Is Your Manufacturing Network Ready for the AI Revolution?
Artificial intelligence (AI) is reshaping industries at an unprecedented pace, and manufacturing is no exception. From predictive maintenance to AI-driven automation, the integration of AI into manufacturing processes demands more from enterprise networks than ever before. But is your Wide Area Network (WAN) ready to support the AI-driven future?
Top 5 Technology Trends Shaping Manufacturing in 2025
The past five years have been a whirlwind for manufacturers. From pandemic-induced supply chain disruptions to geopolitical tensions, economic shifts, and rapid digitalization, the industry has faced challenge after challenge. Yet, these disruptions have also paved the way for a more resilient, agile, and technology-driven future.
For IT leaders in manufacturing, 2025 is shaping up to be a year where digital investments will no longer be optional—they will be essential for staying competitive. As technology continues to redefine industrial operations, the focus is shifting from experimental implementations to full-scale digital transformation.
Escape Broadcom’s Price Hike for VMware: The Smart Alternative
The tech industry has been rocked by Broadcom’s acquisition of VMware, bringing sweeping changes to licensing models and pricing structures. Businesses that have relied on VMware for their virtualisation infrastructure are now facing significantly higher costs due to the elimination of perpetual licences in favour of a subscription-based model. With reports of price increases reaching up to 700%, IT managers must urgently seek alternatives to avoid budget overruns.
AI Reshaping Connectivity for Manufacturing and Construction
In the manufacturing industry, connectivity plays a critical role in powering operations, managing supply chains, and enabling advanced technologies such as IoT and automation. However, achieving reliable, high-speed internet access in remote or industrial areas has historically been a challenge. Traditional broadband solutions often fall short, leaving manufacturing facilities in connectivity dead zones.
Revolutionising Manufacturing Connectivity with LEO Satellites and VeloCloud
In the manufacturing industry, connectivity plays a critical role in powering operations, managing supply chains, and enabling advanced technologies such as IoT and automation. However, achieving reliable, high-speed internet access in remote or industrial areas has historically been a challenge. Traditional broadband solutions often fall short, leaving manufacturing facilities in connectivity dead zones.
Transforming Manufacturing Connectivity: How SD-WAN and WAN Optimization Work Together
In today’s fast-evolving manufacturing landscape, connectivity is a crucial driver of productivity, efficiency, and innovation. The integration of advanced manufacturing systems, IoT devices, and real-time analytics platforms has placed unprecedented demands on enterprise networks. Manufacturers are no longer just factories—they’re highly interconnected ecosystems where speed, reliability, and seamless access to cloud and on-premises applications are non-negotiable.
How to Improve Video Performance Through SD-WAN
SD-WAN is a relatively new technology that is being adopted by many organizations in order to improve their WAN performance. SD-WAN offers a number of advantages over traditional WAN solutions, including improved performance, lower costs and easier deployment. One of the main benefits of SD-WAN is its ability to improve video performance. Video is one of the most demanding applications when it comes to network bandwidth.
Difference Between SASE and SD-WAN
There are various technologies used for Wide Area Networking (WAN) connectivity. Two of the most popular technologies are Software-Defined WAN (SD-WAN) and Secure Access Service Edge (SASE). While there are some similarities between the two technologies, there are also key differences that make them well-suited for different use cases. SASE is relatively new, while SD-WAN has been around for a few years. However, to understand the similarities between SASE and SD-WAN, it is important to understand both the technologies and their evolution out of traditional WAN.
SASE vs SD-WAN: Things You Need To Compare
The network edge is becoming an important part of the enterprise-owned network that is being used to provide a variety of services. Two of the most popular technologies for the network edge are Software-Defined WAN (SD-WAN) and Secure Access Service Edge (SASE). However, with the rise of new technologies, the network edge is evolving. Traditional technologies are being rapidly replaced with new solutions that provide more functionality and flexibility. One such example is the evolution of traditional Wide Area Network (WAN) into Software Defined-Wide Area Network. While SD-WAN has been around for a while, SASE is a newer term that is being used to describe a secure network edge.
How SD-WAN Reduces Cloud Risk
SD-WAN is quickly becoming a popular choice for businesses looking to optimize traffic and improve performance for cloud applications. However, what many people don’t realize is that SD-WAN can also help reduce the risk for cloud deployments. SD-WAN technology is growing in popularity as a way to reduce the complexity and risk of using cloud services. But what specifically does SD-WAN do to reduce cloud risk? In this article, we’ll take a look at how SD-WAN works and how it can help to take advantage of the cloud while keeping the data safe.