Author: Admin

As the global chip shortage let rip, many chip manufacturers have to slow or even halt semiconductor production. Makers of all kinds of electronics such as switches, PCs, servers are all scrambling to get enough chips in the pipeline to match the surging demand for their products. Every manufacturer, supplier and solution provider in datacenter industry is feeling the impact of the ongoing chip scarcity. However, relief is nowhere in sight yet.

What’s Happening?

Due to the rise of AI and cloud computing, datacenter chips have been a highly charged topic in recent times. As networking switches and modern servers, indispensable equipment in datacenter applications, use more advanced components than an average consumer’s PC, naturally when it comes to chip manufacturers and suppliers, data centers are given the top priority. However, with the demand for data center machines far outstripping supply, chip shortages may continue to be pervasive across the next few years. Coupled with economic uncertainties caused by the pandemic, it further puts stress on datacenter management.

According to a report from the Dell’Oro Group, robust datacenter switch sales over the past year could foretell a looming shortage. As the mismatch in supply and demand keeps growing, enterprises looking to buy datacenter switches face extended lead times and elevated costs over the course of the next year.

“So supply is decreasing and demand is increasing,” said Sameh Boujelbene, leader of the analyst firm’s campus and data-center research team. “There’s a belief that things will get worse in the second half of the year, but no consensus on when it’ll start getting better.”

Back in March, Broadcom said that more than 90% of its total chip output for 2021 had already been ordered by customers, who are pressuring it for chips to meet booming demand for servers used in cloud data centers and consumer electronics such as 5G phones.

“We intend to meet such demand, and in doing so, we will maintain our disciplined process of carefully reviewing our backlog, identifying real end-user demand, and delivering products accordingly,” CEO Hock Tan said on a conference call with investors and analysts.

Major Implications

Extended Lead Times

Arista Networks, one of the largest data center networking switch vendors and a supplier of switches to cloud providers, foretells that switch-silicon lead times will be extended to as long as 52 weeks.

“The supply chain has never been so constrained in Arista history,” the company’s CEO, Jayshree Ullal, said on an earnings call. “To put this in perspective, we now have to plan for many components with 52-week lead time. COVID has resulted in substrate and wafer shortages and reduced assembly capacity. Our contract manufacturers have experienced significant volatility due to country specific COVID orders. Naturally, we’re working more closely with our strategic suppliers to improve planning and delivery.”

Hock Tan, CEO of Broadcom, also acknowledged on an earnings call that the company had “started extending lead times.” He said, “part of the problem was that customers were now ordering more chips and demanding them faster than usual, hoping to buffer against the supply chain issues.”

Elevated Cost

Vertiv, one of the biggest sellers of datacenter power and cooling equipment, mentioned it had to delay previously planned “footprint optimization programs” due to strained supply. The company’s CEO, Robert Johnson, said on an earnings call, “We have decided to delay some of those programs.”

Supply chain constraints combined with inflation would cause “some incremental unexpected costs over the short term,” he said, “To share the cost with our customers where possible may be part of the solution.”

“Prices are definitely going to be higher for a lot of devices that require a semiconductor,” says David Yoffie, a Harvard Business School professor who spent almost three decades serving on the board of Intel.

Conclusion

There is no telling that how the situation will continue playing out and, most importantly, when supply and demand might get back to normal. Opinions vary on when the shortage will end. The CEO of chipmaker STMicro estimated that the shortage will end by early 2023. Intel CEO Patrick Gelsinger said it could last two more years.

As a high-tech network solutions and services provider, FS has been actively working with our customers to help them plan for, adapt to, and overcome the supply chain challenges, hoping that we can both ride out this chip shortage crisis. At least, we cannot lose hope, as advised by Bill Wyckoff, vice president at technology equipment provider SHI International, “This is not an ‘all is lost’ situation. There are ways and means to keep your equipment procurement and refresh plans on track if you work with the right partners.”

