As an avid enthusiast of VMware’s innovations, I’m diving headfirst into the ESXi ARM Fling v2.0, which is built on the robust VMware vSphere Hypervisor ESXi 8.0.3b codebase. The ARM architecture has always intrigued me, and with this latest version, VMware has pushed the boundaries of what’s possible with ESXi on ARM devices. It’s a playground full of potential for anyone experimenting with lightweight, power-efficient infrastructures.
The Turing Pi Journey
After much anticipation, my Turing Pi Mini ITX boards have arrived! These boards are compatible with the Raspberry Pi Compute Module 4, offering a modular, scalable setup perfect for ARM experimentation. With a few Compute Module 4s ready to go, I’m eager to bring this setup to life. However, finding a suitable case for the Turing Pi board has proven to be a bit of a challenge.
Case Conundrum
While Turing Pi has announced an official ITX case for their boards, it’s currently on preorder and comes with a hefty price tag. For now, I’ve decided to go with a practical and versatile option: the Streamcom Mini ITX OpenBench case. Its open-frame design is functional, and it’ll keep the board accessible during testing and configuration.
I’m also considering crafting my own custom case. Using laser-cut wood or acrylic is an appealing option, offering the opportunity to create something unique and tailored to my specific requirements. But for now, the OpenBench case will do nicely as I explore the ESXi ARM Fling.
Why ESXi ARM Fling v2.0?
The ESXi ARM Fling project is an exciting venture for anyone who loves to experiment with virtualization. Running ESXi on ARM hardware offers several advantages:
- Energy efficiency: ARM boards consume far less power compared to traditional x86 systems.
- Cost-effectiveness: Affordable hardware like the Raspberry Pi Compute Module 4 makes it accessible to a wider audience.
- Flexibility: The compact form factor of ARM devices is ideal for edge computing, IoT, or even small-scale home labs.
The v2.0 update introduces enhanced support, better performance, and bug fixes, making it an excellent choice for exploring the ARM ecosystem.
What’s Next?
With the hardware in hand and the ESXi ARM Fling v2.0 ready to install, I’m planning to dive into:
- Setting up and configuring the Turing Pi board with ESXi.
- Testing the system’s stability, performance, and scalability using multiple Raspberry Pi Compute Modules.
- Exploring practical use cases, such as lightweight Kubernetes clusters or edge computing applications.
I’ll share updates on the build process, challenges, and performance insights in future posts. For now, I’m excited to get started and see what this setup can achieve.
Stay tuned for more! If you’ve experimented with the ESXi ARM Fling or have tips for working with the Turing Pi board, I’d love to hear from you.
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Tags: ARM, Case, Clusters, Compute, Edge, Efficiency, energy, ESXi, Experimentation, Fling, Hardware, Home, Hypervisor, infrastructure, ITX, Kubernetes, Lab, Module, OpenBench, performance, Pi, Raspberry, Scalability, Setup, