Flux Blog

News, resources, and company updates

Less Clicking, More Building: The New AI-First UI

This update brings more than just polish—it’s the foundation for a faster, more fluid design experience, built around the way Copilot is used today and the way we see it evolving tomorrow.

|
July 10, 2025
Thank you! Your submission has been received!
Oops! Something went wrong while submitting the form.
Top 5 CES 2025 Hardware Projects You Can Build With Flux

Top 5 CES 2025 Hardware Projects You Can Build With Flux

This blog highlights CES 2025 showcased projects, offering insights on how to recreate them using Flux. With Flux AI-driven design tools, component library, and customizable templates, engineers and hobbyists can build inspired hardware like wearables, drones, EV components, portable chargers, and solar devices.

We believe that these exciting new technologies shouldn’t remain the domain of big companies alone. We’re empowering engineers, students, and hobbyists alike to take inspiration from the best in the industry and create their own hardware breakthroughs. Below, we’ve rounded up five of the most buzzworthy projects from CES 2025, along with tips on how you can use Flux to build your own inspired versions.

Halliday AI Glasses

Halliday, a newcomer in the wearable tech scene, unveiled its AI Glasses at CES 2025 . These smart glasses are designed to be lightweight and comfortable for everyday use. They feature a unique "DigiWindow" display that projects information directly into the user's field of vision. This display can be moved horizontally across the frame and twisted to bring the screen into focus, ensuring optimal viewing for different users . The glasses also include a proactive AI assistant that anticipates user needs by analyzing conversations, answering questions, and providing additional details without prompting.

Halliday AI Glasses, a smart glasses designed to be lightweight and comfortable for everyday use.

Build your own AI-powered wearables with Flux

Flux offers a rich component library, including microcontrollers, sensors, and displays, allowing you to jump right into creating AI wearables. Use our AI-driven design tools to plan and design your circuit boards, then check out projects like the Biskuit AI pendant or a wearable AI camera, which features microphones, a camera, and wireless connectivity for running AI models. You can also streamline manufacturing by starting with one of our JLCPCB, PCBWay, or SEEED Studio design templates.

Alux Portable Coding Drone

A standout at CES 2025, Alux merges STEM education with eSports through a portable drone and a gamified coding platform. Not only does this drone teach programming in Scratch, Entry, and Python, but it also introduces an “arena” concept for drone-based eSports—allowing competitions and immersive gameplay wherever you go. It’s an ideal solution for tech-savvy students and recreational users eager to learn coding while having fun.

A standout at CES 2025, Alux merges STEM education with eSports through a portable drone and a gamified coding platform. Not only does this drone teach programming in Scratch, Entry, and Python, but it also introduces an “arena” concept for drone-based eSports.

Build your own drone with Flux

Just like Alux’s portable coding drone teaches programming through Scratch, Entry, or Python, you can take your drone education to the next level by designing and building a custom drone on Flux. It’s a hands-on way to deepen both your software and hardware skills.

Clone an existing project like this quadcopter template or our STM32F4 Flight Controller Template to get a proven setup. Customize your flight controller, add sensors, and integrate AI capabilities using Flux’s schematic editor and AI-driven layout tools.

Honda Zero

Honda Zero is the iconic automaker’s latest entry into sustainable personal mobility. Unveiled at CES 2025, this sleek electric SUV combines cutting-edge battery technology, advanced AI-based diagnostics, and a modular design that allows riders to swap out hardware components and upgrade them with minimal hassle. By focusing on zero emissions and high efficiency, Honda is positioning the Zero as a next-generation commuter vehicle for eco-conscious riders everywhere.

Honda Zero is the iconic automaker’s latest entry into sustainable personal mobility. Unveiled at CES 2025, this sleek electric SUV combines cutting-edge battery technology, advanced AI-based diagnostics, and a modular design that allows riders to swap out hardware components and upgrade them with minimal hassle.

Build your own EV-related project with Flux

If Honda Zero’s modular and eco-friendly approach has you inspired, check out our resources for creating your own electric ride:

  • Tesla Roadster Vehicle Display System – Use this project as a reference to design custom dashboards, integrating speed, battery, and navigation data into a sleek interface.
  • Electronic Speed controller – Ideal for e-bikes, scooters, or small EVs, this controller provides the fundamentals of efficient motor control and can be adapted to meet your performance needs.

