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How to Limit IT Budget Overruns?

How to Limit IT Budget Overruns?

Auteur n°2 – Jonathan

In many companies, IT projects regularly exceed their initial budgets, leading to internal frustrations, delivery delays, and risks to achieving strategic ambitions. Without a rigorous framework from the planning phase, each deviation can quickly accumulate, affecting competitiveness and stakeholder confidence. However, understanding the underlying mechanisms and adopting proven practices can limit these gaps and ensure the financial and operational success of digital projects.

Business Implications of Budget Overruns in IT Projects

Budget overruns are common but entirely preventable. Rigorous control of scope and processes limits the risk of significant deviations.

Frequency and Business Impacts

In many organizations, over 60% of IT projects exceed their initial budgets, according to several industry studies. These additional costs can represent between 10% and 40% of the planned amount, thus consuming valuable operational margins.

When the budget balloons, teams focus their efforts on cutting immediate costs rather than creating value, slowing down innovation. Repeated delays can harm competitiveness, especially in sectors under heavy technological pressure.

Furthermore, budget overruns often force leadership to make short-term trade-offs at the expense of strategic vision. Unplanned expenses may cause other essential initiatives to be postponed, weakening the digital roadmap.

Ultimately, poor budget management directly affects time-to-market and deliverable quality, creating a vicious cycle of rework and stakeholder dissatisfaction.

Internal Tensions and Governance

A poorly controlled budget quickly creates friction between IT, business units, and finance. With each party pursuing sometimes divergent goals, the absence of coordination mechanisms worsens tensions.

Without regular steering committees, risks and overruns often remain invisible until invoicing. Information flows poorly and alerts don’t reach decision-makers in time.

This lack of transparency breeds distrust: IT is seen as unable to meet its commitments, while business units question the real value of deliverables.

To avoid this pitfall, it is imperative to establish budget review boards and clear, shared indicators among all parties from the project’s inception.

Why Budget Control Is Critical

Rigorous budget management secures the project’s trajectory and anticipates financial risks. It builds trust between IT, executive leadership, and operational teams.

By ensuring visibility into costs throughout the lifecycle, the company can adjust its action plan, make more informed trade-offs, and avoid costly last-minute overruns.

Moreover, solid budget governance fosters team accountability: everyone understands their allocated envelope and the rules for scope changes.

Finally, companies that control their IT budgets are often more responsive to unforeseen events and better positioned to seize strategic opportunities.

Anonymized Case Study: Swiss Banking Sector

A mid-sized Swiss bank experienced nearly 30% overruns on an internal web platform project. The absence of clear milestones and weekly budget reviews led to continuous scope adjustments.

By establishing a monthly steering committee with IT, finance, and business representatives, the bank realigned priorities and reduced deviations to under 5% in subsequent phases.

The increased transparency strengthened team trust and eliminated unproductive cost discussions.

In the end, the bank delivered its project on time, with functionality meeting expectations while drastically limiting cost overruns.

Common Causes of Budget Overruns in Digital Projects

Typical causes: incomplete requirements, uncontrolled scope changes, and vague scope definition. Clearly identifying these factors is the first step to regain control.

Incomplete Requirements Definition

Insufficient functional specifications leave room for interpretation and generate endless iterations. Each late clarification adds development and testing hours.

When business units haven’t formalized their needs in a structured way, IT must arbitrate between multiple options, delaying design and increasing costs.

Last-minute changes to incorporate unplanned use cases lead to local redesigns that impact the entire development chain.

A precise requirements document, validated upfront, is therefore essential to limit these costs related to initial scope ambiguity.

Uncontrolled Scope Changes (Scope Creep)

Scope creep refers to the gradual expansion of the initial scope, often driven by the desire to add value. Without a strict framework, each addition incurs extra costs.

This phenomenon is particularly common in agile projects when no formal change-control process exists to assess extra requests.

Late-added features are usually more expensive than during the design phase, as they require modifications to existing code, retesting, and documentation updates.

Defining a change-management mechanism with an evolution approval board allows you to measure the budgetary and decision-making impact before implementation.

Weak Project Management and Unclear Scope

Poor project governance manifests as ill-defined roles and responsibilities: everyone thinks they’re safeguarding the budget, but no one takes final ownership.

Without clearly identified milestones, tracking indicators often prove inadequate, hiding problems until it’s too late to act.

A management approach based on relevant budget KPIs (burn rate, milestone variance, end-of-project forecasts) is essential to detect deviations at the earliest signs.

A project charter defining scope, roles, deliverables, and acceptance criteria forms the basis of solid and transparent governance.

Concrete Example in Logistics and Transportation

A Swiss logistics provider saw its tracking platform budget soar by 25% due to unclear functional framing. End users submitted overlapping requests during the sprint without any budget evaluation.

By reorganizing governance around a single Product Owner and establishing weekly backlog reviews, the company halted scope creep.

The new structure realigned the project with its objectives, limiting budget impact to 3% in subsequent iterations.

Enhanced coordination also improved user satisfaction and deliverable quality.

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Understanding Billing Models: Time & Material, Fixed Price, and Hybrid

Each billing model offered by IT service providers and digital outsourcing firms has benefits and pitfalls. An informed choice avoids hidden costs.

Time & Material (T&M)

This IT budget management model bills actual hours consumed by technical and functional resources. It offers great flexibility, especially during exploration or prototyping phases.

However, the lack of a fixed total can obscure the overall cost and requires constant vigilance on time tracking.

Without weekly reporting and burn-rate alerts, T&M can quickly lead to unanticipated budget overruns.

To leverage it, implement a shared time-tracking tool between provider and client, with frequent review checkpoints.

Fixed Price

The fixed-price model sets a predetermined cost and scope. It allows companies to secure their budget, provided that requirements are perfectly defined.

If scope changes, each modification triggers an amendment, which can add delays and extra costs.

The main risk lies in an overly rigid initial specification, prompting the provider to include large safety margins to cover uncertainties.

A thorough scoping phase with co-design workshops reduces these unknowns and yields a fair, controlled fixed-price agreement.

Hybrid Model

The hybrid model combines T&M and fixed price: part of the project (e.g., scoping, workshops) is billed T&M, then development is delivered at a fixed price. It aims to balance flexibility and budget security.

This approach requires clear deliverable definitions and interfaces to transition smoothly between phases.

It can be complex to manage if transition criteria aren’t explicit or if phase objectives lack clarity.

Shared governance, outlining the criteria for moving from T&M to fixed price, ensures a smooth, controlled implementation.

Client Case: E-Commerce

An e-commerce retailer we support adopted a hybrid model for its site redesign. After a six-week T&M scoping phase, the bulk of development shifted to fixed price.

Thanks to a co-created requirements document, the transition occurred without major budget discrepancies.

Joint management anticipated minor T&M evolution requests without affecting the main fixed-price scope.

The project stayed within 4% of its budget while maintaining high responsiveness.

Best Practices for Scoping, Prioritizing, and Maintaining Budget Control

Following best practices is crucial to ensure a controlled budget framework while remaining ambitious on deliverables. A rigorous approach reduces the risk of overruns.

Establish Milestones and Budget Reviews

Structuring the project into interim milestones with formal reviews enables periodic checks of cost-to-progress alignment.

Each milestone should include a steering meeting reviewing burn rate, variances, and end-of-project forecasts.

In case of deviation, a quick action plan is defined, with scope trade-offs or resource adjustments.

This discipline fosters a culture of early warnings and avoids unpleasant end-of-cycle surprises.

Regular Prioritization and Trade-Offs

A business-value and budget-effort prioritized backlog ensures focus on high-ROI features.

An arbitration committee—comprising IT, business units, and finance—validates scope adjustments and reallocates resources as needed.

Dynamic prioritization based on clear indicators curbs scope creep and accelerates deliverable impact.

Tools like a budget Kanban board facilitate visibility over task status and associated costs.

Transparent Tooling and Governance

Using a shared time and cost management tool, accessible to both provider and client, guarantees transparency.

Automated reporting alerts on burn-rate variances and budget consumption per feature.

A consolidated dashboard lets decision-makers track budget evolution in real time.

By humanizing these data (comments, team feedback), you strengthen collaboration and accountability among all stakeholders.

Master Your IT Budgets to Drive Sustainable Growth

Budget overruns in digital projects are not inevitable. By precisely identifying causes of drift, choosing the right billing model, and instituting rigorous governance, you can keep costs under control without sacrificing deliverable ambition.

Whether your project is internal, outsourced, or hybrid, transparency, shared governance, and tracking tools are essential levers. Our experts are available to analyze your situation, help you frame your digital roadmap, and ensure the budgetary success of your projects—either by designing your product or service or by supporting you in project management.

Discuss Your Challenges with an Edana Expert

PUBLISHED BY

Jonathan Massa

As a specialist in digital consulting, strategy and execution, Jonathan advises organizations on strategic and operational issues related to value creation and digitalization programs focusing on innovation and organic growth. Furthermore, he advises our clients on software engineering and digital development issues to enable them to mobilize the right solutions for their goals.

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HR Process Automation (SaaS, Development and Integrations)

HR Process Automation (SaaS, Development and Integrations)

Auteur n°4 – Mariami

Automating HR processes is no longer optional but a strategic necessity for organizations aiming for agility and high performance. Operational leaders want to cut down on manual tasks, minimize errors, and deliver a seamless employee experience. By embracing a digital approach, companies free up time for higher-value activities and strengthen their appeal in the labor market. This article explores the tangible benefits of HR automation, compares SaaS, custom, and hybrid approaches, and provides a decision framework to choose the solution best suited to your business context.