Article Source: Impact of Chip Shortage on Datacenter Industry

Related Articles:

The Chip Shortage: Current Challenges, Predictions, and Potential Solutions

Infographic – What Is a Data Center?FacebookTwitterEmail分享

Nowadays, with the advent of the 5G era and the advancement of technology, more and more enterprises rely on IT for almost any choice. Therefore, their demand for better data center services has increased dramatically.

However, due to the higher capital and operating costs caused by the cluttered distribution of equipment in data centers, the space has become one of the biggest factors restricting data centers. In order to solve that problem, it’s necessary to optimize the utilization of existing space, for example, to consolidate white space and gray space in data centers.

What is data center white space?

Data center white space refers to the space where IT equipment and infrastructure are located. It includes servers, storage, network gear, racks, air conditioning units, power distribution systems.

White space is usually measured in square feet, ranging anywhere from a few hundred to a hundred thousand square feet. It can be either raised floor or hard floor (solid floor). Raised floors are developed to provide locations for power cabling, tracks for data cabling, cold air distribution systems for IT equipment cooling, etc. It can have access to all elements easily. Different from raised floors, cooling and cabling systems for hard floors are installed overhead. Today, there is a trend from raised floors to hard floors.

Typically, the white space area is the only productive area where an enterprise can utilize the data center space. Moreover, online activities like working from home have increased rapidly in recent years, especially due to the impact of COVID-19, which has increased business demand for data center white space. Therefore, the enterprise has to design data center white space with care.

What is data center gray space?

Different from data center white space, data center gray space refers to the space where back-end equipment is located. This includes switchgear, UPS, transformers, chillers, and generators.

The existence of gray space is to support the white space, therefore the amount of gray space in equipment is determined by the space assigned for data center white space. The more white space is needed, the more backend infrastructure is required to support it.

How to improve the efficiency of space?

Building more data centers and consuming more energy is not a good option for IT organizations to make use of data center space. To increase data center sustainability and reduce energy costs, it’s necessary to use some strategies to combine data center white space and gray space, thus optimizing the efficiency of data center space.

White Space Efficiency Strategies

• Virtualized technology: The technology of virtualization can integrate many virtual machines into physical machines, reducing physical hardware and saving lots of data center space. Virtualization management systems such as VMware and Hyper V can create a virtualized environment.
• Cloud computing resources: With the help of the public cloud, enterprises can transfer data through the public internet, thus reducing their needs for physical servers and other IT infrastructure.
• Data center planning: DCIM software, a kind of data center infrastructure management tool, can help estimate current and future power and server needs. It can also help data centers track and manage resources and optimize their size to save more space.
• Monitor power and cooling capacity: In addition to the capacity planning about space, monitoring power, and cooling capacity is also necessary to properly configure equipment.

Gray Space Efficiency Strategies

• State-of-art technologies: Technologies like flywheels can increase the power of the machine, reducing the number of batteries required for the power supply. Besides, the use of solar panels can reduce data center electricity bills. And water cooling can also help reduce the costs of cooling solutions.

Compared with white space efficiency techniques, grace space efficiency strategies are pretty less. However, the most efficient plan is to combine data center white space with gray space. By doing so, enterprises can realize the optimal utilization of data center space.

Article Source: Data Center White Space and Gray Space

Related Articles:

How to Utilize Data Center Space More Effectively?

What Is Data Center Virtualization?

The Internet is where we store and receive a huge amount of information. Where is all the information stored? The answer is data centers. At its simplest, a data center is a dedicated place that organizations use to house their critical applications and data. Here is a short look into the basics of data centers. You will get to know the data center layout, the data pathway, and common types of data centers.

To know more about data centers, click here.

Article Source: Infographic – What Is a Data Center?

Related Articles:

What Is a Data Center?

Infographic — Evolution of Data Centers

The rise of the digital economy has promoted the rapid and vigorous development of industries like cloud computing, Internet of Things, and big data, which have put forward higher requirements for data centers. The drawbacks of traditional data centers have emerged gradually, which are increasingly unable to meet the needs of the market. The prefabricated containerized data center meets the current market demand and will usher in a period of rapid development.

