In brief

In brief

  • Digital twins and cloud platforms are helping manufacturers accelerate progress to autonomous operations.
  • To succeed, manufacturers must evolve their manufacturing operations management architecture to take advantage of digital twins.
  • This report identifies the key benefits and what manufacturers can do to start their journey.


Making manufacturing smarter

It’s been nearly a decade since Industry 4.0 was first discussed and most manufacturers now understand its potential to transform how we work. Most manufacturers across the world have launched pilots to validate the value of harnessing data and advanced analytics, applying autonomous solutions like predictive maintenance to optimize their operations.

However, as manufacturers strive to adopt autonomous operations faster, they face two common challenges: the highest value use cases typically require manufacturers to introduce autonomous solutions to more than one asset, line or function; and autonomous solutions leverage vast amounts of data, which is typically beyond the reach of existing manufacturing operations management (MOM) architectures.

Some manufacturers are investing in data lakes as a method for storing all manufacturing data in a single repository. But this falls short of providing the structured information needed to optimize end-to-end operations. In response, more and more CIOs and manufacturing managers are exploring how digital twins can act as a one-stop-shop for autonomous solutions by gathering data from multiple sources, unifying it and contextualizing it.

Digital twins are a game changer

Digital twins are software models that represent the attributes and operating behavior of physical assets and processes. They support better decision making by simulating how assets behave given certain inputs.

A digital twin’s ability to enable progressive learning and capture tacit knowledge provides a key, differentiating benefit: it stores and structures information in a way engineers and operators can understand.

Specifically, digital twins support the journey toward autonomous operations by:

Involving the workforce through alerts and visualization that enable better decision making.

- Provide users with contextualized data, to act quicker and smarter

- Use case driven—solve for key problems or opportunities

- Create a foundational digital platform that will evolve with the business

Learning from the workforce via digitalized “tribal knowledge”.

- Extract & formalize “tribal knowledge” as structured data

- Start developing a knowledge graph with structured and unstructured data

- Develop platform and governance to scale

Integrating the workforce using embedded insights that enrich contextualized data.

- Enrich contextualized data with tailored insights (descriptive/ predictive analytics)

- Run total system optimization (human + machine)

- Governance and platform integrated with operating

Supporting human and machine collaboration and a cognitive factory that identifies optimal actions.

- System recommends appropriate and optimal action (prescriptive analytics), combining human + machine response

- System continues to learn and evolve

- Structured workforce/data science governance to develop use cases and insights

Optimizing and evolving operations with self-learning, autonomous closed-loop systems.

- Self-learning, autonomous closed loop systems designed to sense, comprehend, act, and learn, human behavior

- Operators’ role and skills evolving focusing on complex activities and system

Digital twins and existing solutions

One of the biggest advantages of using digital twins is that manufacturers can leverage this technology without having to replace their existing solutions — and drive faster time to value at a lower cost. A manufacturing organization’s underlying MOM architecture will still act as the foundation for its operations.

By implementing a digital twin in parallel with the existing MOM architecture, manufacturers can extract more value from years of technology investments and avoid the need to “rip and replace.” It allows manufacturers to capture data from all existing systems and contextualize it quickly and effectively. Benefits can be realized within three to six months, depending on use-case complexity.

Manufacturing execution systems and cloud

Manufacturing execution systems (MES) continue to be an essential part of the manufacturing IT stack. In response to the growing demand for data, MES vendors are evolving their products into well-integrated platforms that include quality management systems, asset performance management and other features.

MES vendors are also leveraging cloud-based solutions to accelerate deployment and extend the value of these platforms. The vendors’ more flexible commercial models now enable manufacturers to pivot from large CAPEX investments to incremental OPEX expenditures that match the benefits provided by projects.

Cloud gives manufacturers the tools to address shop floor needs, such as the Internet of Things (IoT), low code/no code, analytics and machine learning. Some vendors are buying or developing their own tools, while others are partnering with public cloud providers and IoT players to offer clients seamless integration between products.

What next for manufacturing systems architecture?

Pascal Brosset and Thiago Martins explain how manufacturers can maximise the opportunities created with digital twins.

View Transcript

Start your journey now

To support Industry 4.0 ambitions and the shift to autonomous operations, manufacturers must evolve their MOM architecture to take advantage of the flexibility and scalability of digital twins. Manufacturers who succeed over the next three to five years and achieve digital-twin-based MOM architectures that harness the power of cloud, will be ready for tomorrow’s challenges.

About the Authors

Pascal Brosset

Managing Director – Industry X, Production & Operations Global Lead


Thiago Martins

Managing Director – Industry X, Manufacturing Execution Systems Lead, North America


Mike Watson

Associate Director – Industry X


Sheri Williams

Managing Director – Industry X

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Frequently asked questions

A digital twin is a virtual representation of a potential or actual product, asset or process. As applied to manufacturing operations, a digital twin allows to fully model complex processes to either simulate them in support of trade-off analysis or optimize them in real time, leveraging such techniques as machine learning.

Manufacturing Operations Management, or MOM for short, is the critical “layer” of applications between plant level control end the enterprise domain. The typical MOM solution is the MES (Manufacturing Execution System) that typically coordinates production resources to execute a production plan within compliance and quality. Other typical MOM level solutions are Quality Management Systems (QMS) and Logistic Execution Systems (LES) that orchestrate material flows within the plant.

Legacy MOM architectures are usually fragmented and poorly integrated, which doesn’t allow to manage the increasing amount of data required to optimize end-to-end operations. Leveraging the power and scalability of the cloud, an operational digital twin federates the disparate data from MOM and Control systems to deliver a constantly updated model of end-to-end operations plant personnel can readily understand. This model can then be used for a wide range of use cases, from classical reporting to event-driven real-time production optimization leveraging AI and ML.

Manufacturing leaders are embracing digital twins to drive 360-degree value. Use cases range from predictive maintenance to advanced quality control and energy optimization, adding up to between 15 and 25% OEE optimization depending on industries. But the real value of a digital twin doesn’t readily meet the eye:

  1. twin-based architecture are “orders of magnitude” more flexible and scalable then classical MOM architectures they can progressively replace. The cost of developing and deploying a use case on such an architecture is up to 50% lower than on a traditional architecture … and goes down the more use cases are deployed.
  2. by giving engineers direct control over operational data and the tools to incrementally develop more and more advanced use cases thanks to smarter and smarter analytics, digital twins accelerate innovation and, thanks to their scalability, significantly shorten time-to-value.
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