how effectively they use carbon resources.
Data Center Liquid Cooling
One area where data centers can make significant improvements is in liquid cooling systems. According to the Uptime Institute, conventional air-cooled systems use up to 95 percent of their energy simply for cooling, which means that only 5 percent is available for computing purposes. Therefore, liquid cooling systems could significantly reduce the amount of energy used by these facilities.
Liquid cooling involves pumping chilled water through servers instead of fans blowing cold air over them. This allows companies to cut down on electricity costs and increase their server density — meaning more servers can fit into a smaller space without compromising performance or reliability.
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Conclusion
A data center's carbon footprint is the amount of carbon dioxide a data center emits. The emissions are primarily due to the electricity used by servers and cooling systems.
Several factors determine a data center's energy usage, including:
The amount of power required by each server.
The efficiency of the cooling system.
The geographic location of the data center.
The utility source used to provide power to the site — e.g., coal versus natural gas or renewable sources like solar or wind.
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Data Center Investment Risks and How to Minimize Them
Data centre investment risks are many and varied. The first step in mitigating these risks is to understand them.
This article will detail some of the most common data centre investment risks and how to minimise them.
What are the risks of investing in data center properties?
Data center investment risks are multifaceted and can harm your business. The key is to recognize the risks and take steps to address them before problems arise.
Data centre investment risks fall into five categories:
Business risk
This type of risk is related to the success of your business or organisation. It includes factors such as competition, technology changes and economic conditions.
Changing technology is one of the most significant risks when investing in a data centre. The demand for new technology is continually growing, but there are times when it skyrockets. This can lead to a shortage of available facilities, which can cause prices to increase.
The solution? Make sure you're flexible with your investment. If you're starting, investing in smaller buildings that you can easily upgrade may make sense. If you already have an existing facility and want to add additional capacity, be sure that you can easily make changes as needed.
Environmental issue
The second most significant risk is that the data centre will not meet environmental standards. When choosing an existing building to convert into a data centre, ensure it has been certified as environmentally friendly by an independent agency such as LEED (Leadership in Energy and Environmental Design) or Energy Star. These certifications ensure that the building uses energy efficiently, uses renewable resources and reduces its carbon footprint.
Technical risk
Technical risks are those related to the physical infrastructure of the data centre. These include:
Power failures - This is a common problem in most parts of the world and can cause significant financial losses if not adequately addressed. The loss of power can occur due to natural causes (such as storms), human error (such as tripped circuit breakers), or mechanical failures (such as cooling system breakdowns). In some cases, data centre outages may cost too much. You can reduce this risk by choosing an area with redundant Internet and power grid connections. You should also consider building your backup generator if you're in an area prone to outages.
Cooling - The air-conditioning system must handle all heat generated by the servers and other equipment, which can be very significant if there is no adequate cooling system. Failure to provide good cooling can result in overheating and hardware failure.
Maintenance - Data centres require regular maintenance and repair services. Still, these must be done safely without disrupting operations or exposing personnel to hazards such as electrical shock or falling objects from above.
Financial risk
Financial risks include cash flow issues, investor concerns, interest rates, and currency fluctuations.
You can minimise this risk by ensuring you have enough money to pay your bills, including rent and utilities, in case you lose your job or have other financial problems.
Legal risk
The legal risk is a severe concern for many data centre investors. The most obvious risk is that the project will be delayed or cancelled due to a lawsuit. For example, if you're building your facility, you could be sued for environmental issues or for not following local zoning, permits and construction regulations.
To minimise legal risk, understand the laws in your area and make sure they are compatible with your needs.
For example, if you're setting up a data centre in California, it's essential to know that the state has strict environmental regulations that may affect how you operate the facility.
The legal environment for the data centers is complex. Data center operators face various risks, including regulatory, contractual, and tax issues.
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Conclusion
Data centre investments can be risky because they’re capital-intensive and complex projects, but they also have the potential to provide a high return on investment (ROI).
Before committing any money to the project, you should carefully consider where to locate your data centre. It makes sense to build or lease space close to where your customers live or operate businesses so that they can access their data quickly and efficiently when necessary.
Find a location with access to multiple power generation forms, such as solar panels, so you don’t lose service if one source goes down unexpectedly.
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Microsoft's Innovative Underwater Data Center Location
Microsoft has taken the first step to create an underwater data center. The company is currently working on building a prototype that it will submerge in the Pacific Ocean off the coast of California. The idea behind this project is to take advantage of cold water's natural cooling effect, which helps reduce the amount of energy used to cool servers.
As humans struggle with carbon emissions and climate change, Microsoft believes this new technology could help reduce its overall environmental impact.
Quick Facts about Microsoft's Underwater Data Center Project
The underwater data center will allow Microsoft to store information in a frigid environment powered by renewable energy sources like wind turbines and solar panels. This will help reduce its carbon footprint and power consumption significantly.
Here are some quick facts about this project:
The project was first announced in 2017 when Microsoft CEO Satya Nadella visited Finland and announced plans to build the "world's first utility-scale underwater data center." The company also revealed that it had worked on this project for three years.
The purpose of creating this data center is to help reduce Microsoft's carbon footprint and dependence on fossil fuels like coal. The company wants to use this facility as a proof-of-concept prototype that other companies looking to build similar facilities in other parts of the world can access.
Microsoft has decided that submarine data centers are the best solution for its needs after it tested several options at an experimental facility in Scotland called "Project Natick."
The water temperature in the Northern Atlantic is between 55°F and 60°F year-round, making it ideal for running servers in a climate-controlled environment.
Not only does this protect against fluctuations in temperature, but it also prevents any dust or other contaminants from damaging sensitive equipment.
