The Practical DeveloperModify

2026-01-10 16:03:00

Introduction

In Part 1, we successfully finished building the EKS Control Plane, we set up the VPC, Subnets, NAT Gateway, the Kubernetes API Server, and configured kubectl connectivity.

• VPC, Subnets, NAT
• Kubernetes API Server
• An IAM role with enough permissions for the Control Plane
• kubectl already connected to the cluster

But if you run:

kubectl get nodes

you’ll see… nothing.

That’s the real state of the cluster we created: it has a brain (Control Plane), but no hands and feet (Worker Nodes). Without compute capacity, the Kubernetes Scheduler can only stare at Pods stuck in the Pending state.

In this Part 2, we’ll “grow limbs” for your EKS cluster by deploying Worker Nodes using AWS Managed Nodes - the most practical middle ground between production readiness and operational effort.

This post won’t stop at “click and it works.” We’ll also explore what AWS quietly builds for you in a Managed Node Group, and contrast it with the Self-managed way so you understand the fundamentals and can debug with confidence.

📝A Quick Primer on Worker Nodes

What is a Worker Node, really?

In the most accurate - and simplest - definition:

A Worker Node is an EC2 instance configured to run Kubernetes workloads (Pods).

At minimum, every worker node runs:

• kubelet — the agent that talks to the Kubernetes API Server
• a container runtime — typically containerd
• kube-proxy — manages service/network rules
• AWS VPC CNI — the plugin that allocates Pod IPs from your VPC

Following production best practices, EKS worker nodes usually live inside private subnets without public IPs. That significantly reduces exposure: workloads are not directly reachable from the Internet, and outbound connectivity is handled through a NAT Gateway.

Worker Node Deployment Models

AWS offers three main ways to run compute for EKS, each with a different balance of control, operational cost, and “serverless-ness”:

Fargate hides almost everything—including the “node layer.” That’s convenient, but if your goal is to understand EKS fundamentals, the interesting engineering happens in Managed Nodes vs Self-managed Nodes.

What AWS does for you in a Managed Node Group

When you click Create Node Group, AWS typically handles a long checklist that Self-managed nodes would require you to build manually:

1. Creates an Auto Scaling Group
2. Picks an EKS-Optimized AMI compatible with your cluster version
3. Creates/manages a Launch Template (or uses one you provide)
4. Attaches an IAM Instance Profile using your Node IAM Role
5. Injects the bootstrap configuration so nodes can join the cluster
6. Automates the node registration path
7. Provides a rolling update workflow for node group upgrades
8. Typically handles node role mapping into the cluster auth mechanism

Recommendation: Use Managed Nodes for most production setups to reduce operational overhead. Choose Self-managed only when you have very specific requirements (custom OS hardening, special bootstrap, deep control of the node lifecycle).

Cluster IAM Role vs Node IAM Role

This is one of the most common points of confusion, so let’s make it crystal clear.

Cluster IAM Role

• Used by the EKS Control Plane
• Allows the Control Plane to manage ENIs and interact with your VPC resources

This role is not meant for workloads.

Node IAM Role

Worker nodes need a Node IAM Role to:

• Join the cluster
• Allow the VPC CNI to attach ENIs and allocate Pod IPs
• Pull images from ECR
• Access other required AWS APIs (later: secrets, parameters, logs, etc.)

Your worker nodes won’t become Ready without (at least) these managed policies:

AWS IAM & Kubernetes Authentication

Access to an EKS cluster is a combination of two layers: AWS IAM & Kubernetes RBAC.

IAM = Authentication

IAM answers: “Who are you?”

When a principal (an EC2 node or a human user) calls the Kubernetes API Server, EKS uses IAM authentication to verify:

• Which IAM principal (Role/User) the request comes from
• Whether the request has a valid SigV4 signature

✅ This is why worker nodes must have a proper Node IAM Role attached.

Kubernetes RBAC = Authorization

RBAC answers: “What are you allowed to do?”