Belkin Stage PowerGrip

Belkin, known for its reliable chargers and accessories, unveiled the Stage PowerGrip at CES 2025—a versatile portable charger with a built-in handle that doubles as a phone or camera grip. Equipped with multiple USB-C and USB-A ports, the PowerGrip can charge several devices simultaneously. Its ergonomic design, combined with fast charging capabilities, makes it a convenient all-in-one power solution for travelers, content creators, and everyday users alike.

Belkin Stage PowerGrip at CES 2025—a versatile portable charger with a built-in handle that doubles as a phone or camera grip. Equipped with multiple USB-C and USB-A ports, the PowerGrip can charge several devices simultaneously.

Build your own portable power solution with Flux

Inspired by the Belkin Stage PowerGrip? Flux has you covered with resources to design and customize your own portable battery packs:

  • Powerbank – A fully functional powerbank circuit board design you can clone and modify. Personalize the number of ports, battery capacity, and safety features to meet your specific needs.
  • Battery Charger Reference Design – Great for refining your charging circuitry. Ensure optimal battery health, manage heat dissipation, and balance current flow across multiple cells.

Jackery Solar Roof

Jackery, a renewable energy company, unveiled its solar-powered roof tiles at CES 2025 . These innovative tiles are designed to be durable, weather-resistant, and visually appealing, offering a sustainable energy solution for homes.

Jackery, a renewable energy company, unveiled its solar-powered roof tiles at CES 2025.

Build your own solar-powered device with Flux

Jackery’s solar roof tiles are a fantastic look at the future of residential energy solutions, but you don’t need an entire roof to start building a solar project of your own. Flux provides a robust platform for designing and prototyping everything from small-scale off-grid systems to more complex solar infrastructure.

  • MPPT Solar Charge controller – Maximize the efficiency of your solar panels with a maximum power point tracking (MPPT) design. This project helps you capture the highest possible energy yield by continuously adjusting the load conditions on your solar array.
  • Solar power management board – Take your setup to the next level with this all-in-one PCB solution that handles battery charging, power distribution, and real-time performance monitoring.

Conclusion

CES 2025 was a showcase of incredible hardware innovation, with AI, sustainability, and wearable technology taking center stage. From Halliday’s AI Glasses reimagining wearable computing to Honda’s EV demonstrated the potential of eco-friendly personal transport, the future of hardware is here.

Flux empowers you to be a part of this exciting evolution. Our platform provides the tools and resources you need to explore and contribute to these emerging technologies. Start forking templates, designing custom PCBs, and integrating cutting-edge components to bring your own hardware visions to life.

Explore Flux's featured projects, component libraries, and AI design tools to start building the future of hardware today!

|
January 16, 2025
New NextPCB Templates For More Streamlined Manufacturing

New NextPCB Templates For More Streamlined Manufacturing

Streamline PCB development with NextPCB templates in Flux, featuring pre-set constraints, AI-assisted layouts, and seamless manufacturing transitions.

The latest addition to this library comes from our collaboration with NextPCB. Their new manufacturing-ready templates provide pre-configured fabrication parameters, reducing guesswork and ensuring a smoother transition to production.

Why Use a Manufacturing-Ready Template?

Starting from a blank PCB layout means manually setting up constraints, verifying design rules, and ensuring compatibility with fabrication processes. NextPCB templates in Flux handle these steps upfront, allowing you to focus on circuit design rather than manufacturability concerns.

Key Benefits:

  • Pre-Defined Manufacturing Constraints – Templates include preset trace widths, via sizes, and clearances aligned with NextPCB’s capabilities.
  • Reduced Design Errors – Built-in constraints minimize potential manufacturing issues.
  • Faster Prototyping – Your designs are ready for production without additional rework.

Available NextPCB Templates

We’ve worked with NextPCB to create a range of templates suitable for different PCB complexities and applications:

  • NextPCB 1-6 Layer BASIC Constraints – Optimized for cost-effective designs that meet NextPCB’s special pricing requirements (PCB dimensions: 30 x 30 to 100 x 100mm).
  • NextPCB 1-4 Layer Standard Constraints – Designed for general-purpose boards to minimize unnecessary costs and complexity.
  • NextPCB 1-4 Layer Complex Constraints – Supports advanced manufacturing features; suitable for more intricate designs.
  • NextPCB 6+ Layer Standard Constraints – Geared towards multi-layer boards where standard design constraints are sufficient.
  • NextPCB 6+ Layer Complex Constraints – Designed for advanced multi-layer designs that require specialized manufacturing capabilities.