What Is a Containerized Data Center?

A containerized data center comes equipped with data center infrastructures housed in a container. There are different types of containerized data centers, ranging from simple IT containers to comprehensive all-in-one systems integrating the entire physical IT infrastructure.

Generally, a containerized data center includes networking equipment, servers, cooling system, UPS, cable pathways, storage devices, lighting and physical security systems.

Pros of Containerized Data Centers

Portability & Durability

Containerized data centers are fabricated in a manufacturing facility and shipped to the end-user in containers. Due to the container appearance, they are flexible to move and cost-saving compared to traditional data centers. What’s more, containers are dustproof, waterproof, and shock-resistant, making containerized data centers suitable for various harsh environments.

Rapid Deployment

Unlike traditional data centers with limited flexibility and difficult management, containerized data centers are prefabricated and pretested at the factory, and are transported to the deployment site for direct set-up. With access to utility power, network and water, the data center can work well. Therefore, the on-site deployment period for containerized data centers is substantially shortened to 2~3 months, demonstrating rapid and flexible deployment.

Energy Efficiency

Containerized data centers are designed for energy efficiency, which effectively limits ongoing operational costs. They enable power and cooling systems to match capacity and workload well, improving work efficiency and reducing over-configuration. More specifically, containerized data centers adopt in-row cooling systems to deliver air to adjacent hotspots with strict airflow management, which greatly improves cold air utilization, saves space and electricity costs in the server room, and reduces power usage efficiency (PUE).

High Scalability

Because of its unique modular design, a containerized data center is easy to install and scale up. More data centers can be added to the modular architecture of containerized data centers according to the requirements to optimize the IT configuration in a data center. With high scalability, containerized data centers can meet the changing demands of the organization rapidly and effortlessly.

Cons of Containerized Data Centers

Limited Computing Performance: Although it contains the entire IT infrastructure, a containerized data center still lacks the same computing capability as a traditional data center.

Low Security: Isolated containerized data centers are more vulnerable to break-ins than data center buildings. And without numerous built-in redundancies, an entire containerized data center can be shut down by a single point of failure.

Lack of Availability: It is challenging and expensive to provide utilities and networks for containerized data centers placed in edge areas.

Conclusion

Despite some shortcomings, containerized data centers have obvious advantages over traditional data centers. From the perspective of both current short-term investment and future long-term operating costs, containerized data centers have become the future trend of data center construction at this stage.

Article Source: What Is a Containerized Data Center: Pros and Cons

Related Articles:

What Is a Data Center?

Micro Data Center and Edge Computing

Top 7 Data Center Management Challenges

Over the years, the Internet of Things and IoT devices have grown tremendously, effectively boosting productivity and accelerating network agility. This technology has also elevated the adoption of edge computing while ushering in a set of advanced edge devices. By adopting edge computing, computational needs are efficiently met since the computing resources are distributed along the communication path, i.e., via a decentralized computing infrastructure.

One of the benefits of edge computing is improved performance as analytics capabilities are brought closer to the machine. An edge data center also reduces operational costs, thanks to the reduced bandwidth requirement and low latency.

Below, we’ve explored more about 5G wireless systems and multi-access edge computing (MEC), an advanced form of edge computing, and how both extend cloud computing benefits to the edge and closer to the users. Keep reading to learn more.

What Is Multi-Access Edge Computing

Multi-access edge computing (MEC) is a relatively new technology that offers cloud computing capabilities at the network’s edge. This technology works by moving some computing capabilities out of the cloud and closer to the end devices. Hence data doesn’t travel as far, resulting in fast processing speeds.

Ideally, there are two types of MEC, dedicated MEC and distributed MEC. Dedicated MEC is typically deployed at the customer’s site on a mobile private network and is designed only for one business. On the other hand, distributed MEC is deployed on a public network, either 4G or 5G, and connects shared assets and resources.

