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Table Of Content

• U.S. Industry Custom Software Development Trends
• Critical Considerations for Planning and Deploying a Data Center
• Securing 5G Open RAN architecture
• Recent Advances in Optical Networking Technology: A Look at the Future of Data Transmission
• Cisco Certified Network Professional (CCNP) Service Provider
• The Future of Edge Computing: Micro Data Centers Are Redefining Security and Sustainability
• Colocation data centers

The data center runs better with advanced energy monitoring tools and technology that can provide accurate time and power consumption information. With that information, you can adjust your strategies to reduce unnecessary waste and improve efficiency overall. A data center design can be developed with an in-house team or byhiring an expert who offers data centerservices. A new data centerneeds a reliable power supply, regular backups, clear communication paths fordata connections, environmental control, and security measures. Awell-developed data center systemwill offer smoother business operations and better data management. Data center design is the process of defining the layout, architecture, and configuration of a data center to meet operational and business requirements.

U.S. Industry Custom Software Development Trends

The structural design of data centers aims to create a resilient environment capable of withstanding a range of natural and man-made disasters. Specialized planning is essential for ensuring facility stability, safety, and uninterrupted operations. These regulations cover a wide range of factors, including air quality standards such as generator emissions, acceptable noise levels from equipment, and height limitations for cooling towers and communications antennas. Proper regulatory compliance also encompasses fuel storage guidelines, generator operating procedures, truck traffic restrictions, parking space requirements, building and perimeter security setbacks, and visibility sight lines. Make sure the location has robust and reliable telecommunications infrastructure, including fiber optic connections.

Critical Considerations for Planning and Deploying a Data Center

CoreSite's LA1 data center in downtown Los Angeles, also known as One Wilshire®, gives businesses the most options to meet their evolving compute needs. Located in the heart of downtown, LA1 offers multiple high-performance solutions with the ability to scale through the presence of hundreds of service providers combined with dark fiber tethering to CoreSite’s LA2 and LA3 data centers. The termination of multiple subsea cables at One Wilshire creates industry-leading connectivity from the West Coast to Asia-Pacific so businesses can set up a gateway to the global marketplace.

Securing 5G Open RAN architecture

In contrast, modern data center designs focus on flexibility, scalability, and sustainability. The move towards hot aisle containment systems and modular, scalable infrastructure means that energy consumption is significantly lowered. Modern research shows that these designs can achieve a Power Usage Effectiveness (PUE) ratio close to 1.

Recent Advances in Optical Networking Technology: A Look at the Future of Data Transmission

As a result, a data center facility represents the single largest and most expensive asset that the business will possess -- both in terms of capital investment and recurring operational expenses. The data center provides the critical IT infrastructure needed to deliver resources and services to business employees, partners and customers around the world. It helps create a virtual datacenter to fix issues and optimise before physical implementation in anorganization. Entrance rooms serve as the primary point of connection between the data center and external networks. Here, telecommunications cables enter the building and connect to physical IT hardware located at demarcation points.

Schneider Electric collaborates with Nvidia on AI data center design - DatacenterDynamics

Schneider Electric collaborates with Nvidia on AI data center design.

Posted: Mon, 25 Mar 2024 07:00:00 GMT [source]

Data security is a major concern for all organizations, and data centers must be designed to meet the necessary security requirements. This includes features such as fire suppression systems, physical locks on cabinets, and access control systems. Data center storage architecture refers to the design and organization of storage systems that dictate how data is physically stored and accessed within a data center. This voltage is then transformed and supplied through cable that is designed to minimise heat and maximise power distribution. All data centres should have at least N+1 redundancy for power, so that service can continue uninterrupted when electricity sources fail. Facilities account for this by using both a fuel-powered generator and an intermediary battery powered Uninterruptible Power Supply (UPS) system.

The days when a business needed to build and run its own full-fledged data center as an essential cost of doing business are over and have been replaced by third-party services provided by global IaaS, PaaS and SaaS providers. Today, workloads and services can be run in a public cloud just as easily and often at the same or lower cost than running those workloads in a traditional data center. Management is a pivotal element in business service assurance and service-level agreements (SLAs). Many data centers are bound by some form of SLA -- either to internal departments or divisions or to external business partners and customers. Monitoring and management with DCIM and other tools are essential in guaranteeing adherence to an SLA or identifying SLA violations that can be promptly isolated and remediated.