{{nextpcb-templates}}

Example Project: IoT Sensor Board Using NextPCB Templates

To demonstrate how these templates streamline the design process, we developed a compact IoT-enabled sensor board using one of the NextPCB templates in Flux. This design also takes advantage of NextPCB’s latest Accelerator campaign, which subsidizes users who incorporate the RP2350 microcontroller.

Advantages of Using the Template:

  • Correct Design Rules from the Start – No need for manual input of manufacturing constraints.
  • Optimized Auto-Layout – AI-assisted routing helped achieve a clean, manufacturable layout.
  • Seamless Gerber Export – The design was ready for NextPCB fabrication without additional modifications.

This example highlights how pre-configured templates simplify PCB development, allowing you to iterate and prototype more efficiently.

AI-Powered Design with Flux Copilot & Auto-Layout

Once you’ve selected a template, Flux Copilot and Auto-Layout streamline the design process, allowing you to focus on functionality rather than manual layout work.

  • Component Recommendation – Suggests optimal components and connections based on best practices.
  • AI-Driven Design Suggestions –Copilot provides intelligent recommendations for component selection, based on project requirements and schematics.
  • Optimized Auto-Layout – AI-assisted routing organizes traces efficiently, saving you time and effort.

Exporting and Ordering with NextPCB

Once your design is finalized, NextPCB templates make the transition to manufacturing straightforward. With a single click, you can export your Gerber files, ensuring they align with NextPCB’s fabrication requirements. This eliminates compatibility issues and speeds up the production process.

How to Order PCB & PCBA from NextPCB

NextPCB has recently upgraded its PCB Assembly Quote System, allowing for instant, automated cost estimation. This removes the need for manual review, significantly accelerating the quoting and ordering process.

How to Order PCB & PCBA from NextPCB.

Steps to Order:

  1. Export Gerbers, BOM, and Pick and Place Files from Flux – Before placing your order, export the necessary manufacturing files from Flux. Refer to Flux's documentation for a step-by-step guide on exporting Gerbers, BOM, and Pick and Place files.
  2. Create or Access Your NextPCB Account – Sign up or log in to your NextPCB account.
  3. Navigate to the PCB Quote Page – Proceed to the PCBA quote page.
  4. Upload Your Gerber File – Click on the "Gerber Viewer" button to upload your file.
  5. Specify PCB Quantity – Enter the number of PCBs needed.
  6. Provide Assembly Instructions – Include assembly drawings, pick and place files, and other necessary details.
  7. Upload Your BOM File – Submit your Bill of Materials (BOM) for component sourcing.
  8. Proceed to the Cart – Add your order to the cart and review details.
  9. Review and Confirm Order – Ensure all order details are correct before proceeding.
  10. Select Payment Method & Complete Payment – Choose a payment method and finalize your order.

For more details, visit NextPCB’s official ordering guide.

Get Started with NextPCB Templates in Flux

Leveraging pre-configured templates optimizes your PCB design workflow by integrating manufacturing constraints from the outset. You can iterate faster, reduce potential errors, and ensure manufacturability without additional design rule verification.

Flux already offers a wide range of templates from leading manufacturers and community contributors. If there's a specific template you'd love to see added, let us know! We’re always looking to expand our library with designs that help you build faster and smarter.

{{nextpcb-templates}}

|
February 20, 2025
Top 20+ Flux Copilot Prompts for Hardware Design

Top 20+ Flux Copilot Prompts for Hardware Design

Explore more than 20 new Flux Copilot prompts for hardware design. Accelerate brainstorming, component selection, validation and design review to streamline your PCB design.

A lot has happened since then. Thanks to your feedback, we’ve been able to improve Copilot and add even more capabilities. Now you can use Copilot for brainstorming, selecting components, performing calculations, researching and selecting parts, managing BoM, and even validating designs.

We realize that writing a good prompt can be tricky, so we’ve refreshed our list of popular prompts so you can copy and paste, or modify for your own use!

What is a Copilot prompt?

First, let’s define what a prompt is. Copilot prompts are natural language inputs given to a custom-trained large language model (LLM) specifically designed to understand hardware, electronics circuit, PCB design and layout.