With both the dedicated and distributed MEC, applications run locally, and data is processed in real or near real-time. This helps avoid latency issues for faster response rates and decision-making. MEC technology has seen wider adoption in video analytics, augmented reality, location services, data caching, local content distribution, etc.

How MEC and 5G are Changing Different Industries

At the heart of multi-access edge computing are wireless and radio access network technologies that open up different networks to a wide range of innovative services. Today, 5G technology is the ultimate network that supports ultra-reliable low latency communication. It also provides an enhanced mobile broadband (eMBB) capability for use cases involving significant data rates such as virtual reality and augmented reality.

That said, 5G use cases can be categorized into three domains, massive IoT, mission-critical IoT, and enhanced mobile broadband. Each of the three categories requires different network features regarding security, mobility, bandwidth, policy control, latency, and reliability.

Why MEC Adoption Is on the Rise

5G MEC adoption is growing exponentially, and there are several reasons why this is the case. One reason is that this technology aligns with the distributed and scalable nature of the cloud, making it a key driver of technical transformation. Similarly, MEC technology is a critical business transformation change agent that offers the opportunity to improve service delivery and even support new market verticals.

Among the top use cases driving the high level of 5G, MEC implementation includes video content delivery, the emergence of smart cities, smart utilities (e.g., water and power grids), and connected cars. This also showcases the significant role MEC plays in different IoT domains. Here’s a quick overview of the primary use cases:

• Autonomous vehicles – 5G MEC can help enhance operational functions such as continuous sensing and real-time traffic monitoring. This reduces latency issues and increases bandwidth.
• Smart homes – MEC technology can process data locally, boosting privacy and security. It also reduces communication latency and allows for fast mobility and relocation.
• AR/VR – Moving computational capabilities and processes to edge amplifies the immersive experience to users, plus it extends the battery-life of AR/VR devices.
• Smart energy – MEC resolves traffic congestion issues and delays due to huge data generation and intermittent connectivity. It also reduces cyber-attacks by enforcing security mechanisms closer to the edge.

Getting Started With 5G MEC

One of the key benefits of adopting 5G MEC technology is openness, particularly API openness and the option to integrate third-party apps. Standards compliance and application agility are the other value propositions of multi-access edge computing. Therefore, enterprises looking to benefit from a flexible and open cloud should base their integration on the key competencies they want to achieve.

One of the challenges common during the integration process is hardware platforms’ limitations, as far as scale and openness are concerned. Similarly, deploying 5G MEC technology is costly, especially for small-scale businesses with limited financial backing. Other implementation issues include ecosystem and standards immaturity, software limitations, culture, and technical skillset challenges.

To successfully deploy multi-access edge computing, you need an effective 5G MEC implementation strategy that’s true and tested. You should also consider partnering with an expert IT or edge computing company for professional guidance.

5G MEC Technology: Key Takeaways

Edge-driven transformation is a game-changer in the modern business world, and 5G multi-access edge computing technology is undoubtedly leading the cause. Enterprises that embrace this new technology in their business models benefit from streamlined operations, reduced costs, and enhanced customer experience.

Even then, MEC integration isn’t without its challenges. Companies looking to deploy multi-access edge computing technology should have a solid implementation strategy that aligns with their entire digital transformation agenda to avoid silos.

Article Source: 5G and Multi-Access Edge Computing

Related Articles:

What is Multi-Access Edge Computing?https://community.fs.com/blog/what-is-multi-access-edge-computing.html

Edge Computing vs. Multi-Access Edge Computing

What Is Edge Computing?

As the need for data storage drives the growth of data centers, colocation facilities are increasingly important to enterprises. A colocation data center brings many advantages to an enterprise data center, such as carriers helping enterprises manage their IT infrastructure that reduces the cost for management. There are two types of hosting carriers: carrier-neutral and carrier-specific. In this article, we will discuss the differentiation of them.

Carrier Neutral and Carrier Specific Data Center: What Are They?

Accompanied by the accelerated growth of the Internet, the exponential growth of data has led to a surge in the number of data centers to meet the needs of companies of all sizes and market segments. Two types of carriers that offer managed services have emerged on the market.