Why Automating Your HR Processes Is Crucial

HR automation boosts productivity by eliminating low-value tasks. It also enhances data reliability and the employee experience.

Impact on Operational Productivity

Manual processes—such as time entry or leave management—consume significant resources and are prone to errors. By automating these workflows, HR teams spend less time correcting anomalies and more time on strategic activities like skills development and talent planning.

For example, a Swiss financial services firm we partnered with reduced the time spent on absence administration by 40% after implementing an automated workflow. This time savings enabled the HR department to launch targeted training programs, resulting in a 15% higher internal satisfaction rate.

Automation creates a virtuous circle: fewer errors, faster processes, and an enhanced reputation that attracts and retains top talent.

Improved Data Quality and Reliability

Repetitive tasks often lead to discrepancies across various systems—spreadsheets, HR management tools, payroll solutions. Automation synchronizes data in real time, reducing inconsistencies and the risk of legal non-compliance.

In one industrial example, a mid-sized manufacturer eliminated 95% of payroll errors caused by manual entry through an automated integration between its ERP system and HR software. This accuracy averted administrative penalties and bolstered employee trust.

A reliable database makes it possible to extract key metrics with a few clicks, forecast recruitment needs, and precisely manage labor costs.

Optimized Employee Experience

Today’s employees expect the same responsiveness for HR requests as they receive in their personal digital interactions. An automated HR portal provides instant answers to common questions, cuts down on email back-and-forth, and improves service perception.

In a Swiss tech SME we supported, activating an internal chatbot recently handled over 60% of leave and expense inquiries automatically, freeing the HR team for higher-quality one-on-one meetings.

This boosts employee engagement and reinforces their sense of belonging to a modern, responsive organization.

SaaS Solutions: Benefits and Limitations

SaaS solutions enable rapid deployment and controlled upfront costs. However, they come with scalability and integration constraints.

Ease of Deployment and Scaling

SaaS platforms are typically up and running within weeks, with no server installation or in-house software maintenance required. The vendor manages updates, ensuring immediate access to new features.

However, as discussed in our recent publication SaaS pay-per-user vs Custom Software, scaling can reveal performance limitations or additional costs, especially when you must extend licenses to significantly more users than initially planned.

A Swiss healthcare provider that migrated to a SaaS recruitment solution and deployed the tool in under a month had to renegotiate its pricing plan a few months later, resulting in a 25% increase in recurring costs.

Initial Cost and Total Cost of Ownership

Usage-based pricing avoids the upfront investment of custom development. Costs are predictable as monthly or annual subscriptions covering license, hosting, and maintenance.

Over the long term, however, cumulative fees may exceed those of a tailored solution. Subscriptions often scale with the number of modules and users, which can inflate the budget.

Vendor Lock-In Risk and Functional Flexibility

SaaS platforms offer many standardized features, but customization is limited to vendor-provided options. Adapting specific business processes can be impossible or expensive.

Moreover, switching providers becomes a complex project if data and workflows are locked into proprietary formats. The long-term dependency risk must be carefully evaluated.

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Custom Development: Flexibility and Control

Custom solutions ensure perfect alignment with your business requirements. They demand robust governance and internal or external expertise.

Alignment with Business Needs

A tailor-made development accounts for your workflows, business rules, and key indicators from the design phase. Every feature addresses a specific need, without overload or compromise.

A Basel logistics company we advised chose a custom solution to integrate scheduling management based on skills and regulatory constraints. This approach delivered precise planning from day one, without complex configurations.

The absence of superfluous functions ensures a clean interface and faster user adoption.

Scalability and Maintainability

A well-architected custom project relies on modular, open-source principles, facilitating the addition of new features and the evolution of business rules over time. The code can be updated and extended without disrupting the entire system.

However, this requires rigorous documentation and an automated testing strategy to avoid accumulating technical debt. Lacking these best practices can lead to a rigid, costly system to evolve.

Data Security and Sovereignty

In-house development offers full control over the handling of sensitive data, which is critical for payroll, performance evaluations, and personal information. Encryption and audit mechanisms can be tailored to regulatory requirements.

In a Geneva pharmaceutical company, data lifecycle control was decisive in obtaining approval from the data protection authority. Logs and access controls were designed to meet the strictest standards.

This level of sovereignty builds trust among internal and external stakeholders, especially during audits or regulatory inspections.

Hybrid Approach: Combining SaaS and Custom Solutions

The hybrid model merges rapid deployment with alignment to business specifics. It requires precise orchestration and robust interface management.

System Orchestration and Integration

A hybrid architecture relies on a data bus or lightweight integration layer that orchestrates exchanges between a standard SaaS module, internal microservices, and specialized databases. This infrastructure ensures both functional and technical coherence.

For instance, an insurance provider linked a SaaS recruitment module with an in-house matching algorithm service. API integration preserved the benefits of SaaS while enriching the solution with proprietary scoring.

Data warehouses and middleware guarantee traceability and resilience of exchanges.

Governance and Cost Control

Hybridization smooths investment: some components leverage the subscription model, while others incur one-off development costs. Portfolio governance is managed by cross-functional committees that decide on adding or evolving modules.

Automatically updated performance and cost indicators provide a consolidated view of expenses and operational gains. Adjustments can be made in days, without lengthy renegotiations.

This approach avoids disruptive platform changes while keeping each vendor’s scope clearly defined.

Accelerated Time-to-Market

By leveraging proven building blocks—whether open source or SaaS—you can rapidly launch critical modules while planning medium-term custom developments. This “quick win” strategy meets competitiveness requirements and quickly demonstrates value to stakeholders.

A Swiss public institution deployed an internal mobility request portal on a SaaS platform in three weeks, while simultaneously developing an integrated dashboard delivered three months later.

Short sprints and a dual-track roadmap foster agility and ensure a controlled, progressive rollout.

Optimize Your HR Processes for Greater Operational Efficiency

Automating your HR processes is a powerful lever to gain responsiveness, reliability, and employee satisfaction. SaaS solutions provide rapid deployment and simplified maintenance, while custom development guarantees full alignment with your business requirements. The hybrid model combines both worlds to balance agility and personalization.

Each approach has its advantages and constraints: the right choice depends on your specific situation, supported by in-depth technical and functional expertise. Our specialists guide you in building a modular, secure, and scalable ecosystem that meets your performance and longevity goals.

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PUBLISHED BY

Mariami Minadze

Mariami is an expert in digital strategy and project management. She audits the digital presences of companies and organizations of all sizes and in all sectors, and orchestrates strategies and plans that generate value for our customers. Highlighting and piloting solutions tailored to your objectives for measurable results and maximum ROI is her specialty.

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The Dangers of Inadequate Technical Documentation in Your IT Environment

The Dangers of Inadequate Technical Documentation in Your IT Environment

Auteur n°14 – Daniel

In many organizations, technical and functional knowledge of a digital system rests on a few key individuals. As long as these experts remain in place, everything seems under control. But the day one of them leaves the company, the absence of documentation proves catastrophic: every intervention turns into an information hunt, timelines lengthen, and costs skyrocket. IT leadership and project managers must understand that technical documentation is not a mere formality, but a vital necessity to safeguard the stability, scalability, and resilience of the software environments, APIs, or infrastructures on which their business relies.

Risk of Individual Dependency

When a single person holds the majority of your system’s critical knowledge, your organization is exposed to potentially major disruptions.

Limited System Understanding

When a project evolves without documentation, understanding its components becomes the privilege of its developer. Architectural diagrams, data flows, and implementation choices are never formalized, forcing each new intervention into empirical learning.

For each fix or update, developers first spend time exploring the code, searching for clues in tickets, or questioning colleagues. These steps extend development cycles and increase the risk of misinterpretation, which can lead to new incidents.

The direct consequence is a gradual slowdown of corrective and evolutionary maintenance. Your time-to-market stretches out, and your ability to respond to urgent business needs becomes weakened.

Increased Risk When Experts Depart

The departure of an expert without a formal knowledge transfer leads to the loss of crucial information. Evenings and weekends spent creating retroactive documentation often come too late, when business pressure is already high.

Replacements must piece together the puzzle without guidance, multiplying tests and cross-checks. Every micro-fix then carries a regression risk, potentially causing production incidents and undermining the system’s overall reliability.

This situation often leads to relying on external providers, who must begin with a lengthy and complex audit before they can intervene effectively.

Impact on Operational Continuity

Without clear documentation, uncovering module interactions can take several days of analysis. Every fix becomes its own project, with heavy and repetitive exploration, testing, and validation phases.

This weighs on daily operations, affecting feature delivery timelines and creating dissatisfaction among business units. End users experience this lack of responsiveness, which can damage the company’s reputation.

Example: A company contacted us after its production management systems were down for three days following the sudden departure of their sole backend developer. With no documentation, we had to reconstruct the API architecture, delaying the resumption of activity and incurring additional costs that could have been avoided if the architecture had been documented from the start.

Hidden Costs of Undocumented Interventions

Every undocumented intervention increases the time spent on research and testing. These hidden costs erode your IT budget in the long term.

Extended Resolution Times

Without documentation, each incident ticket requires lengthy investigations to locate the responsible code or component. Developers spend more time understanding than fixing, directly impacting their productivity.

Testing cycles are also extended to compensate for uncertainty. Potential regressions must be anticipated, and test coverage expanded, which increases workloads and deployment timelines.

In the end, a simple fix can become a multi-day—or even multi-week—project, rather than being completed swiftly to the benefit of performance and responsiveness.

Multiplication of Errors and Regressions

Lack of visibility into the system’s structure and interconnections leads to imprecise modifications. Developers hesitate over the impact of a change, which can cause undetected regressions during testing.

