Migrate to new Industrial PC and form factors

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What is a Modern Industrial Grade PC?

Traditionally an industrial PC (industrial personal computer) is designed primarily as a compact solution for challenging environments. They offer protection from dust and liquids, withstand extreme and temperature fluctuations, and shock and vibration resistance.

In comparison to traditional industrial-grade computing, modern PCs offer flexibility and customisation to the clients. Modern IPCs also provide high scalability and improved reliability for better product sustainability and increased product life cycle.

industrial computing

Moreover, modern IPCs converge rapidly across several platforms like high-resolution vision systems. Their compact design makes it possible to embed industrial PCs into smaller form factors where low-power and fan-less attributes are required, especially in constricted industrial environments.

Why Migrate to the New Industrial PC?

Some key advantages of migrating to a new IPC include better connectivity, intelligence analysis, and performance optimisation; things that legacy IPCs fail to deliver. In an evolving business landscape, these features offer a competitive edge over other rivals and enterprises.

Adapting quickly to a new IPC not only tilts the scale in your favour but it also provides a head-start for implementing modern technological features without compromising on the current production output. Accelerated migration of the traditional IPC will assist in increasing the production output and reducing overhead costs of maintaining old IPCs.

Moreover, the early transition to modern IPCs will streamline the transition of the staff. Thus, simplifying the process of migrating your legacy operating systems, industrial applications, and component configurations. Here are some highlights of migrating to a new IPC:

  • Improve overall performance
  • Enhance productivity
  • Predict machine failures, maintenance schedules and power interruptions
  • Effective resource utilisation
  • Promote efficient energy usage
  • Minimise production costs
  • Optimise energy output in line with heat variations
  • Remote access and control of systems with mobile devices
  • A managed complex ecosystem with simplicity
  • Control cybersecurity architecture

Avoid Running Obsolete Technology

Migrating to modern IPCs helps run the latest industrial applications and enables access to faster software updates. Thus, modern IPCs aid in staying technologically up-to-date and avoiding obsoletion.

Better Management and Improved Security

Modern IPCs protect against cyberattacks robustly as opposed to traditional industrial computing software. Furthermore, they also promote remote access to managing production processes to increase productivity and improved security.

Digital Manufacturing

A definite advantage of modern industrial-grade PCs is the ability it provides for cross-platform integration of a range of IoT devices. It also allows constant innovation with AI & machine learning at the forefront of computing atop the traditional system landscape and minimising any overhead costs during the system downtime on migration.

Scalable Performance

The best feature of modern industrial computing is the performance boost and the level of processing power per watt, per dollar. The scalable processors in industrial-grade PCs can be easily customised to drive performance without compromising on the energy efficiency.

Remote Manageability

IPCs provide active remote management across the system which makes it relatively simpler to manage and customise the machines, components, and data on the go. Moreover, remote management also aids in increased collaborations, faster resolutions and secured network protection of all the IT assets.

Security

The baseline framework that IPCs are based on is to build trustworthy solutions ensuring the platform integrity of the industrial paradigm. More computing power is mainly aimed at encrypted storage of sensitive, hardware-assisted cryptographic security key generation, execution of variables in isolated environments and protection of runtime application data.

Virtualisation

The greatest benefit of migrating to a modern IPC is virtualisation. The technological advancement in modern IPC processors makes virtualisation of systems possible by eliminating additional performance overheads. Moreover, virtualisation significantly reduces the cost, size and complexity of production applications.

Industrial PC Form Factors

Modern industrial PCs enable the development of innumerable components and system environments in different form factors and a diverse quantity of mounting options. Some of these components include panel PCs, industrial rackmount PCs, workstations, and embedded boards and peripherals for IPCs.

Panel PCs and Industrial Touchscreen PCs

The compactness and customisation of industrial panel-mounted IPCs, especially the ones with touchscreens, can be easily installed into a constricted cut-out or any smaller enclosure so that they appear as a part of the surface rather than a panel in itself.

Rack-Mounted and Equipment-Mounted PCs

Industrial PCs generally come in two form factors, rack-mounted or equipment mounted. Rack mount computers are often mounted to walls or cabinets on the equipment.

Revolution in any field of communication has far-reaching effects on other industries as well. The evolution of IPCs in line with the evolving technology landscape has led to industrial automation and disrupted the manufacturing process by creating new business models and data-driven processes. Harnessing the right power of IPCs will benefit industries by establishing digital technologies and footprints in their respective areas in the upcoming years.

Tekdis specialises in a wide range of solutions for the Industrial computing, Consumer, Commercial, Medical, and Automotive markets, including Industrial Computing. View their website to find out more.