Carrier-neutral data centers allow access and interconnection of multiple different carriers while the carriers can find solutions that meet the specific needs of an enterprise’s business. Carrier-specific data centers, however, are monolithic, supporting only one carrier that controls all access to corporate data. At present, most enterprises choose carrier-neutral data centers to support their business development and avoid some unplanned accidents.

There is an example, in 2021, about 1/3 of the cloud infrastructure in AWS was overwhelmed and down for 9 hours. This not only affected millions of websites, but also countless other devices running on AWS. A week later, AWS was down again for about an hour, bringing down the Playstation network, Zoom, and Salesforce, among others. The third downtime of AWS also impacted Internet giants such as Slack, Asana, Hulu, and Imgur to a certain extent. 3 outages of cloud infrastructure in one month took a beyond measure cost to AWS, which also proved the fragility of cloud dependence.

In the above example, we can know that the management of the data center by the enterprise will affect the business development due to some unplanned accidents, which is a huge loss for the enterprise. To lower the risks caused by using a single carrier, enterprises need to choose a carrier-neutral data center and adjust the system architecture to protect their data center.

Why Should Enterprises Choose Carrier Neutral Data Center?

Carrier-neutral data centers are data centers operated by third-party colocation providers, but these third parties are rarely involved in providing Internet access services. Hence, the existence of carrier-neutral data centers enhances the diversity of market competition and provides enterprises with more beneficial options.

Another colocation advantage of a carrier-neutral data center is the ability to change internet providers as needed, saving the labor cost of physically moving servers elsewhere. We have summarized several main advantages of a carrier-neutral data center as follows.

Redundancy

A carrier-neutral colocation data center is independent of the network operators and not owned by a single ISP. Out of this advantage, it offers enterprises multiple connectivity options, creating a fully redundant infrastructure. If one of the carriers loses power, the carrier-neutral data center can instantly switch servers to another online carrier. This ensures that the entire infrastructure is running and always online. On the network connection, a cross-connect is used to connect the ISP or telecom company directly to the customer’s sub-server to obtain bandwidth from the source. This can effectively avoid network switching to increase additional delay and ensure network performance.

Options and Flexibility

Flexibility is a key factor and advantage for carrier-neutral data center providers. For one thing, the carrier neutral model can increase or decrease the network transmission capacity through the operation of network transmission. And as the business continues to grow, enterprises need colocation data center providers that can provide scalability and flexibility. For another thing, carrier-neutral facilities can provide additional benefits to their customers, such as offering enterprise DR options, interconnect, and MSP services. Whether your business is large or small, a carrier-neutral data center provider may be the best choice for you.

Cost-effectiveness

First, colocation data center solutions can provide a high level of control and scalability, expanding opportunity to storage, which can support business growth and save some expenses. Additionally, it also lowers physical transport costs for enterprises. Second, with all operators in the market competing for the best price and maximum connectivity, a net neutral data center has a cost advantage over a single network facility. What’s more, since freedom of use to any carrier in a carrier-neutral data center, enterprises can choose the best cost-benefit ratio for their needs.

Reliability

Carrier-neutral data centers also boast reliability. One of the most important aspects of a data center is the ability to have 100% uptime. Carrier-neutral data center providers can provide users with ISP redundancy that a carrier-specific data center cannot. Having multiple ISPs at the same time gives better security for all clients. Even if one carrier fails, another carrier may keep the system running. At the same time, the data center service provider provides 24/7 security including all the details and uses advanced technology to ensure the security of login access at all access points to ensure that customer data is safe. Also, the multi-layered protection of the physical security cabinet ensures the safety of data transmission.

Summary

While many enterprises need to determine the best option for their company’s specific business needs, by comparing both carrier-neutral and carrier-specific, choosing a network carrier neutral data center service provider is a better option for today’s cloud-based business customers. Several advantages, such as maximizing total cost, lower network latency, and better network coverage, are of working with a carrier-neutral managed service provider. With no downtime and constant concerns about equipment performance, IT decision-makers for enterprise clients have more time to focus on the more valuable areas that drive continued business growth and success.