Even if IAM authentication succeeds, the API call can still fail with Forbidden if RBAC doesn’t grant the required permissions.

Bridging the two worlds: mapping IAM → Kubernetes identity

After IAM authentication, EKS maps IAM identity into Kubernetes users/groups so RBAC can evaluate permissions. Two common mechanisms exist:

• aws-auth ConfigMap (classic, still widely used), example:
  

  mapRoles: |
    - rolearn: arn:aws:iam::<account-id>:role/EKSNodeRole
      username: system:node:{{EC2PrivateDNSName}}
      groups:
        - system:bootstrappers
        - system:nodes
  

• EKS Access Entries / Access Policies (newer Console-based approach)

For this article:

• Nodes must be mapped into groups like system:bootstrappers and system:nodes
• Humans/admins are commonly mapped to system:masters or granted an equivalent Access Policy

Hands-on Time

The AWS architecture after completing the steps below:

Step 0 — Preparation

Make sure all resources from Part 1 are created correctly and your cluster is ACTIVE.

Step 1 — Create the IAM Role for Worker Nodes

Open the AWS Console:

→ Go to IAM

→ Choose Roles → Create role

→ Configure Trusted entity:

• Trusted entity type: AWS service
• Service or use case: EC2

• Use case: EC2

  

→ Click Next

→ Attach policies:

• AmazonEKSWorkerNodePolicy
• AmazonEKS_CNI_Policy
• AmazonEC2ContainerRegistryReadOnly

→ Role name: EKSNodeRole

→ Click Create role

Step 2 — Create a Managed Node Group

→ Open the EKS service

→ Select cluster demo-eks-cluster

→ Go to Compute → Add node group

Configure node group

• Name: eks-mng-general

• Node IAM role: EKSNodeRole

  

→ Click Next.

Configure compute & scaling

• AMI type: EKS optimized (Amazon Linux / Bottlerocket)
• Capacity type: On-Demand
• Instance type: t3.medium
• Disk size: 20 GiB
• Scaling:
  • Desired: 2
  • Min: 1
  • Max: 3

→ Keep other settings as default.

→ Click Next.

Configure networking

Select only the two private subnets.

This is critical: subnet selection here determines where your worker nodes live. Private subnets are ideal for production worker nodes because they don’t expose instances to the Internet.

→ Click Next → Create.

Wait until the node group status becomes Active.

Step 3 - Join the Cluster - AWS handles it

You don’t need to manually configure bootstrap steps for a Managed Node Group - but understanding the join flow is what makes you effective at troubleshooting.

3.1 Node join flow

When you create a Managed Node Group, AWS launches EC2 worker nodes. Each instance gets an Instance Profile containing your Node IAM Role (EKSNodeRole). The join flow looks like this:

1. The EC2 instance boots using an EKS-Optimized AMI
2. Bootstrap config provides kubelet with:
   • cluster name
   • API endpoint
   • cluster CA certificate
3. kubelet calls the Kubernetes API Server to register the node
4. EKS performs IAM authentication and identifies the IAM Role from the instance profile
5. EKS maps IAM identity → Kubernetes identity via aws-auth / Access Entries
6. If mapping is valid (node is in system:nodes), the node becomes Ready

In short: nodes don’t “join by Kubernetes magic.” They join because:

IAM authentication proves identity + Kubernetes group mapping allows the node role to function.

3.2 What Managed Node Group eliminates compared to Self-managed

With Self-managed nodes, you must build the join path yourself:

• Create Launch Template (AMI, instance profile, user data)
• Ensure bootstrap via /etc/eks/bootstrap.sh <cluster-name>
• Create ASG and subnet placement
• Manually update aws-auth to map the node role into:
  • system:bootstrappers
  • system:nodes

Managed Node Groups remove most of this plumbing.

Step 4 — Verify

This is the moment your EKS cluster finally starts to feel alive.