These regressions often appear in production, forcing emergency workarounds, successive hotfixes, and unscheduled deployments. The domino effect creates constant instability.

This climate of uncertainty breeds internal distrust: support teams receive more crisis tickets, and business units lose confidence in the IT department’s ability to provide a reliable service.

Unexpected Budget Overruns

External interventions become inevitable to make up for the loss of in-house skills. Consulting firms often charge by the hour and add significant costs for any preliminary audit.

Ultimately, the budget allocated to corrective maintenance rises uncontrollably, to the detriment of innovation projects. Decisions invariably revert to crisis resolution, and the strategic roadmap suffers.

Example: A Swiss banking client we worked with was dedicating 70% of its IT budget to maintenance due to a lack of documentation. This cutback left too little room for strategic developments and stalled the deployment of an omnichannel client platform for 18 months.

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Barriers to Evolution and Scalability

Without documentation, every new feature becomes a risky endeavor. Your ability to scale is hindered by system opacity.

Difficulty Integrating New Features

Teams waste time manually mapping dependencies and potential impacts. Interventions are ad hoc, without an overall vision or guarantees of system coherence.

Each addition or modification can create conflicts, require partial rewrites, or lead to technical workarounds, resulting in a patchwork of heterogeneous solutions.

This approach fragments the architecture and makes implementing new modules increasingly complex, limiting innovation capacity and extending time-to-market.

Delayed Time-to-Market

When everything relies on informal internal understanding, release planning becomes unpredictable. Estimated deadlines are consistently underestimated as technical unknowns accumulate.

Business units suffer recurring delays and eventually lower their ambitions, sacrificing growth opportunities. The lack of agility compromises competitive advantage.

Over time, the organization becomes unable to respond quickly to market changes or regulatory updates, losing responsiveness to better-equipped competitors.

Loss of Competitiveness

A poorly documented architecture crumbles under the weight of ad hoc fixes and evolutions. The technical debt associated with a lack of documentation becomes a major obstacle to any refactoring or migration.

Modernization projects require multiplied budgets and timelines to rebuild lost knowledge, often leading to partial or complete project abandonment.

Documentation: The Pillar of IT Governance

Documentation is not optional but the foundation of governance and management. It ensures the longevity and consistency of your systems.

Shared Knowledge Base

Structured documentation centralizes specifications, installation guides, APIs, and operational processes. Every collaborator can access and contribute to its evolution.

This fosters a culture of transparency and collaboration, reducing individual dependency and facilitating the onboarding of new hires or external partners.

The result is better workload distribution, increased responsiveness, and strengthened trust between IT teams and business units.

Enhanced Cross-Functional Collaboration

When documentation is integrated into workflows, validations between IT departments, architects, developers, and business stakeholders are based on a common, approved reference.

Exchanges become smoother, modifications are better framed, and acceptance tests are more reliable. The risk of misunderstandings or rework is significantly reduced.

Coordination between internal teams and external partners is simplified, ensuring deadlines are met and project budgets are controlled.

Compliance, Security, and Audit

For environments subject to standards or audits (ISO, FINMA, GDPR), having comprehensive documentation is a prerequisite. It certifies the traceability of changes and the controls performed.

In the event of a security incident, documentation facilitates fact reconstruction, root cause analysis, and the rapid implementation of corrective measures.

Example: A Swiss insurance group responded to a FINMA audit within 48 hours thanks to a rigorous documentation repository, thus avoiding sanctions and delays in its compliance projects.

Secure Your Knowledge: Make a Strategic Investment

Technical documentation is the guardian of your agility and resilience. It eliminates reliance on isolated experts, reduces maintenance costs, and simplifies system evolution.

By integrating it from the design phase and keeping it up to date, you set your digital infrastructure on a virtuous cycle of continuous improvement and risk management.

Regardless of your context, it is time to treat documentation as a pillar of your IT governance, not as a secondary task. At Edana, our experts can help you structure and optimize your documentation deliverables to secure your knowledge and ensure the longevity of your projects.

When we support our clients—whether in custom software development, AI solutions implementation, or web development—we always adopt a clear and effective documentation approach to make your infrastructure a growth enabler, not a debt.

Contact us now to discuss your challenges and determine the most suitable solutions for your context.

Discuss Your Challenges with an Edana Expert

PUBLISHED BY

Daniel Favre

Avatar de Daniel Favre

Daniel Favre is a Senior Software Engineer. He designs and builds bespoke business solutions (SaaS, mobile apps, websites) and full digital ecosystems. With deep expertise in architecture and performance, he turns your requirements into robust, scalable platforms that drive your digital transformation.

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Digital Consultancy & Business (EN) Featured-Post-Transformation-EN

Custom Software vs Standard Solutions: A Choice with Significant Consequences

Custom Software vs Standard Solutions: A Choice with Significant Consequences

Auteur n°3 – Benjamin

Choosing between off-the-shelf software and a custom solution goes beyond a mere technical debate: it is a strategic decision that impacts process control, deployment speed, the total cost of ownership (including hidden costs), and long-term adaptability. On one hand, packaged tools are attractive for their rapid implementation and limited initial investment. On the other, custom development promises perfect alignment with business needs, complete freedom to evolve the tool at the company’s pace, and often lower or no licensing fees. In this context, the decision hinges on analyzing operational complexity, available resources, and—above all—a minimum three-year vision to secure competitiveness and total cost of ownership.

Control & Ownership

Code ownership and operational control are at the heart of long-term performance. Custom software ensures complete independence, whereas standard solutions can lock you into a proprietary ecosystem.

Source Code Control

A solution developed specifically for your needs provides full access to the source code, with no reliance on a third-party vendor. Internal teams or external partners can directly fix, optimize, or extend features without external constraints.

By contrast, off-the-shelf software often hides its internal logic behind a proprietary layer. Any customization depends on a single vendor, which can dictate licensing terms and update schedules. This may slow down responses to urgent business requirements.

Full code control also enhances security by allowing for internal audits, automated tests, and organization-specific monitoring mechanisms. Each new module integrates into a controlled CI/CD pipeline, ensuring consistency and robustness.

Among mid-sized companies, it has been observed that full access to their business application code reduces critical patch deployment times by 40% on average, without waiting for an external roadmap.

Intellectual Property & Licensing

Custom development grants your company full intellectual property rights over the software, with no recurring license fees or future code handback clauses. This status facilitates digital asset valuation and secures R&D investments.

In contrast, packaged solutions rely on license agreements that may change based on revenue, user count, or data volume. These financial clauses can generate unexpected costs at each scale-up.

Holding complete intellectual property rights also opens the door to modular evolutions, where each new module can be licensed or resold independently. This is a lever for innovation and monetization for large organizations seeking to diversify their offerings.

Finally, controlling licensing terms reduces the risk of disputes or service disruption in the event of a vendor’s policy change, preserving operational continuity.

Avoiding Vendor Lock-In

Custom solutions built on open-source technologies minimize the risk of being locked into a single vendor. Each component can be replaced or updated as needed without incurring significant additional costs.

By contrast, standard software tends to create a proprietary ecosystem from the outset. Cross-module dependencies can make any migration or replacement extremely costly and time-consuming.

Favoring open standards—such as popular web frameworks and free databases—lets you adjust the architecture without painful reversals. This agility becomes a competitive advantage in the face of evolving business requirements.

For example, one of our clients successfully migrated its standard CRM to a hybrid open-source solution, reducing annual licensing costs by 60% and freeing its IT teams from vendor constraints.

Implementation Timeline

The time required to deliver the first version is a key criterion, but it must be weighed against the depth of customization. Speed can mask a lack of long-term fit.

Custom: Time for Adaptation

Custom development requires a detailed analysis of business processes, functional design, and iterative validation. Each component is calibrated to meet the company’s precise needs.

This approach demands significant upfront investment in workshops, prototypes, and user testing. The onboarding of internal or external teams into the business domain also affects the overall timeline.

On average, an ambitious custom project spans several months—or even up to a year—before reaching a stable production state. This timeframe includes testing cycles and post-launch adjustments.

However, this preparation phase translates into fewer requests for rework or functional workarounds after deployment, delivering a better user experience and faster adoption.

Standard: Rapid Deployment

Packaged solutions often offer quick initial configuration thanks to pre-integrated modules and standard business scenarios. Deployment can be completed in a few weeks with minimal onboarding.

This speed is appealing during peak activity, urgent needs, or tight budgets, as it generates a short-term perceived ROI. Project teams can focus on user adoption rather than development.

However, beyond the pilot phase, many companies discover functional gaps. These gaps then require additional development or workarounds, extending the total timeline.

Scaling up often reveals architectural limitations ignored during the initial phase, leading to further iterations and unforeseen delays.

Impact on the Strategic Roadmap

A packaged solution can accelerate the launch of a business function, but it often imposes a roadmap dictated by the vendor. Evolution priorities depend on an external schedule.

In contrast, custom software aligns with your internal strategic plan. Each new version is scheduled according to the company’s roadmap, independent of a third party’s commercial vision.

This autonomy strengthens coherence between technological advances and business initiatives, ensuring controlled scaling aligned with competitiveness objectives.

Over the long term, this internal governance model ensures better synchronization between IT and business units, reducing time-to-market for critical innovations.

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Real Costs

Beyond acquisition price, comparison must include maintenance costs, licensing fees, and hidden expenses related to future changes. Multi-year total cost of ownership often reveals significant gaps.

Initial vs. Long-Term Cost

Off-the-shelf software offers an attractive entry ticket, usually billed per license or monthly subscription. Costs are predictable but can increase with user count or data volume.