Article Source: Carrier Neutral vs. Carrier Specific: Which to Choose?

Related Articles:

What Is Data Center Storage?

On-Premises vs. Cloud Data Center, Which Is Right for Your Business?

Data center infrastructure refers to all the physical components in a data center environment. These physical components play a vital role in the day-to-day operations of a data center. Hence, data center management challenges are an urgent issue that IT departments need to pay attention to. On the one hand, it is to improve the energy efficiency of the data center; on the other hand, it is to know about the operating performance of the data center in real-time ensuring its good working condition and maintaining enterprise development.

Data Center Infrastructure Basics

The standard for data center infrastructure is divided into four tiers, each of which consists of different facilities. They mainly include cabling systems, power facilities, cooling facilities, network infrastructure, storage infrastructure, and computing resources.

There are roughly two types of infrastructure inside a data center: the core components and IT infrastructure. Network infrastructure, storage infrastructure, and computing resources belong to the former, while cooling equipment, power, redundancy, etc. belong to the latter.

Core Components

Network, storage, and computing systems are vital infrastructures for data centers to achieve sharing access to applications and data, providing data centers with shared access to applications and data. Also, they are the core components of data centers.

Network Infrastructure

Datacenter network infrastructure is a combination of network resources, consisting of switches, routers, load balancing, analytics, etc., to facilitate the storage and processing of applications and data. Modern data center networking architectures, through using full-stack networking and security virtualization platforms that support a rich set of data services, can achieve connecting everything from VMs, containers, and bare-metal applications, while enabling centralized management and fine-grained security controls.

Storage Infrastructure

Datacenter storage is a general term for the tools, technologies and processes for designing, implementing, managing and monitoring storage infrastructure and resources in data centers, mainly referring to the equipment and software technologies that implement data and application storage in data center facilities. These include hard drives, tape drives and other forms of internal and external storage and backup management software utilities external storage facilities/solutions.

Computing Resources

A data center meter is a memory and processing power to run applications, usually provided by high-end servers. In the edge computing model, the processing and memory used to run applications on servers may be virtualized, physical, distributed among containers or distributed among remote nodes.

IT Infrastructure

As data centers become critical to enterprise IT operations, it is equally important to keep them running efficiently. When designing data center infrastructure, it is necessary to evaluate its physical environment, including cabling system, power system, cooling system to ensure the security of the physical environment of the data center.

Cabling Systems

The integrated cabling is an important part of data center cable management, supporting the connection, intercommunication and operation of the entire data center network. The system is usually composed of copper cables, optical cables, connectors and wiring equipment. The application of the data center integrated wiring system has the characteristics of high density, high performance, high reliability, fast installation, modularization, future-oriented, and easy application.

Power Systems

Datacenter digital infrastructure requires electricity to operate. Even an interruption of a fraction of a second will result in a significant impact. Hence, power infrastructure is one of the most critical components of a data center. The data center power chain starts at the substation and ends up through building transformers, switches, uninterruptible power supplies, power distribution units, and remote power panels to racks and servers.

Cooling Systems

Data center servers generate a lot of heat while running. Based on this characteristic, cooling is critical to data center operations, aiming to keep systems online. The amount of power each rack can keep cool by itself places a limit on the amount of power a data center can consume. Generally, each rack can allow the data center to operate at an average 5-10 kW cooling density, but some may be higher.

Data Center Infrastructure Management Solutions

Due to the complexity of IT equipment in a data center, the availability, reliability, and maintenance of its components require more attention. Efficient data center operations can be achieved through balanced investments in facilities and accommodating equipment.