4.1 Verify with kubectl

→ Open a terminal and run:

kubectl get nodes -o wide

→ Then check system pods:

kubectl get pods -n kube-system

Expected results:

• You should see two nodes (based on desired size), in Ready state
• coredns, metrics-server, and kube-proxy should transition to Running

4.2 What AWS resources were created behind the scenes?

Now let’s satisfy curiosity and confirm what AWS created inside your account.

(1) Auto Scaling Group

→ Open EKS Service

→ Select EKS cluster demo-eks-cluster

→ Click Compute tab

→ Select node group eks-mng-general

→ In Details, click the Auto Scaling Group

Inside the ASG page, you’ll find:

• Desired / Min / Max configuration
• EC2 instances in InService
• Launch Template reference
• Security Groups

(2) Launch Template

From the ASG page:

→ Click the Launch template link.

You’ll see:

• AMI ID
• Instance type
• Security groups attached
• User data/bootstrap wiring (partly hidden, but it’s there)

(3) Security Group for worker nodes

From the ASG details page

→ Click the Security group IDs.

Review inbound/outbound rules applied to worker nodes.

Common Pitfalls

1) Node group is Active, but kubectl get nodes shows nothing

Likely causes:

• The node group is using the wrong IAM role (not EKSNodeRole)
• Node IAM role is missing required policies
• Wrong subnet selection or private subnet route tables are incorrect

2) Instances keep launching and terminating in the ASG

Likely causes:

• Instance type capacity shortage → try a more common type (t3.large, m5.large, etc.)
• Subnet/AZ constraints → expand to more AZs/subnets
• EC2 quota limits → request quota increase

3) Pods stuck in Pending

Likely causes:

• Insufficient node resources (CPU/memory) → choose a larger instance type
• Taints/labels preventing scheduling → remove taints or adjust selectors

4) ImagePullBackOff / ErrImagePull

Likely causes:

• Private subnets have no NAT gateway, or routes are wrong
• DNS resolution is broken → check VPC settings (DNS resolution and DNS hostnames)

Summary

In Part 2, we:

• Added production-style worker nodes (private subnets) so workloads finally have somewhere to run
• Clearly separated Cluster Role vs Node Role
• Covered the IAM → Kubernetes authentication story
• Explored what a Managed Node Group creates behind the scenes

Next, in Part 3, we’ll go deeper into EKS networking: VPC CNI, ENIs, Pod IP allocation, and traffic flow debugging.

2026-01-10 15:59:32

Keeping documentation up to date is one thing! helping your team or partners quickly digest changes is another. At my company, we use Retype for our docs, and we wanted a way to make them instantly AI-ready for summarization, search, or internal tooling.

Enter retype_llms: a lightweight GitHub Action and Python tool that generates a llms.txt file directly from your Markdown docs. Instead of manually exporting files or worrying about URLs and images, this tool handles it automatically.

Why llms.txt?

If you’ve ever tried feeding docs to AI tools or building search indexes, you know the challenge: multiple Markdown files, relative images, front-matter headers, and custom routes can all break the context.

retype_llms solves this by:

• Consolidating all your Markdown into a single, structured file
• Removing YAML front-matter that confuses AI
• Adding clear section markers with file paths and URLs
• Resolving relative image paths to absolute URLs if needed
• Preserving your Retype routing logic for accurate links

This means your AI tools, or even scripts that analyze your docs, get clean, structured, ready-to-use content.

How it Fits in Your Workflow

Whether you prefer Python scripts or GitHub Actions, retype_llms fits seamlessly:

• Python script: Run locally or in CI to generate llms.txt on demand.
• GitHub Action: Automatically generate llms.txt on every push, optionally before Retype builds your site. The file lands in your static/ folder, ready to use.

