The growing need for factory operations to meet fast-changing customer and market requirements is driving manufacturers to be more agile and flexible than ever. With high-level objectives to compress time frames and streamline processes, manufacturers are developing new ways to unite their plant and business operations to also optimize resource use, drive customer requirements closer to the production line, and accelerate time to market. In a globally connected marketplace, speed, adaptability, and innovation are the new currencies in the manufacturing realm.
Nowhere is this more evident than the convergence of Operations Technology (OT) and Information Technology (IT). Traditionally focused on factory-based assets and processes, OT is largely comprised of plant systems such as sensors, machines, devices, connectors, and applications that manage and monitor operations. For years, OT systems remained a distinct element within manufacturing workflows, but as the benefits of standards-based architectures, reliable high-speed networking, centralized management, and big data analytics transformed the role of IT, the wisdom of merging traditionally separate OT and IT ecosystems in manufacturing environments became unassailable.
The ability of IT and OT leaders to jointly develop more agile, flexible, and transparent customer engagement and production models that span business systems, supply chains, and factory environments has today become a prerequisite for success and growth in the manufacturing sector.
Critical Technology Issues for Connected Business to Plant Operations
BUSINESS CONTINUITY RISKS
Achieving high-density Wi-Fi connectivity cannot be achieved with out-of-the-box solutions and technologies. It requires design engineers combining their knowledge of the data collected during the Site Survey and design process with purpose-built Wi-Fi technology, including specifically designed antennas and access points. High-density Wi-Fi solutions must be able to handle the substantial mobile data generated from a densely populated venue, support both 2.4GHz and 5GHz compatible devices on the network, allow for seamless and secure onboarding, with a strong wired backhaul infrastructure that scales up and out to achieve maximum ROI. For both private and public use, this means seamless access to the internet, email, social apps, event apps, and content for guests, as well as support of critical operational functions and business applications for the organization.
CARRIER OFFLOAD AND PRIORITIZATION
The unification of IT/OT systems requires both defining long-term strategies and delivering immediate ROI. Identifying priorities and developing pilot projects that deliver tangible benefit with low risk to existing operations can establish credibility, but too often these technology migrations are plagued by ownership disputes, slow and complex deployments, an inability to effectively locate and troubleshoot problems, and suboptimal impacts to mission critical Manufacturing Executions Systems (MES). Without comprehensive management capabilities that provide centralized control over the entire network infrastructure from the edge to the data center, as well as mobile devices and security policies, efforts at unifying plant operations with business systems can be hamstrung by compromised execution, factory downtime, and the diversion of crucial resources into non-productive uses.
LACK OF DEMONSTRABLE ROI
Among the top trends McKinsey cites as impacting manufacturing production are “the astonishing rise in data volumes, computational power, and connectivity” and “improvements in transferring digital instructions to the physical world, such as advanced robotics and 3D printing.” While these innovations demonstrate the value of converging business and production technologies, many manufacturers seeking to leverage these new applications lack visibility into the returns and business impact of these innovations. Without real-time and historical views into the performance and adoption of quickly- mainstreaming application technologies that support cloud-based MES, mobility, and the Internet of Things, technology leaders are limited in their ability to prove quantified real-world value to their business units and customers.
COSTLY, CLOSED, AND PROPRIETARY IT ARCHITECTURES
More than ever before, the global manufacturing sector is characterized by acquisitions and partnerships, facility moves and modifications, and a constant search for new market opportunities. For technology leaders, these factors regularly involve inheriting proprietary technology assets from legacy environments. Efforts to standardize the broader ecosystem in these cases become limited by an inability to cost-effectively integrate these systems beyond a perfunctory level. Alternatively, in the case of ‘one- size fit all’ infrastructures, manufacturing customers are often locked-in to executing their projects according to the vendor’s feature roadmap, not the needs of their clients. In addition, support costs for these systems escalate dramatically over time – incongruous in a technology sector increasingly disrupted by software innovation and downward price pressures. Additionally, these closed environments lack truly open standards-based APIs and software development kits, impeding the ability of technology leaders to leverage today’s application-driven world of emerging cloud, security, wireless, and converged SDN opportunities.
To learn more visit Extreme’s Manufacturing Solutions site: http://extremenetworks.com/manufacturing
|REQUIRED CAPABILITIES||RECOMMENDED SOLUTION||HOW WE DO IT BETTER|
|Real-time and historical views into the performance and adoption of applications like cloud-based MES, mobility, and IoT||ExtremeAnalytics||Bridge IT operations with business analytics into a single integrated tool without requiring overlay networks|
|Comprehensive management capabilities that centralize control over business and plants networks from the edge to the data center, as well as mobile devices and security policies||ExtremeControl||Single pane of glass management system provides centralized visibility and end-to-end granular control of wired and wireless network|
|Transitioning from proprietary hardware-driven architectures to standards-based software-defined designs||ExtremeWireless Network Infrastructures||Extensive portfolio of wireless solutions from the data center to the edge that leverage open architectures and policy-driven networking across unified Plant and Business environments|
|Global 24/7 Operational Support||Maintenance||Global Technical Assistance Center (GTAC) that provides technical support 24 hours day, 365 days a year|