Energy Usage Monitoring Equipment

Traditional data centers lack the energy usage monitoring instruments and sensors required to comply with ASHRAE standards and collect measurement data for use in calculating data center PUE. It results in a poor monitoring environment for the power system of the data center. One measure is to install energy monitoring components and systems on power systems to measure data center energy efficiency. Enterprise teams can implement effective strategies by the measure to balance overall energy usage efficiency and effectively monitor the energy usage of all other nodes.

Cooling Facilities Optimization

Independent computer room air conditioning units used in traditional data centers often have separate controls and set points, resulting in excessive operation due to temperature and humidity adjustments. It’s a good way for helping servers to achieve cooling by creating hot-aisle/cold-aisle layouts to maximize the flow of cold air to the equipment intakes and the hot exhaust air from the equipment racks. The creation of hot or cold aisles can eliminate the mixing of hot and cold air by adding partitions or ceilings.

CRAC Efficiency Improvement

Packaged DX air conditioners likely compose the most common type of cooling equipment for smaller data centers. These units are often described as CRAC units. There are, however, there are several ways to improve the energy efficiency of the cooling system employing DX units. Indoor CRAC units are available with a few different heat rejection options.

• – As with rooftop units, adding evaporative spray can improve the efficiency of air-cooled CRAC units.
• – A pre-cooling water coil can be added to the CRAC unit upstream of the evaporator coil. When ambient conditions allow the condenser water to be cooled to the extent that it provides direct cooling benefits to the air entering the CRAC unit, the condenser water is diverted to the pre-cooling coil. This will reduce or sometimes eliminate the need for compressor-based cooling for the CRAC unit.

DCIM

Data center infrastructure management is the combination of IT and operations to manage and optimize the performance of data center infrastructure within an organization. DCIM tools help data center operators monitor, measure, and manage the utilization and energy consumption of data center-related equipment and facility infrastructure components, effectively improving the relationship between data center buildings and their systems.

DCIM enables bridging of information across organizational domains such as data center operations, facilities, and IT to maximize data center utilization. Data center operators create flexible and efficient operations by visualizing real-time temperature and humidity status, equipment status, power consumption, and air conditioning workloads in server rooms.

Preventive Maintenance

In addition to the above management and operation solutions for infrastructure, unplanned maintenance is also an aspect to consider. Unplanned maintenance typically costs 3-9 times more than planned maintenance, primarily due to overtime labor costs, collateral damage, emergency parts, and service calls. IT teams can create a recurring schedule to perform preventive maintenance on the data center. Regularly checking the infrastructure status and repairing and upgrading the required components promptly can keep the internal infrastructure running efficiently, as well as extend the lifespan and overall efficiency of the data center infrastructure.

Article Source: Data Center Infrastructure Basics and Management Solutions

Related Articles:

Data Center Migration Steps and Challenges

What Are Data Center Tiers?

Background

Green data centers appear in the concept of enterprise construction, due to the continuous growth of new data storage requirements and the steady enhancement of green environmental protection awareness. Newly retained data must be protected, cooled, and transferred efficiently. This means that the huge energy demands of data centers present challenges in terms of cost and sustainability, and enterprises are increasingly concerned about the energy demands of their data centers. It can be seen that sustainable and renewable energy resources have become the development trend of green data centers.

Green Data Center Is a Trend

A green data center is a facility similar to a regular data center that hosts servers to store, manage, and disseminate data. It is designed to minimize environmental impact by providing maximum energy efficiency. Green data centers have the same characteristics as typical data centers, but the internal system settings and technologies can effectively reduce energy consumption and carbon footprints for enterprises.

The internal construction of a green data center requires the support of a series of services, such as cloud services, cable TV services, Internet services, colocation services, and data protection security services. Of course, many enterprises or carriers have equipped their data centers with cloud services. Some enterprises may also need to rely on other carriers to provide Internet and related services.

According to market trends, the global green data center market is worth around $59.32 billion in 2021 and is expected to grow at a CAGR of 23.5% in the future to 2026. It also shows that the transition to renewable energy sources is accelerating because of the growth of green data centers.