Example: Using with Retype Build Action

You can integrate retype_llms directly before your Retype build to make sure llms.txt is always up to date:

name: Build Retype Documentation
on:
  push:
    branches: [main]
  workflow_dispatch:

jobs:
  build:
    runs-on: ubuntu-latest
    steps:
      - uses: actions/checkout@v4

      - name: Generate llms.txt
        uses: zakaria-chahboun/[email protected]

      - name: Build Retype
        uses: retypeapp/action-build@latest

      - name: Deploy to GitHub Pages
        uses: retypeapp/action-github-pages@latest
        with:
          update-branch: true

It’s designed to require zero changes to your existing Retype setup 😎 just add it to your workflow, and it works.

Behind the Scenes

The tool respects Retype’s logic:

• Input detection: Automatically finds the Markdown source folder from retype.yml
• Routing: Generates URLs that match Retype’s permalink, route, and index file rules
• Slugification: Matches Retype’s lowercase-hyphen URL style
• Statistics: Reports number of files, word count, and estimated tokens ✨ handy for AI integration

All of this ensures the llms.txt output mirrors your documentation structure accurately, without any manual cleanup.

Why You’ll Love It

• Fully automated: no copying or exporting files
• Keeps links and images intact for AI or scripts
• Works with GitHub Pages and existing Retype builds
• Lightweight and easy to set up

Check it out here and give it a spin: 👉 https://github.com/zakaria-chahboun/retype_llms

This small addition can save hours of manual work and make your docs AI-ready in minutes.

Happy documenting! 🚀

2026-01-10 15:58:57

...like the Cloud Practitioner Exam opened our eyes to the potential of the cloud, the AWS Certified AI Practitioner (AIF-C01) is designed to provide that same foundational common language for the world of Artificial Intelligence.

Whether you’re an Executive, Developer, Engineer, or Project Manager, having a baseline understanding of AI principles is no longer a nice to have, it’s absolutely essential.

📘 What the AWS Certified AI Practitioner Exam Covers

According to AWS, the AWS Certified AI Practitioner (AIF-C01) is intended for individuals who can effectively demonstrate an overall knowledge of AI/ML, Generative AI Technologies, and associated AWS services, independent of a specific technical job role.

It isn't about proving you can build complex neural networks from scratch. Instead, it validates your ability to:

• Understand Concepts: Grasp AI, ML, and generative AI methods both generally and specifically on AWS.
• Ask the Right Questions: Determine the appropriate use of AI/ML technologies within your organization.
• Apply the Right Tools: Identify which AI/ML technologies fit specific business use cases.
• Operate Responsibly: Use AI technologies ethically and within security guidelines.

🎯 Who is the target candidate?

The ideal candidate has up to 6 months of exposure to AI/ML on AWS. Importantly, you are expected to be a user of AI solutions, not necessarily a builder of models.

🚫 What is out of scope?

To keep this accessible, the following tasks are not required for this exam:

• Developing or coding AI/ML models/algorithms.
• Performing hyperparameter tuning or model optimization.
• Building and deploying full ML pipelines.
• Conducting deep mathematical or statistical analysis.

🧭 Exam Domains and Weighting

The exam is divided into five main content domains. While Generative AI is the "star of the show," the exam ensures you have a grounded understanding of traditional ML and security as well.

💡 Why This Certification Matters

What makes the AI Practitioner certification special is its accessibility. It provides a structured understanding of the AI ecosystem that is relevant to virtually everyone in tech today.

• Executives gain the literacy needed to lead digital transformation strategies.
• Product Managers can better define requirements for AI-powered features.
• Security Professionals learn how to govern and protect AI-driven data.
• Newcomers find an approachable, confidence-building start to their AI journey.

In many ways, this exam provides AI Literacy: the ability to fluently discuss, plan, and collaborate in an AI-first environment.

🧩 The Exam Format

The exam consists of 65 questions (50 scored, 15 unscored) to be completed in a single sitting.

• Question Types: Multiple choice, multiple response, ordering, matching, and case studies.
• Scoring: A scaled score of 100–1,000.
• Passing Score: 700.
• Strategy: There is no penalty for guessing, so never leave a question blank!

