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Month: March 2023

Servers and Data Centres

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/Servers and Data Centres

Data centres and servers are the backbone of today’s digital world. They store, process and transmit vast amounts of data every day, enabling us to access information, communicate with others and conduct business online. In this article, we will outline the importance of data centres and servers, how they work, and the challenges and trends shaping their future.

What is a data centre?

A data centre is a facility used to house computer systems and associated components, such as telecommunications and storage systems. Data centres are designed to provide high levels of availability, security and reliability to ensure that stored and processed data is always available and protected.

They come in a variety of sizes, from small server rooms to large corporate facilities that can cover hundreds of square metres. Some data centres are owned and operated by individual organisations, while others are operated by third-party service providers and offer hosting services to multiple customers.

How do servers work?

Servers are the backbone of data centres, providing the computing power needed to process and store data. A server is a computer system that is designed to provide specific services or resources to other computers or networked devices.

Servers can perform many functions, such as hosting websites, running applications and storing and processing data. A server can be a physical machine or a virtual machine that runs on top of a physical machine. Virtualisation technology allows multiple virtual servers to run on a single physical machine, allowing organisations to maximise computing resources and reduce costs.

Challenges and trends

As the demand for digital services continues to grow, data centres and servers face several challenges and trends that will shape their future.

  • One of the primary challenges is the need for greater energy efficiency. Data centres consume huge amounts of energy, and as the number of data centres grows, so does their environmental impact. To meet this challenge, data centres are adopting more energy-efficient technologies, such as advanced cooling systems, and using renewable energy sources such as solar and wind power.
  • Another challenge is the need for greater security. Data breaches can have serious consequences, both for organisations and individuals. Data centres are implementing more stringent security measures, such as multi-factor authentication and encryption, to protect against cyber attacks.
  • In terms of trends, 'edge computing’ is emerging as a significant trend in data centre and server architecture. It involves processing data closer to the source, reducing latency and improving performance. This is particularly important for applications requiring real-time data processing, such as autonomous vehicles and industrial automation.

Summary

Data centres and servers are essential components of the digital infrastructure that supports our modern world. They enable us to access and store vast amounts of information and provide the computing power needed for critical applications and services. As the demand for digital services continues to grow, data centres and servers will face ongoing challenges and trends that will shape their future. By adopting innovative technologies and strategies, data centres and servers can continue to evolve and meet the needs of our rapidly changing digital world.

Supermicro Ultra SuperServer

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Supermicro Ultra SuperServer® is Supermicro's 11th-generation, high-performance general-purpose server. Ultra is designed to deliver superior performance, flexibility, scalability and serviceability in demanding IT environments, and to power critical enterprise workloads.

Unmatched performance: support for two scalable second-generation Intel® Xeon® processors with up to 28 cores per socket and up to 6 TB of ECC DDR4 memory in 24 DIMM slots with support for Intel® Optane Technology makes Ultra designed to handle demanding and complex workloads . Ultra is available in NVMe all-flash configurations, where users can benefit from reduced latency and increased IOP. With NVMe, it is possible to increase storage latency by up to 7 times and increase throughput by up to 6 times.1 The ROI benefits from NVMe deployments are immediate and significant.

Exceptional flexibility: Discover the freedom to adapt to different workloads with the versatile Supermicro Ultra system. Enhance your server environment with the perfect combination of computing power, memory and storage performance, network flexibility and serviceability. This highly scalable system provides excellent expansion and storage options with our patented vertical system. With support for multiple additional PCIe cards, the Ultra future-proofs your business with ever-changing computing and storage. This Ultra server is designed to handle any workload in any number of demanding environments.

Continued reliability and ease of service: Achieve higher levels of high availability and storage with the latest scalable Intel® Xeon® processors, ECC DDR4 memory modules, hot-swappable drive bays with NVMe support and energy-efficient redundant power supplies. Designed from the ground up as enterprise grade, Ultra is fully equipped with energy-efficient components and built-in redundancy.

ITAD a E-Waste Recycling, What are the differences?

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/ITAD a E-Waste Recycling, What are the differences?

Electronic devices, for example smartphones, laptops, televisions, household appliances, are an integral part of our daily lives. However, the constant upgrading and discarding of these devices creates electronic waste, which can harm the environment and people’s health. The solution to this problem is electro-recycling, which provides a safe way to recycle electronic devices.However, electronics recycling and IT asset disposal (ITAD) are two terms that are often used interchangeably, but are actually two separate processes. Although both involve the proper disposal of electronic equipment, they have different goals and methods. In this article, we will discuss the differences between electronics recycling and ITAD.

Electronics recycling

Electronics recycling is the process of collecting, disassembling and separating various components of electronic devices to recover valuable materials such as copper, aluminum and precious metals. Recycling helps reduce the amount of electronic waste that ends up in landfills, conserves natural resources and reduces the environmental impact of manufacturing new electronic devices.

IT Asset Disposal (ITAD)

This is a more comprehensive process that includes proper management of all aspects of decommissioned IT assets. This includes data sanitization, secure storage, remarketing and environmentally friendly disposal. ITAD’s goal is to maximize the value of decommissioned IT assets while minimizing risks related to data security, compliance and environmental impact.

Data sanitization

One of the key differences between electronics recycling and ITAD is the emphasis on data security. In ITAD, data sanitization is a critical part of the process. It involves securely removing or destroying data from decommissioned IT assets to ensure that sensitive information does not fall into the wrong hands. Data sanitization must be carried out in accordance with industry standards and regulations to ensure compliance.

Remarketing process

This process involves assessing the condition and value of decommissioned IT equipment that may need to be repaired or data deleted before being sold. ITAD providers can resell the equipment through online marketplaces or buy-back programs. Remarketing benefits businesses by recovering value and providing affordable options for individuals and small businesses. It also benefits the environment by reducing electronic waste and conserving resources.

Differences between electronics recycling and ITAD

Although electronics recycling and ITAD share the common goal of reducing electronic waste, there are some key differences between the two practices. Electronics recycling focuses on recovering valuable materials from devices, while ITAD deals with the safe disposal of decommissioned IT equipment. ITAD service providers must adhere to strict data security standards and ensure that all data is safely removed before disposal or resale.

Benefits of electronics recycling and ITAD

Electronics recycling and ITAD offer a number of benefits, including environmental and economic advantages. Electronics recycling reduces waste in landfills and conserves natural resources. It also creates employment opportunities in the recycling industry. ITAD provides companies with a safe and cost-effective way to dispose of decommissioned IT equipment while ensuring that sensitive data is safely disposed of. ITAD also allows companies to recover some of the value of decommissioned IT equipment through resale or donation.

Summary

Electronics recycling and ITAD are two important practices that help reduce electronic waste and promote a more sustainable future. While electronics recycling focuses on recovering valuable materials from electronic devices, ITAD deals with the safe disposal of recalled IT equipment. By partnering with reputable electronics recyclers and ITAD, such as SDR-IT along with strategic partner COMPAN-IT, individuals and companies can be assured that their electronic waste is properly managed and disposed of in a safe and environmentally friendly manner.

Compan-IT International IT hardware supplier
+48 75 62 99 015
Poland, 58-560 Jelenia Góra, ul. Wojewódzka 13a
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