![]() ![]() We made it our mission to provide a streamlined, collaborative experience. No need to install complicated software or go through weeklong license procurement processes. Plus, the simulator we built is programmable, so it can easily be extended and customized to your needs.Īll collaborators can easily and instantly access the latest designs. And with Flux, instead of sending diagrams to a server to run a SPICE simulator and waiting for the results, you can run simulations right in your web browser. It supports real-time collaboration and a component ecosystem, like GitHub. we think it’s not just appealing to engineers, but all the other stakeholders of a project. Flux is fast, streamlined, and can run in any modern web browser - a.k.a. Our implementation takes a different approach to most editors. And to top it off, you have to manually re-create semiconductor vendor reference designs in the right file format for your project from a pdf.Įnter Flux, a solution that is collaborative, allows reuse and sharing of components, and features a programmable simulator that allows you to quickly build interactive mockups of real-world parts and scenarios. You have to build the most fundamental circuits from scratch, even if you’re sure it’d been built before. Debugging issues remotely with your colleagues on the factory floor is tricky. Raise your hand if this is sounding familiar. Yep, this all is about as fun as a root canal. You’d come to an agreement, spin up a manufacturing line, spend $1M+, and wait for 4 weeks, only to find out the board was shorted somewhere. This entailed stressful days (and nights) where the whole team theorized over every change and debated whether the board would still work. Then, there was the issue of getting designs ready for manufacturing. And let’s not even get into those late-night attempts to unblock an overseas teammate by hunting for a design hidden away on an engineer’s Windows machine. ![]() Collaboration boiled down to sending schematic pdfs via email, and diffing happened by printing those pdfs on paper, holding them next to each other, and highlighting changes with colored markers. Finalizing and testing designs for manufacturing was cumbersome. Coordinating and syncing the design process across a team was difficult. When creating hardware at work and for our personal projects (like modular, off-grid power grids for Burning Man), we frequently ran into challenges. ![]() I have a mixed hardware/software background and most recently worked as a product lead on new sharing products at Facebook. Lance worked on hardware-in-the-loop simulation at NASA and Lenovo, as well as on drone hardware and flight software. Chris led the Apple SPG Vehicle Dynamics Simulation Team. Between us, we’ve worked at Apple, Facebook, and NASA on hardware and software projects. The Flux founding team is myself, Chris, and Lance. And since you’re probably wondering what Flux is about, let’s dig in… We wanted something that’s collaborative, cloud-based, and addresses major problems in the current hardware design process, so engineers can seamlessly build better hardware together.Įxcited to share that we are now ready to taking on alpha testers, and you can sign up at. If you’ve built electronics hardware, you know how clunky the process is. ![]()
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