🧭 Looking Ahead

In the coming weeks, I’ll be breaking down each of the five domains and their associated task statements. We will dive into everything from the difference between Discriminative and Generative AI to how Amazon Bedrock is changing the way we consume Foundation Models.

Whether you’re a seasoned Cloud Veteran or just starting out, building a foundation in AI is the single best investment you can make in your career today.

🚀 Let’s Get Certified

The AWS Certified AI Practitioner exam isn’t just about adding a badge to your LinkedIn profile, it’s about building fluency in the technology that is defining our era.

So, let's take the plunge. Learn the basics. Refresh the fundamentals. Build the foundation that unlocks the future.

Let’s get certified!

Additional Resources

AWS Certified AI Practitioner (AIF-C01) Exam Guide

Prerequisite Resources

Cloud Practitioner Exam Guide

2026-01-10 15:54:00

Technology truly shines when it solves a real problem, no matter how small. A few days ago, I found myself in a situation many parents will recognize: helping my oldest son review a science lesson. The added difficulty was that the subject is bilingual, so he not only had to memorize terms like "joints" or "spinal column" but also their English translation and phonetics.

Our initial method was the classic one: the ancient art of "covering the answer with your hand" to guess. It was functional, but monotonous, unmotivating, and not very effective. As we struggled to stay focused, an idea struck me: what if instead of fighting distraction, we combat it with a better tool? Could I, with the help of AI, create a small, custom study application in a matter of minutes?

This post is the result of that experiment—the creation of a custom study app with flashcards. Let's look at the initial specifications, the creation process, and, most importantly, the final result ready for use.

Beyond Anki and Quizlet: The Search for Custom Simplicity

Incredibly powerful study tools like Quizlet, AnkiApp, or ProProfs already exist. They are fantastic and offer a multitude of possibilities. However, they often come with a learning curve or a number of options that can be overwhelming for an immediate and specific need.

Primarily, I didn't need a social ecosystem for the required concepts, nor multiple spaced repetition methods. The priority was to have a quick solution with very specific requirements:

1. Flexible data entry: The ability to create lists of terms manually, but also the option to generate translations or definitions automatically.
2. Simple gamification: Adding a game-like element with points and images to keep a child engaged.
3. Bilingual focus: Making it easy to review terms in multiple languages.
4. No distractions: A clean, straightforward interface.

With these goals in mind, and relying on the same "AI copilot" techniques I've explored in other posts, the "Flashcards de Estudio" app was born.

The Solution: Introducing the "Flashcards de Estudio" App

The application is designed to be minimalist yet powerful, offering three ways to start studying in seconds:

1. Manual Mode: Total Control

This is the most direct method. It allows you to add "Term" and "Definition" rows one by one. It's perfect for short review lists or when you already have the material prepared and just want to quickly digitize it to start studying.

2. Automatic Mode (AI): The Magic Touch

This is where the magic of AI comes into play. In this mode, you just need to type a term, and the AI automatically generates the definition or translation in the language you choose. For my son's science lesson, I simply entered the list of words in Spanish, and the AI instantly completed their English translation and an approximation of their phonetics. It's a spectacular time-saver. To use it, you need to generate a free Key at Google AI Studio and enter it in the "Your Gemini API Key" field to use the Gemini AI engine for content generation.

The application supports translations and definition generation in several languages:

3. Import from File: For Power Users

For longer lists (vocabulary for an entire topic, lists of capitals, etc.), the application allows you to upload a text (.txt) or CSV (.csv) file with the terms and definitions. You simply prepare your list in a file, upload it, and the application generates the cards instantly. This feature is ideal for those who want to prepare material for their children or for students who need to digitize entire subjects.

Flashcards Template

How It Works: Easy and Fun

Once the terms and the mode of operation have been selected, it's simply a matter of starting to study. During the session, cards will be displayed for the user to practice the translations or terms before flipping them and indicating whether they got it right or wrong. If correct, the application will add 2 points and a congratulatory emoji and message will appear; if wrong, it will not add points and an encouraging message will appear. In these cases, the mistakes are recorded so that at the end of the session, they can be reviewed again until we are sure we have mastered them.

