The rise of generative AI is transforming business innovation, allowing companies to incorporate advanced AI capabilities even without specialised data science teams. Traditionally, organisations seeking to leverage AI looked for in-house data scientists and machine learning engineers to build and train models, assuming that such expertise was essential for success. However, the landscape has shifted with the advent of no-code AI platforms, enabling companies to bypass conventional technical hurdles.
Key Roles in AI Projects: A Conventional Approach
Misconceptions about Data Scientists in Generative AI
Leveraging Pre-Trained Models: A Paradigm Shift
Essential Skills for Generative AI Projects without Data Scientists
Orchestration: A Strategic Approach to AI Implementation
No-Code AI: Democratising Generative AI for Wider Access
The Future of Generative AI: Accessible and Inclusive
Historically, implementing AI within an enterprise involved several distinct roles, each contributing unique skills to develop, train, and deploy AI models. Traditional AI projects typically follow these phases:
Problem Definition and Goal Setting: Subject matter experts (SMEs) play an essential role here, using their domain knowledge to define the AI project’s objectives. However, SMEs may not always possess the technical mindset needed to design and execute AI projects end-to-end.
Solution Creation: Data scientists, in collaboration with SMEs, define technical requirements and design machine learning models. They engage in data transformation, model selection, and testing to ensure the solution is both viable and relevant to business goals.
Productisation: In this phase, application engineers, often with little to no AI expertise, integrate the AI model into a complete application, crafting user interfaces and orchestrating backend functionalities. This process ultimately bridges the gap between AI models and user-facing applications.
While each role is valuable, the dependency on technical specialists like data scientists and machine learning engineers can complicate projects, extending timelines and driving up costs. Here is where no-code AI platforms bring efficiency by reducing the need for specialised skill sets.
When organisations seek data scientists to implement generative AI, they often misunderstand both the role of a data scientist and the actual requirements of generative AI projects. In reality, data scientists typically spend less than a quarter of their time on model building. Instead, they focus significantly on data collection, stakeholder coordination, and model maintenance.
Generative AI projects, particularly those involving large language models (LLMs), usually do not require custom model creation. Most companies benefit from using pre-trained models, which are already capable of generating sophisticated outputs and can be integrated via APIs into larger applications without the need for specialised knowledge of model-building processes.
Large language models such as OpenAI’s GPT-4 and others are designed for broad, general-purpose use. These models have been trained on vast datasets, which means companies can implement them to generate relevant outputs without undertaking the data-intensive training processes typically associated with traditional AI projects.
Using pre-trained models offers substantial benefits:
By focusing on integrating these models, businesses can avoid costly in-house development, a shift that facilitates faster and more cost-effective generative AI implementations.
Generative AI projects primarily involve tasks like orchestrating pre-trained models, prompt engineering, and integrating data sources. The specific skills required differ from those needed for traditional AI model development. Key capabilities include:
Given these requirements, traditional software engineers or application developers, with brief training in generative AI fundamentals, are often better suited for such projects than data scientists.
Orchestration in generative AI refers to creating structured workflows that connect data, models, and business logic. Rather than building AI systems from scratch, companies can employ orchestration tools to integrate pre-trained models and existing data sources effectively. This process allows for faster deployment and lower complexity.
Orchestration can be likened to “stitching together” existing tools rather than “weaving” entirely new solutions. By breaking complex tasks into manageable units, orchestration enables seamless integration across components such as data sources, APIs, and model responses. This approach enhances efficiency and optimises the workflow, focusing on delivering value rather than mastering technical details.
Typical tasks involved in AI orchestration include:
With these tasks in mind, a skilled application engineer can orchestrate generative AI applications without needing to build models from scratch.
The diagram below illustrates how the majority of a data scientist’s time is spent on data gathering and stakeholder coordination, as opposed to the anticipated focus on model building and validation.
No-code platforms have emerged as powerful enablers for teams to implement generative AI without deep technical expertise. These platforms provide templates and modular components, making it possible to create AI-driven applications by selecting and combining pre-existing tools.
One practical example is creating a customer service application that can generate responses based on inquiries. Through a no-code platform, users can design workflows that utilise AI for tasks such as requirement extraction, information retrieval, and response generation, all without writing custom code.
Advantages of no-code AI include:
These platforms make AI accessible to teams with strong problem-solving skills but limited technical backgrounds, fostering a culture of innovation and accelerating AI adoption.
Generative AI, when approached through no-code solutions and a focus on orchestration, simplifies the deployment process and opens doors for broader adoption. By leveraging pre-trained models, companies can make AI a tool accessible to more stakeholders, empowering individuals without extensive technical expertise to contribute to AI-driven initiatives.
No-code AI and orchestration represent a transformative shift in AI implementation, enabling companies to lower barriers, reduce costs, and achieve faster time-to-value. This approach allows organisations to focus on impactful business outcomes rather than complex technical undertakings, positioning AI as a driver for innovation accessible to everyone across the enterprise.
In this new era, embracing no-code AI is not just a choice but a strategic advantage. By enabling diverse teams to participate in AI projects, companies can foster more inclusive innovation, enhancing their competitive edge in a rapidly evolving digital landscape. To find out more, contact Velocity today.
Note: this article was inspired by Dr. Marcel Müller's No-Code Generative AI: How Companies Can Build Without Data Scientists
No-code AI platforms allow users to build and implement AI solutions without extensive coding skills, making AI accessible to a wider range of professionals.
Using pre-trained models and no-code platforms, companies can create AI-driven applications without needing to build models from scratch.
Conventional AI projects typically involve data scientists, machine learning engineers, and application developers, each handling specialised tasks.
Pre-trained models lower entry barriers by providing ready-to-use capabilities, reducing time-to-market and costs while maintaining high functionality.
AI orchestration integrates data sources, models, and workflows into a cohesive solution, allowing efficient implementation without complex technical work.
No-code AI reduces the need for data science expertise for many applications, though some specialised tasks may still benefit from data scientists.
No-code AI lowers costs, enables rapid deployment, and empowers non-technical staff to contribute to AI initiatives, fostering greater innovation.
Generative AI can automate processes, provide customer insights, and improve personalisation, driving efficiency and improving customer experiences.
Yes, prompt engineering ensures effective AI responses and outcomes, allowing companies to tailor model outputs to specific business needs.
Key skills include process-driven thinking, prompt engineering, and familiarity with data sources and API integration for smooth application deployment.