Environmental Benefits of Underwater Data Centers
The first and most obvious benefit is that underwater data centers will have a much smaller carbon footprint than traditional facilities.
This is because they use significantly less energy to operate their servers and cooling systems, which means they won't be contributing to climate change as much as their land-based equivalents.
The second advantage is that the data center's location will be more secure than those on land. While above-ground facilities are vulnerable to terrorist attacks or other physical threats, an undersea facility would be much harder for hostile forces to locate and attack.
In addition, if there's ever a civil unrest situation like those seen in Hong Kong or Venezuela, where protesters storm government buildings and destroy property, then an undersea facility would be much safer from damage than one on land would be.
The Microsoft undersea data center is about 30 feet below the water's surface. It will have a capacity of 12 megawatts, which is enough to power about 8,000 homes.
The data center will also use renewable energy, and Microsoft says it will be able to generate more than 1,000 tons of CO2 per year - equivalent to taking 200 cars off the road for a year.
Another benefit of underwater data centers is the lack of noise pollution. Since the facility is underwater, you don’t need to worry about disturbing nearby residents or wildlife with noise from operations like air conditioning units and fans, which can be loud enough to damage hearing over time.
Conclusion
In today's digital economy, data centers are becoming an increasingly important part of society. By 2020, the world's data center industry will be worth $250 billion and require up to $1 trillion in infrastructure investment, according to estimations.
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Data centers use a lot of energy and emit much carbon dioxide into the atmosphere. The average data center employs more than 600 kilowatts (kW) of power — enough to power more than 100 homes — and consumes up to 1.5 percent of all electricity produced in the U.S., according to Microsoft.
Because of this, data centers have become a target for environmental groups that want to see their carbon footprint reduced as much as possible. Some companies have already begun working toward making their data centers more sustainable by reducing their energy consumption and seeking out renewable energy sources for their operations.
Microsoft is taking this idea one step further by building its first underwater data center off the coast of Scotland in collaboration with Scottish utility company Aquamarine Power Limited (APL). The goal is to create a "living laboratory" where researchers can study how marine life interacts with underwater infrastructure and new clean energy technologies like APL's tidal turbines.
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Marketplace Growth In Indonesia Drive Data Center Growth
E-commerce and marketplace growth, among other things, drives Data center growth in Indonesia.
Data centers are already a growing part of the Indonesian economy so expect to see even more growth in this sector in the coming years. According to a recent market intelligence firm IDC report, Indonesia's data center market grew by 8.5 percent in 2017, reaching $1.8 billion. Projections predict this figure to grow at a compound annual growth rate (CAGR) of 15 percent to reach $6 billion by 2021.
The majority of this growth will come from cloud services and infrastructure-as-a-service (IaaS), according to IDC's report "Indonesia Data Center Market Snapshot." The research firm also expects public cloud services to be the fastest growing segment within the overall data center market, with an 11 percent CAGR through 2021 compared with 6 percent for private cloud services and 4 percent for managed hosting services.
Indonesia Marketplace Growth
According to an Accenture report, Indonesia’s e-commerce market is increasing, with online spending expected to reach USD$19 billion by 2023. Data center providers are rushing to build new facilities to meet the demand.
According to the Indonesia Internet Service Provider Association (APJII), e-commerce sales were worth US$3.3 billion in 2017 and will reach US$6 billion by 2020. Increased registered users have also reflected the growth in e-commerce on leading websites such as Tokopedia (founded in 2011) and Bukalapak (founded in 2012).
Bukalapak reported having 36 million registered users at the end of 2017, while Tokopedia had 27 million users during Q2 2018. Both companies have seen their revenues multiply over the past few years as they continue to expand their offerings to include new products such as food delivery services and insurance products.
The Indonesian government is also playing its part in driving this growth by making it easier for companies to do business online.
For example, the Ministry of Communications and Information Technology (MOCIT) recently announced that it would support local startups through a new public-private partnership called Startup Nation Acceleration Program (SNAP).
The program aims to create 1,000 jobs annually by 2022 through investments from private sector partners who will contribute up to $10 million each year toward funding promising start-ups.
Indonesia's Data Center Market is Growing Fast
Indonesia's data center market is growing fast. According to a new study by the Asia Pacific Data Centre Alliance (ADCA), the growth in this sector will continue for another five years.
According to the study commissioned by ADCA and research firm IDC, the total revenue from data centers in Indonesia will reach $3 billion in 2021, up from $1.1 billion in 2016.
The study also found more than 200 active data centers in Indonesia in 2017, with an average annual growth rate of 25 percent per annum between 2005 and 2017. According to predictions, the number of operational data centers will exceed 400 by 2021, with total annual revenue reaching $3 billion.
Rising demand for cloud services and increasing use of big data applications among enterprises and government agencies in Indonesia drives this growth. This demand has also led to a significant investment in new infrastructure projects over the past few years, especially since 2013, with the launching of several large-scale projects across different regions.
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Conclusion
The rapid increase in internet penetration rate has led to the rise in digitalization across end-user sectors such as retail, healthcare, media & entertainment, government & public sector, and others. This has resulted in the growing demand for cloud computing services used by organizations to store and process their data remotely over the internet.
Indonesia's rapidly growing e-commerce sector has attracted large players like Alibaba and JD.com (the most prominent Chinese e-commerce player). They have invested heavily in the country's logistics infrastructure over the past few years.
This has increased demand for data center capacity in Indonesia's main cities, such as Jakarta, Bandung, and Surabaya.
The digital transformation market in Indonesia has been growing steadily over the past few years. In 2016, it was worth $24 billion (IDR 275 trillion). This figure will reach $37 billion (IDR 477 trillion) by 2021, an increase of 44%.
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