If all answers are successfully correct, an animated celebration gif will be displayed at the end, and from this screen, we can either study all the terms again or return to the home screen to generate new content.

A Living and Community-Open Project

What started as a solution for an afternoon of studying has become a personal project that I plan to continue improving. "Flashcards de Estudio" is a living project. My intention is to gradually add new features, such as different game modes, progress tracking over time, or the ability to share card decks.

I will chronicle these improvements in future blog posts. Also, once the comment feature is active on Datalaria, I will be happy to gather your ideas and suggestions to make this an even better learning tool for everyone.

Conclusion: The Power of Creating Your Own Tools

This small application is a perfect testament to the era we live in. A personal need, which in the past would have remained a simple complaint or a fruitless search for the "perfect app," can now be materialized into a custom solution thanks to AI.

This is the era of custom content creation. We no longer just consume digital tools; we can build, adapt, and improve them with unprecedented agility.

I hope you find this tool useful. I invite you to try the flashcards app, use it in your own study sessions, and, above all, think about that small problem in your daily life that perhaps, with the help of an AI copilot, you could start solving today.

Sources and Resources:

• Try the App: Flashcards Study App
• Source Code: Project Repository on GitHub
• Google AI StudioGoogle AI Studio

2026-01-10 15:52:46

2026-01-10 15:37:47

La tecnología brilla de verdad cuando resuelve un problema real, por pequeño que sea. Hace unos días, me encontré en una situación que muchos padres y madres reconocerán: ayudando a mi hijo mayor a repasar una lección de ciencias. La dificultad añadida era que la asignatura es bilingüe, por lo que no solo debía memorizar términos como "articulaciones" o "columna vertebral", sino también su traducción y fonética en inglés.

Nuestro método inicial fue el clásico: el ancestral arte de "tapar con la mano" para adivinar la respuesta. Era funcional, pero monótono, poco motivador y no muy efectivo. Mientras luchábamos por mantener la concentración, me surgió una idea: ¿y si en lugar de luchar contra la distracción, la combatimos con una herramienta mejor? ¿Podría crear, con la ayuda de la IA, una pequeña aplicación de estudio a medida en cuestión de minutos?

Este post es el resultado de ese experimento, la creación de una aplicación propia de estudio con flashcards (tarjetas de memoria). Vamos a ver las especificaciones de partida, el proceso de creación y, lo más importante, el resultado final listo para su uso.

Más Allá de Anki y Quizlet: La Búsqueda de la Simplicidad a Medida

Existen herramientas de estudio increíblemente potentes como Quizlet, AnkiApp o ProProfs. Son fantásticas, y con muchísimas posibilidades. No obstante, a menudo vienen con una curva de aprendizaje o una cantidad de opciones que, para una necesidad inmediata y concreta, pueden resultar abrumadoras.

Principalmente yo no necesitaba un ecosistema social para los conceptos requeridos ni múltiples métodos espaciados de aprendizaje. La premisa prioritaria era disponer de una solución rápida y con unos requisitos muy específicos:

1. Entrada de datos flexible: Poder crear listas de términos manualmente, pero también la posibilidad de generar traducciones o definiciones de forma automática.
2. Gamificación simple: Añadir un elemento de juego con puntos e imágenes para mantener el interés de un niño.
3. Enfoque bilingüe: Facilitar el repaso de términos en varios idiomas.
4. Sin distracciones: Una interfaz limpia, directa al grano.

Con estos objetivos en mente, y apoyándome en las mismas técnicas de "copilotaje con IA" que he explorado en otros posts, nació la aplicación "Flashcards de Estudio".

La Solución: Presentando la App "Flashcards de Estudio"

La aplicación está diseñada para ser minimalista pero potente, ofreciendo tres formas de empezar a estudiar en segundos:

1. Modo Manual: El Control Total

Es la forma más directa. Permite añadir filas de "Término" y "Definición" una por una. Es perfecto para listas de repaso cortas o para cuando tienes el material ya preparado y solo quieres digitalizarlo rápidamente para empezar a estudiar.