As the growing demand for data storage drives the modernization of data centers, it also places higher demands on power and cooling systems. On the one hand, data centers need to convert non-renewable energy into electricity to generate electricity, resulting in rising electricity costs; on the other hand, some enterprises need to complete the construction of cooling facilities and server cleaning through a lot of water, all of which are ample opportunities for the green data center market. For example, Facebook and Amazon continue to expand their businesses, which has also increased the need for data storage of global companies. These enterprises need a lot of data to complete the analysis of potential customers, but these data processing needs will require a lot of energy. Therefore, the realization of green data centers has become an urgent need for enterprises to solve these problems, and this can also bring more other benefits to enterprises.

Green Data Center Benefits

The green data center concept has grown rapidly in the process of enterprise data center development. Many businesses prefer alternative energy solutions for their data centers, which can bring many benefits to the business. The benefits of green data centers are as follows.

Energy Saving

Green data centers are designed not only to conserve energy, but also to reduce the need for expensive infrastructure to handle cooling and power needs. Sustainable or renewable energy is an abundant and reliable source of energy that can significantly reduce power usage efficiency (PUE). The reduction of PUE enables enterprises to use electricity more efficiently. Green data centers can also use colocation services to decrease server usage, lower water consumption, and reduce the cost of corporate cooling systems.

Cost Reduction

Green data centers use renewable energy to reduce power consumption and business costs through the latest technologies. Shutting down servers that are being upgraded or managed can also help reduce energy consumption at the facility and control operating costs.

Environmental Sustainability

Green data centers can reduce the environmental impact of computing hardware, thereby creating data center sustainability. The ever-increasing technological development requires the use of new equipment and technologies in modern data centers, and the power consumption of these new server devices and virtualization technologies reduces energy consumption, which is environmentally sustainable and brings economic benefits to data center operators.

Enterprise Social Image Enhancement

Today, users are increasingly interested in solving environmental problems. Green data center services help businesses resolve these issues quickly without compromising performance. Many customers already see responsible business conduct as a value proposition. Enterprises, by meeting compliance, regulatory requirements and regulations of the corresponding regions through the construction of green data centers, improve the image of their own social status.

Reasonable Use of Resources

In an environmentally friendly way, green data centers can allow enterprises to make better use of various resources such as electricity, physical space, and heat, integrating the internal facilities of the data center. It promotes the efficient operation of the data center while achieving rational utilization of resources.

5 Ways to Create a Green Data Center

After talking about the benefits of a green data center, then how to build a green data center. Here are a series of green data center solutions.

• Virtualization extension: Enterprises can build a virtualized computer system with the help of virtualization technology, and run multiple applications and operating systems through fewer servers, thereby realizing the construction of green data centers.
• Renewable energy utilization: Enterprises can opt for solar panels, wind turbines or hydroelectric plants that can generate energy to power backup generators without any harm to the environment.
• Enter eco mode: Using an Alternating current USPs is one way to switch eco mode. This setup can significantly improve data center efficiency and PUE. Alternatively, enterprises can reuse equipment, which not only saves money, but also eliminates unnecessary emissions from seeping into the atmosphere.
• Optimized cooling: Data center infrastructure managers can introduce simple and implementable cooling solutions, such as deploying hot aisle/cold aisle configurations. Data centers can further accelerate cooling output by investing in air handlers and coolers, and installing economizers that draw outside air from the natural environment to build green data center cooling systems.
• DCIM and BMS systems: DCIM software and BMS software can help data centers managers identify and document ways to use more efficient energy, helping data centers become more efficient and achieve sustainability goals.

Conclusion

Data center sustainability means reducing energy/water consumption and carbon emissions to offset increased computing and mobile device usage to keep business running smoothly. The development of green data centers has become an imperative development trend, and it also caters to the green goals of global environmental protection. As a beneficiary, enterprises can not only save operating costs, but also effectively reduce energy consumption. This is also an important reason for the construction of green data centers.

Article Source: Why Green Data Center Matters

Related Articles:

Data Center Infrastructure Basics and Management Solutions

What Is a Data Center?