Tag Archive for: WIFI Design

Striving for 100Gbps: The Move to Modernise IT Networking

100 gbps it infrastructure

The pulse of any business lies within its IT network infrastructure. Businesses voyage through the digital terrain, searching for swifter and more dependable connectivity. Consequently, transitioning from 1 Gigabit to 10, 25, and 100 Gigabits per second (Gbps) is crucial for backbone networks. 

The demand for bandwidth continues to skyrocket due to data-intensive applications, cloud computing and the Internet of Things (IoT). Traditional networks, constrained by their limited capacity, require assistance to match this exponential surge.  

Subsequently, high-speed backbone networks, operating at velocities of 10, 25, and even 100 Gbps, became essential lifelines for seamless digital connectivity among devices, applications and users. 

Whether streaming high-definition content, conducting real-time analytics, or supporting pivotal operations, the need for velocity has never been more critical.  

The Imperative of Modernisation  

Modernising IT network infrastructure is not merely about staying abreast of current trends; it’s about safeguarding the future of your enterprise. Primarily because outdated technology and insufficient bandwidth in legacy systems impede progress and growth. By embracing 10, 25, and 100 Gbps backbone networks, businesses can unleash the full potential of their digital ecosystems. 

Fuelling Productivity and Efficiency  

Firstly, a vital advantage of a contemporary network lies in its capacity to boost productivity and efficiency. With accelerated data transfer speeds, employees can access information instantaneously, collaborate seamlessly and execute tasks briskly. This enhanced agility augments operational efficiency and empowers teams to respond swiftly to market dynamics and customer demands.  

The Emergence of Power over Ethernet (PoE++)  

Concurrently, with the shift towards high-speed networks, there’s been a surge in demand for Power over Ethernet (PoE) solutions. PoE technology powers networked devices like IP cameras and wireless access points via Ethernet cables.

The advent of PoE++ (IEEE 802.3bt), capable of delivering up to 100 watts of power per port, heralds a new epoch of connectivity wherein devices are not solely interconnected but also powered via the network infrastructure. This convergence of power and data streamlines deployment, reduces costs, and lays the groundwork for a scalable network ecosystem. 


IT network, high speed 100gbps

The Cost of Inaction  

While the merits of modernising IT network infrastructure are abundantly clear, the consequences of inertia can be dire. Organisations that neglect to invest in high-speed backbone networks risk lagging in the digital race. Outmoded systems are susceptible to outages and hardware failures and suffer from performance bottlenecks that can stymie innovation and impede competitiveness.  

Furthermore, in an era where downtime translates to financial losses and reputational damage, the potential toll of network failures can be staggering. From disrupted operations to tarnished brand image, the repercussions of a faltering network extend far beyond mere inconvenience, underscoring the urgency of proactive investment in IT infrastructure.  

In Summary  

The significance of modernising IT network infrastructure cannot be overstated. As enterprises navigate the complexities of the digital age, the necessity for high-speed backbone networks has become indispensable. By embracing 10, 25, and 100 Gbps networks, harnessing the potential of PoE++ and proactively investing in modern infrastructure, organisations can chart a course towards a connected future characterised by agility, efficiency, and innovation.  

If you are reviewing your Network, then feel free to reach out to one of our experts at 01235 433900 or via email at [email protected], who will be able to help you understand how proper network design takes place. Alternatively, you can contact me directly via DM or at [email protected]. 

Read more… The Crucial Role of WI-FI Design

Abstract image of WI-WI Network

The Crucial Role of WIFI Design

Abstract image of WI-WI Network

Connectivity is the lifeblood of business operations and the importance of a robust WI-FI network in business environments cannot be overstated. From facilitating seamless communication to supporting critical business applications, a well-designed WI-FI infrastructure is essential for ensuring productivity and efficiency in the workplace.

However, achieving optimal WI-FI performance requires more than just installing a few access points haphazardly throughout the office space. I have seen my fair share of this over my time auditing sites. It demands careful planning, strategic placement and meticulous configuration. A lack of structured planning can indeed lead to pitfalls. It’s essential to approach the process methodically to ensure optimal performance and security.