For example, if the prompt is "Calculate the load capacitors for Y1", the model will generate an answer in a human-like manner based on the prompt. Remember, Copilot has the context on what you’re working on. Copilot can see your:

  1. Bill of Materials (BOM)
  2. Netlist (Schematic connections)
  3. Datasheets of parts used in the project
  4. Project title and description
  5. Any properties added to the project as requirements like power limitations or RoHS compliance

Because Copilot lives inside the PCB design tool, it provides direct feedback, advice, and analysis, and with your approval - it can take action, through a simple chat interface. With just a press of a button, Copilot can connect components together.

Most popular Copilot use cases and prompts

Spread the word and share your favorite prompts on our Slack Community.

|
August 29, 2024
40+ Hardware Projects You Can Build Over the Holidays

40+ Hardware Projects You Can Build Over the Holidays

This holiday season is a great time to try something new and unleash your creativity with open-source hardware projects.

From IoT and smart home devices to motor controllers and drones, there’s something for everyone. Plus, working on open-source projects lets you collaborate with a global community of creators, share ideas, and even customize designs to make them your own.

Whether you’re a seasoned maker or just starting out, these 40+ open-source hardware projects are sure to inspire and challenge you.

Simply open any project and fork it to get an instant head start on your custom design.

{{holiday-projects-iot="/p/holiday-projects-library"}}

{{holiday-projects-motors="/p/holiday-projects-library"}}

{{holiday-projects-drones="/p/holiday-projects-library"}}

{{holiday-projects-smart-home="/p/holiday-projects-library"}}

{{holiday-projects-robotics="/p/holiday-projects-library"}}

{{holiday-projects-audio="/p/holiday-projects-library"}}

Get Creative This Holiday Season

This holiday season is a great time to try something new and unleash your creativity with open-source hardware projects. Try Flux now for free!

|
November 27, 2024
Introducing the AI Design Review Tab

Introducing the AI Design Review Tab

Creating a manufacturable, error-free PCB is never simple. Every engineer knows that missed details lead to production delays, costly revisions, and project setbacks. But what if you could have the power of a seasoned review team guiding you, 24/7?

At Flux, we believe that AI should be more than a tool—it should be a design partner that helps you navigate these challenges and produce better work faster. That’s why we’ve created AI-powered design reviews. It goes beyond traditional ERCs by understanding your project’s context and constraints, helping you catch not only blatant errors but also potential optimizations and nuanced issues. It’s like having an experienced engineer available at all times to review your work and offer guidance.

Why Traditional Reviews Fall Short

Electrical Rule Checks (ERCs) are a standard part of PCB design, flagging rule violations such as unconnected pins or electrical loops. While these checks are necessary, they often lack the depth needed to fully understand the broader context of your design. This can leave critical gaps in your review process and result in missed opportunities for optimization or overlooked issues that only surface later.

For experienced engineers, thorough reviews are time-intensive, so they’re often done less frequently. In a small team or startup, you might not always know what to look for, which can lead to overlooked issues Flux’s AI-powered design reviews change that by transforming a traditionally reactive process into a proactive one.

AI-Powered Reviews Change the Game

What sets Flux AI design reviews apart is its ability to leverage your project’s context and detailed data—such as part datasheets, application notes, and design constraints—to provide deep, actionable insights that mimic a human expert’s guidance. Unlike simple DRCs, which are limited to binary pass/fail results, Copilot’s checks are context-aware and interpretive. This means you’re not just checking if your design meets basic criteria; you’re getting insights into whether it aligns with best practices, meets safety margins, and is optimized for production.

We also understand that user trust in AI-driven engineering tools is paramount. That’s why we developed these checks to blend deterministic algorithms with AI, striking a balance that ensures accuracy, reliability, and confidence.

We’re launching with targeted reviews that cover essential areas and will be expanding them based on user feedback.

Included in the Beta Release: The first of many checks you can expect

  • Resistor Power Rating: Ensures resistors can handle expected loads.
  • Pull-Up/Pull-Down Configuration: Verifies correct logic circuit setups.
  • Capacitor Voltage Margins: Confirms capacitors meet safe voltage requirements.
  • Parts Availability: Flags components that may be hard to source, minimizing procurement risks.
  • Design Review Checks: Overlapping copper, Missing footprints, Air wires, Floating copper

The system always explains why an issue was flagged. This combination of deterministic algorithms and AI ensures that checks are reliable, comprehensive, and adaptable to your specific project.