Custom development requires a higher initial investment to cover analysis, design, development, and testing. However, it incurs no recurring license fees and guarantees full ownership.

Over a three- to five-year period, the absence of monthly subscriptions or external support fees can make custom software more cost-competitive than standard SaaS, especially for intensive and tailored use.

Projecting costs over the long term makes it clear that the total cost of ownership (TCO) of custom software can be optimized, provided that volume and business complexity justify the investment.

Hidden Expenses & Maintenance

A standard ERP or CRM often requires add-on modules to achieve satisfactory functional coverage. These add-ons carry their own acquisition and maintenance costs.

Each upgrade of the standard package may involve testing and fixing custom data flows. Certified integrator interventions are billed by the hour, increasing the annual bill.

Conversely, custom software benefits from automated update processes, internal documentation, and integrated unit tests, reducing corrective maintenance hours.

Using open-source technologies also lowers licensing costs and allows support expenses to be shared with the community or third-party providers without proprietary surcharges.

Case Study: A Swiss SME We Support

One Swiss industrial company we work with chose a standard ERP to shorten deployment time. After two years, it faced CHF 150,000 in extension and support fees, covering licenses, modules, and consulting hours.

Confronted with growing process complexity and soaring costs, it initiated a custom overhaul. The initial CHF 500,000 investment was amortized in under three years thanks to license savings and reduced integrator interventions.

Full code control allowed internal workflow adjustments without costly external customizations. Annual maintenance costs dropped by 70%, freeing resources for innovation projects.

This transition demonstrated that a well-considered custom development investment can deliver positive ROI when usage exceeds the scope of standard solutions.

Scalability & Durability

Building for the future from the start ensures the ability to absorb growth and integrate technological innovations. Custom software offers modularity adaptable to future needs.

Alignment with Business Processes

Custom software is born from a precise mapping of operational processes. Each screen and business rule corresponds exactly to actual workflows, minimizing gaps between tool and practice.

This alignment results in a streamlined feature set—only relevant functions are present—making adoption easier and reducing training needs.

If processes are reconfigured, you simply add or modify specific modules without disrupting the entire platform. Agility thus becomes a competitive advantage.

Modularity & Scalability

Custom development promotes a decoupled architecture based on microservices or independent modules, each responsible for a distinct business function. This segmentation simplifies scaling and isolated maintenance.

Resources serve only the components under load, optimizing cloud infrastructure usage and reducing hosting costs.

As data volume or user count grows, you can dynamically allocate more resources to critical services without impacting other modules.

This flexibility guarantees increased resilience during activity peaks or new requirements, ensuring operational continuity and stakeholder satisfaction.

Readiness for Technological Advances

A custom foundation is designed to accommodate new technology blocks (AI, analytics, external APIs) without a complete rebuild. Communication interfaces are planned from the architecture phase.

By adopting domain-driven design principles, each business domain evolves independently, ensuring seamless integration with existing systems.

This preparation avoids “big bang” technology shifts and allows rapid proof-of-concept launches before generalizing innovations.

The company thus maintains a leading position, able to absorb technological disruptions without jeopardizing operations or engaging in massive refactoring budgets.

Choosing a Solution Aligned with Your Objectives

Balancing speed, cost, and business fit guides the choice between standard and custom software. For simple, occasional use, a packaged solution may suffice. When complexity exceeds standard boundaries, custom development reveals its full potential in terms of control, scalability, and optimized total cost of ownership.

Analyzing your medium- and long-term needs, mapping your key processes, and considering intellectual property are essential steps to avoid costly overhauls and preserve agility.

Our experts are at your disposal to audit your ecosystem, challenge your assumptions, and guide you in defining or implementing the solution best suited to your digital strategy and growth ambitions.

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What Is Hyper-Automation and How to Leverage It?

What Is Hyper-Automation and How to Leverage It?

Auteur n°16 – Martin

Hyper-automation relies on orchestrating multiple technologies—RPA, BPA, IPA, AI, OCR, low-code—to finely automate the sequencing and optimization of business processes. It goes far beyond simple task robotics: it draws on real-time data collection, intelligent analysis, and the ability to dynamically reassign resources. This approach increases productivity, reduces the risk of errors, and frees teams to focus on higher-value activities. Swiss companies, facing reliability, compliance, and speed challenges, can thus profoundly transform their operating model.

What Is Hyper-Automation and Why Engage with It Now?

Hyper-automation is the convergence of multiple advanced automation solutions to orchestrate and optimize all business processes.It relies on AI, RPA, low-code platforms, and data analytics tools to multiply operational efficiency.

Definition and Scope

Hyper-automation involves combining technologies such as RPA (Robotic Process Automation), BPA (Business Process Automation), IPA (Intelligent Process Automation), and AI (Machine Learning, NLP) to automate not only repetitive tasks but also decision-making and the orchestration of complex value chains.

Unlike classic RPA, which is limited to script execution, hyper-automation introduces an “intelligent” layer: anomaly detection, predictive analytics, task reassignment based on workload and criticality, and even process reengineering recommendations.

It also includes low-code/no-code platforms so business users can directly define and evolve automated workflows, minimizing dependence on IT teams.

Context and Deployment Urgency

Pressure on IT and business departments to reduce costs, accelerate time-to-market, and ensure regulatory compliance continues to grow. In a VUCA (Volatile, Uncertain, Complex, Ambiguous) environment, operational resilience becomes a strategic lever.

Swiss companies, confronted with high quality requirements and a shortage of digital skills, can no longer be satisfied with siloed solutions: digitalization must be holistic and fully integrated.

Starting a hyper-automation project today lays the foundation for a more agile organization, ready to evolve with market demands and technological innovations.

Example in the Banking Sector

A Swiss banking institution conducted a hyper-automation pilot to manage its loan applications. By combining OCR, RPA, and AI for document analysis, the bank reduced processing time by 60 % and improved credit decision accuracy.

Concrete Benefits and Case Studies

Hyper-automation delivers significant productivity gains, improves service quality, and strengthens compliance.It offers a rapid ROI through lower operational costs and enhanced risk management.

Productivity and Efficiency

By automating low-value tasks, employees can focus on strategic missions, innovation, or customer relations. Processes run 24/7 without human error or downtime.

Cross-functional workflows are orchestrated seamlessly: one process triggers another upon validation, real-time notifications, and proactive anomaly escalation.

The result: shorter cycle times, higher internal and external satisfaction rates, and the ability to handle peak workloads without temporary staff.

Quality, Compliance, and Traceability

End-to-end automation integrates quality checks at every step and retains all activity logs and validation certificates. Audits become faster and more secure.

Embedded AI detects compliance deviations, flags suspicious cases, and enables targeted human intervention before any drift.

Regulated industries (finance, insurance, healthcare) gain peace of mind and reduce the risk of penalties.

Scalability and Agility

The modularity of hyper-automation platforms allows adding or removing components as needs evolve, without disrupting the overall ecosystem.

Organizations can quickly experiment with new processes, measure their impact via continuously updated KPIs, and deploy best practices enterprise-wide.

Swiss Example: Automated Invoicing Use Case

A Geneva-based industrial player implemented a hyper-automation solution for customer invoicing. Integrating BPA and machine learning enabled processing 20,000 invoices per month without manual intervention, with an error rate below 0.2 %.

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Comparison: RPA, BPA, IPA, and Hyper-Automation

Each approach covers a different scope and level of intelligence, from simple script execution to self-learning value chains.Hyper-automation represents the most advanced stage, combining orchestration, AI, and low-code for end-to-end automation.

RPA: Task Robotics

RPA creates “software robots” to emulate human actions (clicks, inputs, extractions). It’s quick to deploy but fragile: any interface change can break the script.

It applies to repetitive, structured, rule-based operations.

RPA is an accessible entry point, often used to demonstrate automation’s value.

BPA: Workflow Automation

BPA orchestrates end-to-end business processes through configurable workflows. It manages coordination between applications and stakeholders, includes routing rules and schedules.

Less responsive than RPA for unstructured tasks, BPA targets cross-functional processes (approvals, invoicing, order management).

It ensures traceability and can integrate collaborative portals.

IPA: Embedded Intelligence

IPA enriches BPA and RPA with cognitive capabilities (document recognition, natural language understanding, fraud detection).

It selects the optimal sequence of actions based on data, learns from feedback, and adjusts rules.

This is an intermediate step toward hyper-automation, adding adaptability and automated decision-making.

Hyper-Automation: End-to-End Orchestration

It federates RPA, BPA, IPA, AI, low-code platforms, and analytics to continuously manage and optimize all critical processes.

With dynamic dashboards, KPIs are available in real time, and every anomaly triggers an automated diagnostic and adjustment cycle.

This level maximizes resilience, performance, and seamless scaling.

Example in the Insurance Sector

A Zurich-based insurer deployed a hyper-automation platform for claims management: from declaration receipt to settlement, including damage assessment and fraud detection. Average processing time dropped from 45 days to under 7 days.

Implementation Challenges and Considerations

Implementing hyper-automation requires comprehensive organizational, technical, and cultural preparation.The main hurdles involve data governance, silo integration, and upskilling.

Data Quality and Governance

Hyper-automation relies on reliable, standardized data. Clear governance must be defined: cataloging, maturity, ownership, and security rules.

Without alignment on data quality, AI algorithms and cognitive workflows risk producing biased or erroneous results.

A data stewardship framework and profiling tools are recommended from the outset.

Interoperability and Integration

Hyper-automation solutions must interface with existing systems: ERP, CRM, ECM, databases. APIs, message buses, and middleware ensure smooth communication.

