Smart Manufacturing Is Cloud Computing

Cloud Computing on CNBC – $100B market

By G C Network | May 28, 2008

Google’s Head In The Clouds Follow me at https://Twitter.com/Kevin_Jackson

IBM Blue Cloud

By G C Network | May 28, 2008

A short news interview on the IBM Blue Cloud . Follow me at https://Twitter.com/Kevin_Jackson

Amazon’s Cloud Overtakes Websites

By G C Network | May 27, 2008

May 27, 2008 See NY Times article, Cloud Computing: So You Don’t Have to Stand Still Follow me at https://Twitter.com/Kevin_Jackson

May 1 IBM, Google Partnership Announcement

By G C Network | May 27, 2008

In this video, IBM and Google announce their joint cloud computing initiative. As I said in my earlier post, Google and IBM have teamed up to provide a “Google-like” infrastructure.…

“The Missing Piece in Cloud Computing”

By G C Network | May 27, 2008

First Software as a Service – SaaS…Then Hardware as a Service – HaaS…Now, Middleware as a Service – MaaS? GigaSpaces’ CMO Geva Perry will be presenting on middleware virtualization at…

How the NRO can leverage Cloud Computing

By G C Network | May 26, 2008

Last Thursday, May 22nd, I had the pleasure of attending an Intelligence Community Executive Forum hosted by Carahsoft. The topic of this forum was “”Innovative Technology for the Intelligence Enterprise”.…

Green Cloud Computing

By G C Network | May 26, 2008

The other day I was asked “Why is cloud computing considered green?” Wouldn’t you know, The Economist provided the perfect answer. “In future the geography of the cloud is likely…

Oracle in the Cloud

By G C Network | May 25, 2008

Oracle (NSDQ: ORCL) is building new data centers to support cloud computing. The company is investing $285M and will break ground on the 200,000-square-foot facility this summer. Oracle’s president Safra…

Explaining Cloud Computing

By G C Network | May 23, 2008

In the video Explaining Cloud Computing Christopher Barnatt, author of ExplainingComputers.com, and Associate Professor of Computing and Organizations in Nottingham University Business School, provides a very understandable explaination of cloud…

Cloud Computing supports Net-Centric Warfare

By G C Network | May 23, 2008

Netcentric warfare theory contains the following four tenets in its hypotheses: 1) A robustly networked force improves information sharing;2) Information sharing enhances the quality of information and shared situational awareness;3)…

As cloud computing simultaneously transforms multiple industries many have wondered about how this trend will affect manufacturing. Often characterized as “staid”, this vertical is not often cited when leading edge technological change is the topic. This view, however, fails to address the revolutionary nexus of cloud computing and the manufacturing industry. Referred to as Digital Thread and Digital Twin; these cloud driven concepts are now driving this vertical’s future.
Digital Thread is a communication framework that connects traditionally siloed elements in manufacturing processes in order to provide an integrated view of an asset throughout the manufacturing lifecycle. Digital thread implementation also requires business processes that help weave data-driven decision management into the manufacturing culture.
A Digital Twin is a virtual representation of a manufacturer’s product used in product design, simulation, monitoring, optimization and servicing. They are created in the same computer-aided design (CAD) and modeling software that designers and engineers use in the early stages of product development. A digital twin is, however, retained for later stages of the product’s lifecycle, such as inspection and maintenance.
Figure 1– The smart manufacturing landscape https://www.industryweek.com/systems-integration/journey-smart-manufacturing-revolutio
When successfully combined these processes can deliver on the promise of Smart Manufacturing, which include:
·         Ability to receive published data from equipment using secure open standards, analyze and aggregate the data, and trigger process controls back to equipment, systems of record and process workflows across the enterprise and value chain connected via A2A and B2B open standards.
·         Autonomous and distributed decision support at the device, machine and factory level.
·         Ubiquitous use of mined information throughout the product value chain including end-to-end value chain visibility for each product line connecting manufacturer to customers and supplier network.
·         Enhanced information- and analytics-based decision making on large amounts of raw data gathered from the smart manufacturing equipment and processes.
·         New levels of efficiency to support new services and business models including mass customization (highly configured products) and product-as-a-service.; and
·         Provide a broad portfolio of these advanced capabilities to manufacturers of all sizes and in all industry sectors, at acceptable levels of cost and implementation complexity.
Although at first glance these goals seem overly ambitious, they are being realized today because technologies and integration standards have come together to fuel this revolution. Required building blocks include:
·         Smart machines and advanced robotics –These machines recognize product configurations and diagnostic information, and make decisions and solve problems without human intervention.
·         Industrial Internet of Things (IIoT) – Devices with network and internet connectivity that are active participants in event-driven, self-healing manufacturing processes integrated with open standards that support connectivity.
·         Cloud services – On-demand information technology services that can be rapidly provisioned and released with minimal management effort or service provider interaction.
·         Enterprise integration platforms – Platforms that have the ability to receive data broadcast from equipment via secure open standards. These applications analyze and aggregate the data, and trigger process controls, history recording, and work flows that enable business processes across value chain systems that can then be integrated via application-to-application (A2A) and business-to-business (B2B) open standards.
Digital Thread and Digital Twin also enable the evolution in the manufacturing field often referred to as Industry 4.0. This next phase increases manufacturing efficiencies while reducing both cost and time of delivery. It brings together data, cloud computing, and cyberphysical systems in order to deliver:
·         Industrialization where machines supported human work;
·         Optimization where assembly lines increased productivity;
·         Automation, where machines largely replaced humans; and
·         Digitalization, where information technology with its broad portfolio becomes an integral part of manufacturing.
Cloud computing has extended many benefits to manufacturing because those businesses can now:
·         Rely more on standard cloud services allowing them to focus on business-critical functions.
·         Reduce capital expenditures significantly
·         Relieves manufacturer of the burden to license, deploy, and maintain baseline IT services like email, collaboration, unified communication, and human relation management
·         Enhance operational flexibility through the use of rapid IT scalability
In summary, the combination of digital thread, digital twin and cloud computing enables both smart manufacturing and Industry 4.0. If you’re company isn’t deeply leveraging all of these concepts today, you don’t know anything about manufacturing.

This post was brought to you by IBM Global Technology Services. For more content like this, visit Point B and Beyond.


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