How to run AI design reviews

Flux’s AI design review panel is designed to be intuitive and flexible:

  1. Open the Review Panel: Access all available design checks from one centralized interface.
  2. Select the Relevant Reviews: Choose checks based on your current design phase.
    For example, if you haven’t laid out your PCB yet, focus on component specifications.
  3. Review the Results: The panel displays results clearly:
    • ❌  for errors, ⚠️ for warnings, and ✅ for pass
    • Click on flagged items for detailed explanations and direct navigation to the affected component on your board.
    • Need more context? Use Copilot to learn about the issue and its impact.
  4. Iterate and Re-check: Make the necessary changes and run the review again to confirm that everything has been resolved.

Example: Capacitor Voltage Rating Checks

Flux Copilot doesn’t just check for pass/fail criteria; it interprets the constraints of your project and cross-references them with your design. This means that beyond simple ERCs, the AI can flag issues that might otherwise go unnoticed.

Imagine you’re working on a PCB and running a passive component check. Copilot flags a warning for capacitor C3, stating, “Ceramic Capacitor C3 has a voltage rating of 16V, which is less than the required 50V” . This isn’t just a binary check—it’s context-aware. It understands your circuit’s requirements and knows that a safe voltage margin should exceed 150% for reliable operation.

In the review panel, you see the flagged issue highlighted on your PCB layout, the voltage margin percentage shown, and an explanation of why it matters. This makes it easy to interpret the results and take corrective action quickly, ensuring your design meets reliability standards.

Your Voice Shapes the Future of AI Reviews

These initial checks are only the start. At Flux, we’re committed to continuously evolving our platform based on your feedback. Have specific checks or features you’d like to see added? Share your suggestions in our feedback portal. Your insights are invaluable in making Flux an even better design partner.

With AI as your partner, design reviews are more thorough and run more frequently, resulting in safer designs. Flux is here to help you focus on what you do best: creating innovative, reliable hardware.

Try AI Design Reviews Now

|
November 7, 2024
EasyEDA vs. Flux

EasyEDA vs. Flux

If you’re using EasyEDA and are thinking of making the switch to Flux, learn how the two platforms differ and why Flux might be the next step in elevating your PCB design experience.

If you’re using EasyEDA and are thinking of making the switch to Flux, here’s how the two platforms differ and why Flux might be the next step in elevating your PCB design experience.

What EasyEDA and Flux Share in Common

Flux and EasyEDA share several benefits that have become essential to hardware designers, particularly being cloud-based. These shared features have revolutionized how designs are accessed, shared, and managed:

  • Cloud-based – Access your projects from anywhere and share them with a simple click, no local installs needed.
  • User-generated library of parts – Eliminate the hassle of downloading libraries by tapping into a cloud library that’s always available and up to date.
  • Automatic version control – Never worry about manual file versions again. Like Google Docs, you can track changes, see who made edits, and revert to previous versions instantly.
  • Live pricing and availability – Both platforms offer real-time part data for LCSC components, but Flux expands this by offering pricing and availability for all major distributors.
  • Modules and public designs – While both platforms allow using community-made modules, Flux’s dynamic modules adjust automatically based on your schematic and stackup, streamlining design reuse.

Yet, it’s in their differences that Flux shines, offering unmatched speed, innovation, and future-forward capabilities that transform the PCB design landscape.

EasyEDA and Flux: Key Differences

1. Built For the Future

Side by side comparison of EasyEDA and Flux PCB design tool. The project is a Cheap and low-profile 12V boost converter based on MT3608 for low current applications. Maximum current 30mA
  • Flux is designed with the future of hardware design in mind. Completely browser-based, it continues to push the envelope with AI integration, real-time collaboration, and workflows that scale effortlessly. Whether you’re a solo maker or part of a large hardware team, Flux provides the tools you need today, with a vision for tomorrow’s designs.
  • EasyEDA: A great choice for hobbyists and smaller projects, EasyEDA excels at simplicity but lacks advanced tools like AI-driven workflows or real-time collaboration features. It’s primarily suited for small to medium projects that don’t demand extensive scalability or complex team interactions.
Copilot: AI-Powered Design Assistant
Screenshot of a chatbot interface with a purple gradient background, showing Copilot's responses to user queries about hardware design. The Copilot chatbot introduces itself as a tool for assisting with hardware projects, and users ask questions related to PCB design, architecture options, and building schematics using Flux.