A hybrid approach, combining open-source components and custom developments, limits vendor lock-in and provides long-term flexibility.

A preliminary architectural audit identifies friction points and devises a phased integration roadmap.

Skills and Change Management

Operational and IT teams must acquire new skills: workflow design, robot configuration, and AI model maintenance.

Training, centers of excellence, and “citizen developers” (business users trained in low-code) help spread an automation culture.

Success requires change management support, business sponsorship, and rapid feedback loops (quick wins).

Security and Compliance

Robots and hyper-automation platforms often handle sensitive data. Strong authentication, encryption, and access traceability must be implemented.

Execution environments should be isolated and monitored via a SOC or SIEM.

Compliance with standards (GDPR, ISO 27001) and sector regulations (FINMA, Swissmedic) must be continuously validated.

Embrace Automation and Stay Competitive

By combining RPA, BPA, IPA, and AI within an orchestrated platform, hyper-automation becomes a powerful lever to transform your business processes, improve service quality, and boost organizational responsiveness. Swiss company case studies show that rapid gains are possible, provided data governance is ensured, interoperability is achieved, and change management is mastered.

Our experts are available to assess your maturity, define a tailored roadmap, and deploy an evolving, secure ecosystem that intelligently and sustainably leverages automation for your business.

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PUBLISHED BY

Martin Moraz

Avatar de David Mendes

Martin is a senior enterprise architect. He designs robust and scalable technology architectures for your business software, SaaS products, mobile applications, websites, and digital ecosystems. With expertise in IT strategy and system integration, he ensures technical coherence aligned with your business goals.

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Digital Consultancy & Business (EN) Featured-Post-Transformation-EN

Self-Service BI: Putting Data into Business Users’ Hands

Self-Service BI: Putting Data into Business Users’ Hands

Auteur n°16 – Martin

In the era of all-things data, IT and business departments seek to accelerate decision-making without weighing down processes. Self-service BI meets this requirement by providing intuitive, secure tools directly to business teams. By liberating data access and analysis, it enhances operational agility and aligns IT with strategic priorities. However, succeeding in such an initiative requires rethinking architecture, governance and user enablement. This article presents the key BI concepts, details the concrete benefits of self-service BI, explains the steps for its implementation and underscores the importance of expert partnership to ensure sustainable adoption.

Understanding BI and Self-Service BI

Business intelligence centralizes, archives and enriches data to inform strategic decisions. Self-service BI democratizes this access, offering business users ad hoc analysis without relying exclusively on IT.

Foundations of Traditional BI

Traditional BI relies on data warehouses fed by ETL (extract, transform, load) processes. Reports are created by IT teams and then distributed to business users as standardized dashboards. This approach ensures consistency and reliability but can lead to delays that hinder responsiveness.

Consolidating sources allows for cross-referencing production data, CRM or ERP information to obtain a unified view of KPIs. Validation workflows ensure data quality but complicate rapid changes. Business users often have to submit formal requests for every new analysis.

In large enterprises, this model results in lengthy development cycles and a growing BI backlog. Strategic priorities can evolve faster than IT’s ability to deliver new reports, slowing down agility.

Evolution Toward Self-Service BI

Self-service BI empowers business users to create and customize their own reports via intuitive interfaces. Modern tools offer drag-and-drop, visual querying and real-time exploration. IT retains oversight of access and central modeling but delegates data exploitation.

This shift transforms interactions: IT becomes a data facilitator and governance guardian, while business users gain autonomy. Iterations are faster and analyses more aligned with operational needs.

Open-source and modular technologies have played a key role in this transition, reducing licensing costs and enabling integration within hybrid architectures. The use of lightweight analytical cubes or cloud warehouses accelerates deployment.

Business Use Cases

In banking, a risk department can build a dashboard combining transaction data and stress test indicators in a few hours. They adjust filters and alerts themselves without waiting for an IT sprint.

A Swiss financial institution reduced its regulatory reporting production time by 70%. Analysts now continuously adjust their KPIs, improving responsiveness to market fluctuations.

This agility secures compliance while freeing IT to focus on more strategic projects, such as AI or enhancing digital customer experience.

Concrete Business Benefits of Self-Service BI

Self-service BI increases business responsiveness, lowers report production costs and boosts daily data adoption. It delivers rapid ROI through measurable efficiency gains.

Enhanced Decision-Making Agility

By accessing data directly, business leaders experiment with real-time scenarios. They can explore new correlations, test hypotheses and adjust strategies without delay. This autonomy streamlines decision-making and fosters innovation.

For example, a marketing team can segment campaigns by refined criteria (channels, customer segments, time periods) in just a few clicks. Adjustments are applied and measured instantly.

The ability to quickly analyze performance maximizes action effectiveness and seizes opportunities ahead of the competition.

Reduced IT Dependence

Outsourcing report creation to business users frees IT teams from recurring requests. They can dedicate their time to maintaining infrastructure, optimizing governance and developing advanced analytical solutions.

The BI backlog stabilizes, report enhancement tickets decrease and project lifecycles slow less. IT budgets are redirected toward innovation, such as AI integration or expanding Big Data processing capabilities.

This resource reallocation cuts indirect costs and accelerates high-value initiatives.

Empowering Operational Data

By entrusting operational teams, self-service BI strengthens a data-driven culture. Users identify new sources, propose specific business indicators and contribute to the data model’s evolution.

For instance, a Swiss industrial company integrated real-time production metrics into its performance reports. Workshop managers optimized machine settings and reduced scrap by 15% in three months.

These results demonstrate self-service BI’s ability to turn data into an operational performance driver.

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Implementing a Self-Service BI Solution

Deploying self-service BI relies on a scalable architecture, rigorous governance and progressive user skill development. Each stage ensures buy-in and security.

Choosing a Modular, Scalable Architecture

Opting for a modular platform allows adding or removing analytical components as needed. Cloud data warehouses, lightweight OLAP cubes and hybrid data lakes ensure flexibility and scalability.

A hybrid approach combines open-source solutions for standard needs and custom development for complex cases. This strategy avoids vendor lock-in and adapts to business contexts.

Data Security and Governance

Delegating data access requires a robust governance framework. Roles and permissions are defined during the design phase to ensure confidentiality, traceability and regulatory compliance.

Secure views, data catalogs and model versioning maintain integrity and consistency. IT retains control over transformation and access rules, while business users work with validated data.

This centralized oversight minimizes the risk of errors or leaks and maintains the trust of internal control bodies.

User Training and Adoption

Adoption begins with a tailored training program combining tutorials, hands-on workshops and user feedback. Business champions identify initial use cases and share best practices internally.

A progressive onboarding cycle structured by skill levels allows each user to build autonomy. Individualized coaching sessions accelerate the mastering of advanced features.

Contextualized documentation, enriched with concrete examples, empowers teams to explore data and create high-value dashboards.

The Role of Support Services for Success

Expert guidance ensures a structured deployment, rapid adoption and continuous evolution of self-service BI. Contextualized consulting maximizes business impact.

Audit and Roadmap Definition

The first step is analyzing existing sources, data architecture and business needs. The audit identifies priorities, risks and quick wins to structure a pragmatic roadmap.

This initial scoping assesses BI maturity, data quality and internal skills. Deliverables include a target architecture, migration plan and tailored technology recommendations.

Managing this phase ensures alignment with corporate strategy and facilitates investment decisions.

Custom Development and Integration

Depending on use cases, specific connectors, custom transformations or advanced business logic may be developed. Integrating into the existing ecosystem preserves process continuity.

The choice between open-source or proprietary components is evaluated case by case. The goal is to balance deployment speed, scalability and licensing costs.

Project teams work closely with business users to fine-tune data models, KPIs and visualizations. This iterative approach ensures real-world adoption of the solution.

Ongoing Support and Evolution

Once the platform is in production, operational support and regular iterations guarantee sustainability. Extension, scaling or source addition needs are handled in an agile framework.

Quarterly performance reviews measure usage, identify bottlenecks and adjust governance. Evolutions are prioritized based on business impact and technical complexity.

This support model ensures self-service BI continues to deliver value and stays aligned with evolving strategic challenges.

Give Business Users the Keys to Performance

Self-service BI transforms data into an innovation driver by bringing analysis closer to operational needs. With a modular architecture, clear governance and targeted support, organizations gain agility and optimize decision-making processes.

At Edana, our experts are by your side to audit your environment, define a pragmatic roadmap and deploy a solution tailored to your context. Together, let’s unlock your data’s potential and place your teams at the heart of performance.

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Martin Moraz

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Martin is a senior enterprise architect. He designs robust and scalable technology architectures for your business software, SaaS products, mobile applications, websites, and digital ecosystems. With expertise in IT strategy and system integration, he ensures technical coherence aligned with your business goals.

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Guide to Change Management for Adopting New Technologies

Guide to Change Management for Adopting New Technologies

Auteur n°4 – Mariami

The success of a digital transformation project depends as much on technology choices as on an organization’s ability to manage change. Without a structured support approach, even the most powerful solutions struggle to find their place and deliver the expected value. In a context where competition is intensifying and business requirements are evolving rapidly, it becomes imperative to understand the mechanisms of change management, anticipate resistance, and deploy proven methods. This guide offers a comprehensive overview for steering the adoption of new technologies, optimizing your investments, and ensuring the buy-in of all key stakeholders.

Why Change Management Is Essential in Technology Adoption

Change management involves preparing for, supporting, and sustaining the integration of new practices and tools. Without this vigilance, users can resist, slow down, or even sabotage your project. A proactive change management approach enables the identification of obstacles, engagement of stakeholders, and ensures a smooth rollout, guaranteeing a fast and lasting ROI.