2. Modo Automático (IA): El toque mágico

Aquí es donde la magia de la IA entra en juego. En este modo, solo necesitas escribir un término y la IA se encarga de generar la definición o la traducción automáticamente en el idioma que elijas. Para la lección de ciencias de mi hijo, simplemente introduje la lista de palabras en español y la IA completó al instante su traducción al inglés y una aproximación de su fonética. Es un ahorro de tiempo espectacular. Para poder utilizarlo, es necesario generar una Key gratuita en Google AI Studio e incluirla en el campo de "Tu Clave API de Gemini" para utilizar el motor de IA de Gemini para la generación de contenido.

La aplicación dispone de traducciones y generación de definiciones en varios idiomas:

3. Importación desde Fichero: Para los Power Users

Para listas más largas (vocabularios de un tema completo, listas de capitales, etc.), la aplicación permite subir un fichero de texto (.txt) o CSV (.csv) con los términos y definiciones. Simplemente preparas tu lista en un fichero, la subes y la aplicación genera las tarjetas al instante. Esta función es ideal para aquellos que quieran preparar material para sus hijos o para estudiantes que necesiten digitalizar temas enteros.

Plantilla de importación

Funcionamiento: Fácil y entretenido

Una vez seleccionados los términos y el modo de funcionamiento, simplemente se trata de empezar a estudiar y durante su ejecución se irán mostrando tarjetas para que el usuario practique dichas traducciones o términos antes de voltearlas e indicar si ha acertado o fallado. Si acierta, la aplicación sumará 2 puntos y aparecerá un emoticono y un mensaje de felicitación, si falla, no sumará puntos yaparecerá un mensaje de ánimo. En estos casos, los fallos son registrados para que una vez finalizada la ejecución se puedan volver a repasar nuevamente hasta asegurarnos que ya los dominamos.

Si todas las respuestas son acertadas con éxito, al finalizar se mostrará un gif animado de celebración y desde esta pantalla podemos volver a estudiar todos los términos de nuevo o volver a la pantalla de inicio para generar nuevos contenidos.

Un Proyecto Vivo y Abierto a la Comunidad

Lo que empezó como una solución para una tarde de estudio se ha convertido en un proyecto personal que quiero seguir mejorando próximamente. "Flashcards de Estudio" es un proyecto vivo. Mi intención es ir añadiendo nuevas funcionalidades poco a poco, como diferentes modos de juego, seguimiento del progreso a lo largo del tiempo o la capacidad de compartir listas de tarjetas.

Relataré estas mejoras en futuras entradas del blog. Además, una vez que la función de comentarios de Datalaria esté activa, estaré encantado de recoger vuestras ideas y sugerencias para hacer de esta una herramienta de aprendizaje aún mejor para todos.

Conclusión: El Poder de Crear tus Propias Herramientas

Esta pequeña aplicación es el testimonio perfecto de la era en la que vivimos. Una necesidad personal, que antes se habría quedado en una simple queja o en una búsqueda infructuosa de la "app perfecta", puede hoy materializarse en una solución a medida gracias a la IA.

Es la era de la creación de contenidos a medida. Ya no solo consumimos herramientas digitales, sino que podemos construirlas, adaptarlas y mejorarlas con una agilidad sin precedentes.

Espero que esta herramienta os sea de utilidad. Os invito a probarla app de flashcards, a usarla en vuestras propias sesiones de estudio y, sobre todo, a pensar en ese pequeño problema de vuestro día a día que quizás, con la ayuda de un copiloto de IA, podríais empezar a resolver hoy mismo.

Fuentes y Recursos:

• Prueba la App: Aplicación de Estudio - Flashcards
• Código Fuente: Repositorio del Proyecto en GitHub
• Google AI StudioGoogle AI Studio