The Pitfalls of Poor WI-FI Design

Deploying or upgrading WI-FI networking without proper design considerations can lead to many issues that impede productivity and frustrate users. Here are some common pitfalls associated with inadequate WI-FI design:

Dead Zones and Coverage Gaps:

With proper planning, specific areas within the office may be able to handle better coverage, leading to dead zones where employees struggle to connect or experience slow speeds. Likewise, these coverage gaps can hinder mobility and limit the flexibility of workspace utilisation. Modern devices make this even worse, as they are super sensitive to poor WI-FI signals or need help with roaming when the signal is not maintained.

Interference and Congestion:

In environments with multiple WI-FI networks and other wireless devices and electronic equipment, interference and congestion can degrade signal quality and throughput. This interference can result in unreliable connections, dropped packets, and sluggish performance, especially during peak usage hours.

Security Vulnerabilities:

A poorly designed WI-FI network may inadvertently expose sensitive corporate data to security risks. Weak encryption, inadequate access controls, and misconfigured settings can create vulnerabilities. This can pose significant security risks including cyber-attacks.

Scalability Challenges:

As the organisation evolves, an inadequately designed WI-FI infrastructure may struggle to scale effectively to accommodate increasing users and devices. This can lead to bandwidth limitations, network congestion, and degraded performance over time.

What is SASE?

The Benefits of Proper WI-FI Design

On the other hand, investing resources into proper WI-FI design yields a multitude of benefits that enhance the user experience and support business objectives. The Benefits of Proper WI-FI include:

Optimised Coverage and Performance:

WI-FI designers can determine the access points’ ideal placement and configuration by conducting a thorough site survey to ensure comprehensive coverage and optimal performance. This minimises dead zones, reduces signal interference, and delivers consistent connectivity across all areas. Planning for both coverage and density is key.

Coverage refers to the area where Wi-Fi signals are available. It’s essential to provide adequate coverage throughout the facility. Likewise, consider the physical layout, including walls, floors, and obstacles. Adjust access point (AP) placement to minimise dead zone. Finally, think about “high-traffic areas” such as conference rooms and lobbies that require strong coverage to accommodate users.

Density relates to the number of devices connecting to an AP. High-density areas need careful planning to ensure that the deployed technology meets the end user’s needs in that location. For instance, Conference Rooms require high density during meetings but may be empty at other times. Whereas, open workspaces need high-density coverage due to the numerous users.

Improved Reliability and Stability:

A well-designed WI-FI network employs advanced techniques such as channel optimisation, band steering, and roaming assistance to mitigate interference and maintain stable connections. This enhances reliability and ensures seamless roaming for users moving between different office areas.

Enhanced Security and Compliance:

Proper WI-FI design incorporates robust security measures, including strong encryption protocols, authentication mechanisms, and access controls, to protect against unauthorised access and mitigate security threats. By adhering to industry best practices and compliance standards, organisations can safeguard sensitive data and mitigate the risk of data breaches.

Scalability and Futureproofing:

A scalable WI-FI design anticipates future growth and technological advancements, allowing the network to expand seamlessly to accommodate evolving business needs. Organisations can future-proof their WI-FI networks and avoid costly redesigns or upgrades by implementing scalable architecture and infrastructure components.

A reliable and high-performance WI-FI network is essential for driving productivity, collaboration, and innovation in today’s digital workplace. Organisations can mitigate the risks associated with poor connectivity and deliver an exceptional user experience to employees, clients, and partners by prioritising proper WI-FI design during deployment or upgrade initiatives. From optimising coverage and performance to enhancing security and scalability, the benefits of investing in proper WI-FI design are clear: a connected workforce empowered to thrive in the digital age.

If you are reviewing your Network and Wireless, then feel free to reach out to one of our experts at 01235 433900 or via email at [email protected], who will be able to help you understand how proper WI-FI design takes place. Alternatively, you can contact me directly via DM or at [email protected].

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