Definition and Stakes of Change Management

Change management is a cross-disciplinary field that combines communication, training, and operational support. Its goal is to reduce discomfort associated with introducing new procedures or technologies. This structured approach relies on clear processes to analyze the impact of transformations on teams and existing workflows. By identifying potential roadblocks early, it enables targeted actions to secure adoption.

At the core of this approach is active listening to employees and business leaders. It involves understanding their needs, fears, and aspirations to create a tailored support plan. A clear definition of roles and responsibilities facilitates the engagement of key players. Finally, an appropriate governance structure ensures continuous monitoring and measurement of success indicators throughout the project.

Risks of Neglecting Change Management

Overlooking the support phase exposes your organization to strong—and often invisible—resistance. Users may continue relying on legacy systems or develop “workarounds” that bypass intended solutions. This fragmentation of usage creates an unstable ecosystem that is costly to maintain and delivers poor performance. In the long run, lack of adoption leads to low utilization rates and reduced productivity.

This scenario can also erode trust between leadership and operational teams. Employees then perceive the initiative as a constraint rather than an opportunity for improvement. Delays mount, support costs skyrocket, and the transformation ambition hits an organizational glass ceiling. Projects may be suspended or even abandoned.

Impact on Stakeholders

Every role in the company is affected by technology adoption: sponsors, managers, end users, support teams. Poorly anticipated training needs breed anxiety and increase the risk of errors. Without adequate support, managers struggle to guide their teams through change, stalling any innovation momentum.

Conversely, a well-calibrated change management plan motivates employees and enhances cross-functional collaboration. Hands-on training, coupled with accessible support, builds confidence in new solutions. Usage metrics, combined with regular feedback, provide visibility on progress and allow real-time adjustments.

Example: A mid-sized Swiss financial institution rolled out a new CRM tool without a training plan or targeted communication. Result: only 40% of advisors used it, preferring personal spreadsheets, which fragmented client data and heightened compliance risk. After introducing practical workshops and appointing internal champions, adoption rose to 90% within three months.

Consequences of Insufficient Change Management

Treating change support as an afterthought ultimately costs dearly in time, budget, and user satisfaction. Technical difficulties then become an excuse for deeper blockages. Analyzing the impacts of a flawed approach helps quantify stakes and allocate the resources needed to course-correct before it’s too late.

Resistance to Change and Loss of Buy-In

Resistance can manifest as refusal to migrate to the new system or as negative feedback that spreads rapidly internally. This opposition hinders feature implementation and undermines confidence in the overall digital program. Teams revert to legacy practices, causing cumulative delays on other modernization projects.

Subtle warning signs—like low login rates or recurring tickets on the same issues—must be detected and addressed immediately. Regular check-ins with key users help uncover obstacles and adjust training or documentation. Without this vigilance, the gap between intentions and operational reality only widens.

Delayed Rollouts and Cost Overruns

Each rollback to correct an adoption failure triggers additional project team interventions. Timelines stretch, and budgets explode, jeopardizing the IT leadership’s credibility and reducing flexibility for future initiatives. Contracts with vendors extend without guaranteeing effective uptake of new features.

Postponed milestones create a domino effect on the overall digital transformation schedule. Expected gains in productivity and performance are compromised, and decision-makers may question the chosen strategy’s relevance. Budget reallocations often come at the expense of innovation.

Return on Investment Shortfall

Poor adoption leads to low license utilization and a significant drop in projected savings. Recurring maintenance and support costs remain high, while benefits in service quality and management remain marginal. Ultimately, the project may be viewed as nothing more than an additional cost center.

This shortfall often becomes apparent after go-live, when it’s too late to fix issues without revisiting parts of the architecture or processes. It is precisely at this stage that the importance of allocating sufficient resources to support, communication, and post-deployment follow-up becomes clear.

Example: A Swiss retail chain launched an automated stock management project without preparing its logistics managers. Employees delayed learning the dashboard and continued manual counts, doubling restocking times. After a personalized coaching plan, the company reduced the process to a few clicks.

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Best Practices for Effective Change Management

A structured, business-centric approach fosters buy-in and maximizes the benefits of new technologies. Each phase—from initial communication to post-deployment evaluation—must be orchestrated coherently. The key lies in collaboration among IT, business units, and vendors, with an evolving scope and shared metrics.

Develop a Targeted Communication Plan

Communication is the thread that ties change management together. It must start before work begins to explain context, objectives, and expected benefits. Personalized messages for different audiences (managers, operational staff, support) ensure relevance and drive engagement.

Using both digital channels (intranet, newsletters) and human touchpoints (workshops, status meetings) creates lasting momentum. Feedback from early sessions helps refine tone and frequency. A rapid feedback loop prevents misunderstandings and fosters a sense of project ownership.

Stage Training and Leverage Feedback

Breaking training into progressive modules facilitates the assimilation of new features. A blend of in-person sessions, e-learning, and video tutorials caters to each user’s preferences. Practical workshops reinforce learning, while end-user feedback informs targeted adjustments.

Establishing super-users or local champions builds an internal support network. These ambassadors share best practices and serve as first-line contacts for incidents or questions. Their involvement from the design phase ensures a smooth transition and strengthens a continuous improvement culture.

Measure, Adjust, and Sustain

Defining clear metrics (adoption rate, usage frequency, processing time, user satisfaction) enables monitoring of support effectiveness. Shared dashboards between IT and business units provide consolidated insights and facilitate rapid decision-making.

Field feedback must be collected regularly to identify friction points and address them before they become entrenched. Quarterly post-deployment review workshops offer a formal framework to capture lessons learned and calibrate future enhancements.

Example: A Swiss healthcare company organized internal “jams” around its new collaboration portal. By encouraging spontaneous feedback and rewarding improvement suggestions, the company doubled the number of tickets processed through the tool in under three months, while strengthening business-team buy-in.

Well-Designed Technology and Expert Support

Technology chosen and configured according to business context greatly eases adoption. Modular, open-source, and scalable solutions minimize friction and support gradual integration. Expert technological support from an experienced provider enriches the change management framework with technical and methodological know-how.

Opt for Modular and Open-Source Solutions

Architectures built on independent modules allow the step-by-step introduction of new features without disrupting existing systems. Open source ensures full code transparency and reduces vendor lock-in risk. This freedom enhances responsiveness and tool customization.

Dedicated modules for rights management, single sign-on, or real-time collaboration can be activated as needed and adjusted with minimal impact on current processes. This technical flexibility supports a continuous evolution strategy.

Integrate Methodological Support

Beyond technical mastery, success hinges on a proven methodology. An external expert brings fresh perspective and guides the project team in applying change management best practices. From planning to workshop facilitation, their contribution ensures overall coherence.

The synergy of business expertise, internal leadership, and external support optimizes efficiency. Cross-sector validated feedback provides valuable insights to anticipate pitfalls and accelerate adoption.

Sustain the Gains

Establishing an internal competency center ensures continuity after initial deployment. It consolidates technical and functional experts trained in future evolutions and new use cases. This hub streamlines support, skill development, and progressive platform enhancement.

Simultaneously, a solid partnership with a qualified provider guarantees quick access to technical expertise, updates, and market best practices. This alliance helps maintain a state-of-the-art technological environment aligned with the company’s strategic goals.

Accelerate Technology Adoption and Master Change Management

The success of new technology adoption lies in structured change management focused on user needs and business requirements. By combining a targeted communication plan, a phased training program, and a rigorous methodology, you maximize team buy-in and optimize your investments.

To turn these principles into tangible results, Edana’s experts support you at every stage—from strategic planning to post-deployment evaluation, including team training and support. Together, we’ll design a solution perfectly aligned with your objectives and context.

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Mariami Minadze

Mariami is an expert in digital strategy and project management. She audits the digital presences of companies and organizations of all sizes and in all sectors, and orchestrates strategies and plans that generate value for our customers. Highlighting and piloting solutions tailored to your objectives for measurable results and maximum ROI is her specialty.

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Data Products, Data Mesh, and the Data Economy: How to Fully Leverage Your Data?

Data Products, Data Mesh, and the Data Economy: How to Fully Leverage Your Data?

Auteur n°16 – Martin

In a context where data is becoming organizations’ most valuable asset, moving from passive management to an active strategy is a top priority. Structuring each dataset as a true product, distributing governance according to business responsibilities, and considering value creation within an external ecosystem are all levers to make full use of data. This article introduces the concepts of data products, data mesh, and the data economy, highlighting their concrete benefits. Each of these paradigms relies on governance, security, and interoperability principles that ensure robust, sustainable data exploitation.

Data Product: Ensuring Reliability and Usability of Every Dataset

Every dataset becomes an identified, documented, and versioned product. This approach guarantees data quality, traceability, and reuse across the enterprise.

The Data Product Concept

A data product is a structured dataset accompanied by metadata, service contracts, and SLAs. It’s treated like a traditional product: it has an owner, a roadmap, and a budget for future enhancements.

This product mindset clearly assigns responsibility to each team for the quality, availability, and security of the data they publish. It also simplifies prioritization of updates and fixes based on the generated business value.

Beyond basic collection, the data product includes automated cleaning, transformation, and documentation processes. Consumers know exactly what to expect when they use this dataset.

Implementing a Data Product Catalog

To roll out a data product approach, begin by inventorying your key datasets and defining clear schemas. A centralized catalog lists each product, its schema, its owners, and its end users.

Governance relies on continuous integration workflows for data: quality tests, consistency checks, and compliance verifications. Every change goes through automated pipelines that validate the product against defined standards.