Data centers typically encompass a full building, part of a building, or for large corporations, multiple buildings where computer systems and data reside alongside other necessary equipment. Different tiers and standards exist, from a basic server room to a truly robust environment with fully redundant systems that can operate uninterrupted for an indefinite time despite power outages. Contractors and subcontractors are tasked with constructing the systems based on the design specifications. They collaborate closely with both the data center design team and the commissioning agent to ensure the project’s accurate execution. It involves a rigorous series of tests on installed systems to confirm they perform according to design specifications.

In other cases, power can be purchased from power providers capable of capturing or recovering an equivalent amount of carbon dioxide emitted in energy production, yielding net-zero emissions. To achieve net zero, businesses must embrace energy conservation, energy efficiency -- such as PUE initiatives -- and renewable nonpolluting energy sources. Physical security also extends to the integrity of the data center environment, including temperature, humidity and smoke/fire/flood conditions. This aspect of data center protection is often handled by a BMS that monitors and reports environmental or emergency conditions to building managers. When a business decides to design and build a data center, the natural focus is on the design and construction of the facility.

Key elements to consider include electrical systems, cooling mechanisms, server setups, network topology, security measures, and energy efficiency. Given today’s environmentally aware society, businesses must adhere to Environment, Social, and Governance (ESG) standards and incorporate renewable power sources. Solar panels, wind turbines, and other renewable energy systems reduce our carbon footprint and promote sustainability. This entails ESG standards that consider the environmental impact of our operations, the sociopolitical implications, and governance practices to manage responsibly. Such a holistic approach to sustainability stands to reason and significantly raises a data center’s operational performance in all aspects and its corporate reputation.

This change toward renewable energy not only enhances data centers’ sustainability but also aims to contribute to the adoption of cleaner energy and technologies across industries. McLean and Kipfer emphasized the need for comprehensive planning to address the evolving requirements of modern data center buildings. These data centers are managed by a third party (or a managed services provider) on behalf of a company. These servers provide the processing, memory, local storage, and network connectivity that drive applications. Cloud data centers (also called cloud computing data centers) house IT infrastructure resources for shared use by multiple customers—from scores to millions of customers—via an Internet connection. One of the most common mistakes made when designing a data center is not taking into consideration all of the necessary components.

In the event of a power outage, the UPS takes over with backup batteries, protecting against voltage spikes and powering equipment until backup generators switch on to take over the load. The design and technology of future data centers will focus on innovation, aiming at sustainability, efficiency, and security. However, most businesses opt to maintain some number of workloads in a local data center where the business exerts direct control over the workload and its infrastructure. In these cases, cloud use can enable the business to run less-critical, experimental or temporary workloads in the cloud. This can potentially reduce the amount of space, gear, scalability and costs required for a traditional local data center.

But this common home and office approach doesn't work well in data centers, where racks of equipment create extreme heat in concentrated spaces. Racks of extremely hot gear demand careful application of cooled air, and then deliberate containment and removal of heated exhaust. Data center designers must avoid mixing the hot and cold air that keeps human air-conditioned spaces so comfortable. At the facility level, a data center can incorporate diesel or natural gas-powered backup generators capable of running the entire facility over the long term.

The electrical system in a data center must be designed to fully support all cooling equipment – such as chillers, cooling towers, and air handlers – to maintain optimal temperature levels. To ensure uninterrupted operation of cooling systems, the electrical setup should include redundant circuits and backup generators. Additionally, comprehensive load calculations are essential for determining the electrical capacity required to operate both the cooling equipment and other functions within the data center. Electrical systems serve as the backbone of a data center, powering all its operations and ensuring high availability and uptime. These systems include utility service, power distribution mechanisms, and various types of power units.

In addition, comprehensive monitoring and management help ensure business continuance and disaster recovery, which can be vital for today's regulatory compliance obligations. Designers routinely address server room air handling through the use of containment schemes, such as hot aisle/cold aisle layouts. Consider two rows of equipment racks, where the rears face each other (see diagram, "Data center with hot and cold aisles").