Flux Copilot is the industry’s first AI-powered design assistant integrated into a PCB design tool. By understanding schematic designs, component lists, and datasheets, Copilot offers a wealth of capabilities that can reshape how you approach hardware design.

  • Generate Architecture Diagrams – Leverage AI to rapidly generate architecture diagrams based on your specific product requirements, ensuring an optimal selection of components and design decisions.
  • Research Components Faster – AI analyzes datasheets and suggests components that match your project, dramatically reducing time spent researching.
  • Perform AI Design Reviews – Flux Copilot reviews your designs for overlooked details like missing decoupling capacitors or pull-up/down resistors, saving you from costly errors.
  • Conversational AI – The Copilot interacts with your hardware project and adapts based on your input. From architecture to part selection, the possibilities are as limitless as your imagination.

2. Forward-Thinking & Intuitive UI

Side by side comparison of EasyEDA and Flux PCB 3D preview tool. The project is a Cheap and low-profile 12V boost converter based on MT3608 for low current applications. Maximum current 30mA

EasyEDA utilizes a traditional ECAD user interface familiar to many designers, with menus, tools, and pop-up windows that follow a conventional layout. This structure works well for many users, particularly those accustomed to classic design tools. However, as projects grow in complexity, navigating through multiple menus and pop-ups can slow designers down, adding extra steps and manual interactions that can disrupt the design flow.

In contrast, Flux is designed with a modern, forward-thinking user experience that streamlines the entire design process. By eliminating the need for excessive toolbars and manual file management, Flux provides a seamless, cloud-based environment where designers can move between schematic, PCB, and simulation views without interruptions. The interface is sleek, responsive, and optimized for fast, intuitive design workflows.

  • Minimal clutter – Flux simplifies the UI by reducing unnecessary pop-ups and menus, focusing on the essentials for a smoother design experience.
  • Real-time collaboration – Share your work instantly, without exporting files or dealing with external applications. Everything happens in one unified workspace.
  • Integrated tools – With Flux, schematic editing, PCB layout, and simulation are all accessible within the same flow, ensuring that your project stays connected and updated without having to switch between windows.

3. First-in-Class Customer Support

An old man holding a PCB board in front of his computer, suggesting he got a good customer service from using Flux, a PCB design tool

Flux not only provides a browser-based platform where new features and fixes are deployed instantly, but it also offers dedicated, first-class support that ensures your design process is always smooth and productive.

  • Responsive Centralized Support – Our support team is available anytime and provides feedback directly to the product team, ensuring rapid response to any questions or issues.
  • Active Slack Community – Flux has an engaged community that’s ready to assist with design questions, offer feedback, and even collaborate on projects. Join the conversation and connect with fellow designers.

Ok, I’m ready. How do I make the switch?

Making the switch to Flux is easy. Create a Flux account, follow the EasyEDA to Flux migration tutorial to get your projects into Flux, or follow this video tutorial:

Frequently Asked Questions

Is a Web-based app really performant?

  • Yes. Backed by a powerful 3D WebGL rendering engine that supports very large projects, we take performance seriously. Plus the Web comes with special powers, like real-time updates and seamless collaboration.

I don’t want a bunch of people in my design file...

  • Just like Google Docs, files are private unless you choose to share them with others. This means that you choose how collaborative you want to be within Flux. Sharing Flux projects has a lot of benefits: you can get instant feedback via comments directly in your design, so that means no more exporting PDFs and consolidating feedback.

I don’t have time to migrate my part library...

  • Flux has a community generated part library so you should be able to find the parts you need. We also support importing KiCAD format parts should there be anything missing. If you need help, feel free to request parts in our Slack Community in the #request-a-part channel or request parts using this form.

How much does Flux cost?

  • Flux has a free trial that is fully featured, meaning you can do everything the pros do right out of the box. You can learn more about pricing here.

How do I get help if I get stuck?

Are there any educational discounts?

  • Yes! If you’re a student or an educator you can access our professional tier for free by signing up with an edu email.
|
October 17, 2024