The documentation, versioned like a code repository, dissolves the opacity often associated with data. Each data product version notes changes, new fields, and impacts on consuming applications.

Example: A Financial Services Firm in Geneva

At a Geneva-based financial institution, the risk management department structured internal transaction flows into data products. Each of these products integrates automated validation rules, ensuring over 99% reliability.

Deploying a central catalog enabled analysts to save more than 20% of time on their monthly reports. Business teams can now quickly identify and investigate discrepancies without constantly involving IT.

This setup was also extended to compliance data, reducing manual audits and mitigating regulatory risks while enhancing cross-functional collaboration.

Data Mesh: Empowering Business Teams for Greater Agility

Data mesh adopts a distributed architecture where each business domain becomes both producer and consumer of its own data. This decentralization accelerates innovation cycles and reduces technical dependencies.

Fundamental Principles of Data Mesh

Data mesh is built on four pillars: domain-driven ownership, data products, self-service platform, and federated governance. Each domain takes responsibility for its data from production through consumption.

An internal platform offers standard building blocks (ingestion, storage, cataloging, security) in a self-service model. Business teams use these services to deploy their data products quickly without managing the underlying infrastructure.

Federated governance ensures overall coherence while allowing each domain to define its own rules according to its needs. A cross-domain committee sets inter-domain standards and oversees best-practice compliance.

Operational and Organizational Impacts

By empowering business teams, data mesh eliminates the bottlenecks often seen in central IT. Developments can proceed in parallel with more frequent releases.

This approach also fosters innovation: each domain can swiftly test new metrics, analytical models, or data-driven services using its own data, without relying on a centralized BI team.

Finally, the model reduces vendor lock-in risk: by embracing an open-source, modular strategy, the architecture can evolve without major disruptions.

Example: An Industrial Group in German-Speaking Switzerland

A German-Swiss industrial group adopted data mesh to manage its production lines. Each plant now handles its IoT sensors as a data product with self-service automated alerts.

Operations teams can view equipment performance in real time and propose local optimizations without involving a central control center. Incident response time dropped from several hours to a few minutes.

This increased agility also enabled new predictive maintenance services, boosting machine availability and cutting unplanned costs.

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The Data Economy: Monetization, Sharing, and Value Creation

The data economy explores internal and external monetization models for data products. Selling, sharing, or trading data opens up new revenue streams and partnership opportunities.

Internal and External Monetization Models

Internally, value is realized through internal chargebacks or budget allocations based on data product consumption, encouraging domains to optimize flows and minimize unnecessary costs.

In the external economy, data marketplaces enable selling or swapping anonymized datasets with partners. Companies can generate additional revenue or gain cross-industry insights.

Transparent pricing (subscription, volume-based, user count) ensures predictability. Real-time consumption tracking feeds billing and revenue-sharing.

Data Partnerships and Ecosystems

Building data ecosystems requires defining exchange contracts that ensure confidentiality, compliance with nLPD, GDPR, and traceability. Every access is audited and scoped to business purposes.

Sectoral consortiums (finance, healthcare, supply chain) can pool certain data products to create benchmarks and shared metrics. Secure sharing fuels collective innovation.

Open APIs based on standards ease integration of external data and the creation of high-value services like cross-company dashboards or collaborative predictive analytics.

Example: A Swiss Healthcare Network

In a Romandy hospital network, anonymized patient follow-up datasets were made available through an internal marketplace. Academic and pharmaceutical partners access these data products under strict conditions.

This initiative launched several clinical studies at half the usual cost and timeline. Researchers’ feedback improved data quality, creating a virtuous cycle.

Revenues generated directly fund IT infrastructure, reducing hospitals’ budgetary burden and accelerating adoption of new analytics.

Governance, Security, and Interoperability as Pillars

An advanced data strategy demands a clear governance framework, robust security, and adherence to open standards to ensure interoperability. These elements build trust and scalability.

Agile Governance Framework

Agile governance relies on cross-functional bodies (business, IT, architecture, risk) that define and adjust rules iteratively. Periodic reviews reassess priorities, budgets, and risks.

Data contracts formalize quality and availability commitments. They’re monitored automatically, with alerts for any degradation.

Consolidated dashboards provide visibility into data product usage and quality, supporting strategic decisions and cost optimization.

Security and Compliance

Data security integrates encryption at rest and in transit, role-based access controls, and full query traceability.

Compliance with regulations (nLPD, GDPR, FINMA, ISO 27001) is validated through regular audits and alerting processes for unauthorized access attempts.

Open-source solutions are systematically assessed for maturity and vulnerabilities, ensuring a robust, evolving architecture.

Interoperability and Open Standards

Adopting standard formats and protocols (JSON Schema, OpenAPI, Apache Avro) simplifies data exchange across heterogeneous platforms.

Hybrid architectures combine open-source components with custom developments, avoiding proprietary lock-in while meeting business needs.

API-first design and event buses (Kafka, MQTT) enable real-time and asynchronous integrations vital for critical use cases.

Example: A Swiss Retail Chain

A national retail chain implemented federated governance for its inventory and order data, based on shared data products between stores and headquarters.

The platform uses REST APIs documented via OpenAPI, ensuring seamless integration with existing logistics and e-commerce systems.

This setup improved replenishment forecast reliability and customer insights while ensuring all sensitive data is consistently encrypted.

Leverage Your Data: From Management to Value Creation

Structuring datasets as data products, deploying a data mesh architecture, and exploring data economy models are the keys to an active data strategy. These approaches foster agility, reliability, and innovation while maintaining governance and security.

Implementing a catalog, empowering business teams, and opening up data partnerships illustrate the transformation required to turn data into a competitive advantage.

Regardless of your maturity level, you can adopt these principles to boost performance and anticipate future challenges. Our experts at Edana are here to guide you through this journey, from defining your roadmap to delivering your first data products.

Discuss Your Challenges with an Edana Expert

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Martin Moraz

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Martin is a senior enterprise architect. He designs robust and scalable technology architectures for your business software, SaaS products, mobile applications, websites, and digital ecosystems. With expertise in IT strategy and system integration, he ensures technical coherence aligned with your business goals.

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Digital Consultancy & Business (EN) Featured-Post-Transformation-EN

Guide to the Digital Roadmap in 4 Key Steps

Guide to the Digital Roadmap in 4 Key Steps

Auteur n°3 – Benjamin

In a context where digital transformation has become a major strategic challenge, having a clear, structured digital roadmap is essential to steer your projects with agility and efficiency. This reference document unites stakeholders, prioritizes initiatives, and ensures coherent progress toward your business objectives. It reflects both your long-term vision and the maturity of your internal processes. Crafted rigorously, it anticipates risks, incorporates technologies that preserve flexibility, and guarantees the continuous scalability of your digital ecosystem. Discover in this guide the five key steps to design and deploy a digital roadmap tailored to your organization.

1. Define the digital vision and strategic objectives

This first step sets the course and aligns your roadmap with the company’s overall strategy. It determines investment areas and the success indicators to track.

Clarifying the vision and business stakes

Defining your digital vision starts with framing the company’s ambitions and sector constraints. It involves executive leadership, business lines, and IT to refine priority needs and identify differentiation levers. You must translate financial goals, customer experience targets, and operational performance metrics into concrete milestones. This phase also lays the groundwork for cross-functional governance, ensuring fast, shared decision-making.

Establishing SMART objectives

To prevent scope creep and measure progress objectively, formulate SMART objectives: Specific, Measurable, Achievable, Realistic, and Time-bound. For example, aiming to reduce order processing time by 20% within 12 months offers a tangible benchmark. Each objective should fit within the broader context of your innovation or optimization strategy. This alignment streamlines resource allocation and project prioritization.

Engaging governance and stakeholders

A steering committee dedicated to the digital roadmap brings together executives, business owners, and technical experts. It meets regularly to validate major milestones and arbitrate priorities as contexts evolve. This setup ensures transparency on progress and any encountered roadblocks. It also fosters buy-in for the initiative and holds internal sponsors accountable.

Example: a Geneva-based industrial SME

A Geneva industrial SME structured its digital vision around the performance of its supply chain. After a two-day workshop with leadership and department heads, it formalized three SMART objectives covering traceability, production lead times, and integration of new open-source modules. This clarity secured a multi-year budget and launched its first projects the following quarter.

2. Map the current state and analyze available resources

This step assesses the current health of your digital ecosystem and identifies strengths as well as vulnerabilities. It provides a factual basis to guide investments and mitigate risks.

Audit of systems and processes

Conducting a comprehensive audit of your infrastructure, applications, and data flows is crucial to establish an overall picture. This analysis covers technical architecture, security, code quality, and deployment processes. It uncovers silos, redundancies, and friction points. The goal is to optimize future efforts by building on a solid foundation.

Inventory of skills and licenses

Listing internal skills and external partnerships ensures you have the expertise needed for each project phase. It’s also vital to review software licenses and contractual commitments. An overly locked-in proprietary solution can limit your ability to evolve. Whenever possible, favor open-source or modular components to maintain freedom of action.

Data and dependency mapping

Understanding data flows between your applications and databases facilitates the implementation of a hybrid architecture. Document the interfaces, APIs, and key integration points to anticipate risks of outages or quality loss. This mapping guides the gradual decoupling of systems and ensures high availability. It also steers your migration or refactoring strategy.

Example: a Lausanne financial institution

A Lausanne-based financial institution conducted an exhaustive inventory of its microservices and databases. The audit revealed multiple dependencies on obsolete, costly proprietary solutions. By defining a phased migration path to open-source alternatives, the group cut license costs and improved its IT teams’ responsiveness.

