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Taking a Computer-Aided Engineering Approach to Business Transformation

Changing competitive landscapes, technological advances and consumer trends are rapidly disrupting businesses and creating an imperative to execute transformation programs that improve operational efficiencies, optimize workforces and offer better customer experiences. Across industries vast amounts of resources are being spent on business transformation programs, but so far the results are dismal. According to IDC, $1.7 trillion was spent in 2017 by companies worldwide on their digital transformation efforts and yet analysis suggests that only 1% of transformation programs will actually achieve or exceed their expectations.

Business transformations are pursued to fundamentally change systems, processes, people and technology across an entire business or subdivision to achieve measurable improvements in efficiency, effectiveness and stakeholder satisfaction. When transformation programs fail, time and money are wasted, while no significant improvements are gained. In the meantime, risks related to product or service obsolescence, rising costs, declining revenues or other factors that spurred the transformation in the first place, have grown.

Intelligent Business Transformation

Taking a computer-aided engineering (CAE) approach to business transformation can help businesses manage program risks, maximize value, decrease costs and accelerate innovation. CAE is widely used in a range of industries to build the right product at best performance versus cost ratio. A main goal being to improve designs or anticipate the resolution of potential problems as early as possible.

Using digital twin emulation-based capabilities, we are helping businesses achieve the same benefits of CAE in their transformation programs:

  • Make business transformation decisions based on key metrics including performance, time to market and cost
  • Manage risk and communicate the long-term business implications of any decisions to all stakeholders
  • Use computer emulation rather than real world testing to save money and time—while supporting a broader scope of upfront validations
  • Gain risk and performance insights earlier in the transformation process, when changes are less expensive to make
  • Explore innovative solutions that may not have been considered plausible without the aid of computer emulation

Reliable Predictive & Prescriptive Intelligence

When businesses want to build best in class systems or ensure the optimal performance of exiting business ecosystems, computer emulation is an effective way to validate plans, predictively expose risks, and identify which corrective actions will achieve the desired results for any given situation. Algorithmically emulating the digital twin of business structures supports advanced predictive analysis to determine the limits of dynamically complex systems, identify potential risks and recommend which corrective actions are needed to meet business objectives.

While CAE typically uses simulation to replicate system behaviors, these methods are not sufficient to cover a change in dynamics, meaning some risks will not be exposed until the event occurs because only the knowns are represented and so reproduced. We use emulation in place of simulation to mathematically reproduce risks that may occur under certain conditions even if there is no historical record of these events happening.

Quickly & Economically Explore All Options

Once the emulation is successfully created, it allows transformation teams to quickly test and economically explore an unlimited number of change scenarios that would otherwise be complex, expensive or even impossible to test on a real system. Users simply change variables—such as volume, architecture and infrastructure—or perform sensitivity predictions on changing process dynamics to observe the predicted outcome.

Validated through robust testing in hundreds of applications and various industries, our approach provides visibility across complex business and IT ecosystems so that decision makers can quickly agree upon the most strategic plans and proactively take corporate actions with confidence in the outcome. Additionally, these methods support transformation programs by enabling users to test optimization and rationalization scenarios to confirm the best-fit solution before committing funds or resources to any project.

Manage the Transformation Project Outcome

During the execution phase, the digital twin provides the foresights necessary to ensure an optimal outcome that weighs both short and long-term cost benefits in alignment with performance and scalability goals so that the business can minimize risks and consistently gain all the intended benefits of the transformation program. Ultimately, these capabilities help businesses define and make the right moves at the right time to continuously achieve better economy, control risk and support critical renewal.


Learn more about Business Transformation

Read the Intelligent Business Transformation solution paper to learn why and how businesses use a Computer-Aided Engineering (CAE) capacity to validate transformation plans and control risks.

 

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