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3. Prioritize and structure transformation initiatives

Prioritization relies on business and technical scoring to rank your projects. It ensures a phased rollout with quick feedback loops.

Impact vs. complexity matrix

For each initiative, assess business impact (revenue gain, reduced time-to-market, customer satisfaction) and technical complexity (dependencies, duration, costs). This matrix helps you spot quick wins and high-leverage projects. You then formalize a balanced deployment plan, combining rapid gains with foundational investments. Quick wins drive momentum, while complex projects are prepared in parallel.

Resource allocation and scheduling

Based on your priorities, assign teams, skills, and budgets to each segment of the roadmap. A detailed schedule that accounts for peak activity periods and vacations ensures smooth execution. Incorporate testing and continuous validation phases to minimize risks. Intermediate milestones allow for course corrections and regular progress updates.

Modular breakdown and agile approach

Adopt a modular, microservices architecture to split projects into sprints or iterations. This setup encourages rapid experimentation, continuous integration, and process optimization. Teams can deliver incremental value and adjust based on operational feedback. Agility reduces change costs and accelerates time-to-market.

Example: a Basel-area retailer

A mid-sized Swiss retailer used an impact/complexity matrix to prioritize its digital initiatives. It first launched a promotions management microservice in under five weeks, then restructured its payment system. This iterative approach validated technology choices and generated fast customer feedback.

4. Execute and monitor your transformation plan

This step brings the roadmap to life through structured actions and rigorous monitoring. It ensures the sustainability of gains and adaptability to market changes.

Rolling out the action plan

Document each initiative with deliverables, owners, and key dates. Establish clear project governance and regular review committees. Use asynchronous management tools like Jira and Confluence to track progress, share feedback, and centralize decisions. The organization must be able to absorb field feedback and adjust scope in real time.

Agile governance and change management

Structure governance around agile rituals (sprint reviews, retrospectives, monthly steering committees) to foster collaboration among IT, business, and stakeholders. Support change with targeted training and a communication plan tailored to each audience. Anticipate resistance by highlighting interim successes and sharing performance metrics. This collaborative approach reduces bottlenecks and strengthens buy-in.

KPI tracking and continuous adjustments

Regularly measure the indicators defined upstream (new feature adoption, reduced lead times, ROI). Implement dynamic dashboards to detect deviations and trigger corrective actions. Don’t hesitate to revisit roadmap priorities quarterly to reflect shifting challenges and field feedback. This governance loop ensures the long-term relevance of your investments.

Example: a Valais educational services provider

A Valais-based education services company deployed its digital plan in three waves, each led by an agile committee. Thanks to precise KPIs and bi-weekly reviews, it quickly reallocated resources to accelerate the rollout of a new tracking tool. The system is now operational and scalable, allowing the integration of new modules as clients’ needs evolve.

Build a high-performing, sustainable digital roadmap

By clearly defining your vision, mapping the current state, prioritizing with a business-driven scoring model, and governing with agility, you create a coherent, adaptable roadmap. This contextual approach—preferably based on modular, open-source building blocks—ensures flexibility and resilience in the face of digital transformation. You thus limit vendor lock-in, boost the effectiveness of your corporate strategy, and secure durable ROI.

Regardless of your sector or company size, at Edana our experts are by your side to co-construct your digital transformation plan. From vision definition through change governance to the development and integration of modern, scalable digital tools, we apply best practices in architecture, cybersecurity, and product strategy.

Talk about your challenges with an Edana expert

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Digital Consultancy & Business (EN) Featured-Post-Transformation-EN

MVP, PoC, Prototype: Which One to Choose for Your Digital Project?

MVP, PoC, Prototype: Which One to Choose for Your Digital Project?

Auteur n°3 – Benjamin

In a context of accelerated innovation, companies must rapidly test their digital ideas before committing to heavy development. Choosing between a proof of concept (PoC), prototype, or minimum viable product (MVP) impacts the project’s timeline, budget, and credibility. Each approach addresses distinct challenges: validating a technology, presenting a first functional version, or quickly launching a usable product. This article outlines the differences, objectives, and use cases of these methods in software, mobile, web, and AI development. By reading this article, you will gain strategic insights to choose the approach best suited to your organization and secure your digital roadmap.

Proof of Concept: Validating Technical Feasibility

A PoC allows you to validate a concept or technology without fully developing the entire solution. It focuses on the key uncertainties and mitigates risks before any significant commitment.

Definition and Objectives

La Proof of Concept (PoC) involves creating a minimal prototype or technical test to answer a specific question, for example the integration of an API or the performance of an AI algorithm in a real environment.

It focuses solely on the critical features that carry a risk of failure, without considering ergonomics, design, or large-scale stability.

The objective is to make an informed decision about the viability of a technology before planning a complete and structured development.

By isolating uncertainties, a PoC provides concrete insights into potential costs, required resources, and technical considerations to anticipate.

Key Benefits for the Business

A PoC reduces technical uncertainty by delivering tangible evidence of a solution’s ability to meet a specific business need.

It fosters communication between technical and operational teams by demonstrating the possibilities and limitations of an approach before any major investment.

In case of negative feedback, the company can pivot or abandon the chosen option quickly, avoiding additional costs and delays.

Concrete Example: Personal Services Company

A Swiss-based personal services company we have supported for years conducted a PoC to evaluate the use of a third-party provider’s API in its client portal.

The experiment revealed latency and compatibility issues with existing processes—conditions not identified during preliminary studies.

Following this phase, the project team refined the functional scope and opted for an open-source alternative, avoiding an investment of several hundred thousand Swiss francs.

Prototype: Bringing the User Experience to Life

A prototype presents a simplified functional version focused on interface and user experience. It gathers rapid feedback and refines the design before any production deployment.

Features and Objectives

A prototype can include clickable screens, a simulated navigation flow, or partially operational technical components to illustrate the user journey.

It does not aim to handle scaling or full integration, but to visualize the appearance, interactions, and overall fluidity of the application.

This approach enables stakeholders to evaluate ergonomics, content organization, and visual consistency before committing to more costly development.

Qualitative feedback from end users and business teams guides decisions on design, functional priorities, and the product’s information architecture.

Use in an Agile Cycle

In an agile approach, the prototype serves as a preparatory step for the development sprint, guiding user stories and functional mockups.

It also facilitates collaborative workshops with business teams to validate key journeys and prioritize features.

Iterative adjustments to the prototype reduce back-and-forth during coding, minimizing misunderstandings and costly rework.

Concrete Example: Basel-based Fintech

A Basel-based fintech designed a clickable prototype for its portfolio management application before beginning back-end development.

User tests uncovered friction points in navigating between dashboards and transaction filters.

Thanks to adjustments made on the prototype, the team entered development with a validated interface, reducing post-launch modification requests by 25%.

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Minimum Viable Product: Rapidly Launching a Valuable Product

An MVP combines enough features to deliver value to end users from the first release. It collects real data and guides ongoing development according to market needs.

Concept and Implementation

The Minimum Viable Product (MVP) focuses on the core value proposition, deploying only the essential features to satisfy the primary user need.

This initial version is typically released to a limited segment to measure adoption, usage, and satisfaction.

The collected metrics (conversion rate, engagement, qualitative feedback) guide the priorities of future iterations and inform the product roadmap.

By limiting the initial investment, the MVP reduces financial risk while providing a concrete foundation for incremental development.

Advantages for Teams and Business

Teams gain agility by operating within an iterative framework where each new feature builds on a proven production base.

Rapid market feedback validates or invalidates business hypotheses, optimizing positioning and the product’s value proposition.

This approach also limits technical debt, as the code evolves according to real needs, avoiding unused features.

Concrete Example: Geneva-based Manufacturer

A Geneva-based manufacturer launched an MVP of its mobile maintenance-tracking app for field technicians.

The first version included work order management and real-time data capture, without an advanced reporting module.

Early feedback guided the development of analytical dashboards in subsequent iterations, ensuring precise alignment with operational priorities.

Comparison and Decision Guide for Your Digital Project

Choosing between PoC, prototype, and MVP depends on the level of uncertainty, business objectives, and desired timelines. A precise diagnosis aligns the approach with your strategic and technological challenges.

Selection Criteria

If you have doubts about technical feasibility or want to evaluate a new technology, opt for a PoC focused on the main risks.

To validate the user experience and refine design, an interactive prototype is more appropriate before mobilizing development teams.

If your goal is to test the product’s value proposition in a real market, favor the MVP to obtain quantitative and qualitative feedback.

Timeline and Estimated Budget

A PoC can be deployed in a few weeks with a limited budget, as it concentrates on a very narrow scope.

A prototype typically requires one to two months of work, including UX/UI workshops, mockup validation, and clickable demonstrations.

An MVP demands a larger investment of three to six months depending on complexity, but offers a rapid return on investment in real conditions.

Integration into a 360° Strategy

By combining these three approaches sequentially, you secure technical feasibility, optimize user experience, and launch a viable product on the market.

Comprehensive support considers architecture, data security, continuous integration, and sector-specific business evolutions.

This holistic approach allows you to limit risks, adjust priorities, and maximize value creation at each stage of your digital project.

Choose the Right Approach to Accelerate Your Digital Transformation

PoC, prototypes, and MVPs address distinct needs: from technical validation to user experience to market launch. Each method must be used at the right time based on your objectives, project maturity, and available resources. A preliminary diagnosis and a clear roadmap ensure controlled execution aligned with your company’s overall strategy.

Whatever your situation, our experts are at your disposal to guide you in defining and implementing the approach that best meets your challenges. From initial scoping to production deployment, we provide advice and expertise to secure every stage of your project.

Discuss your challenges with an Edana expert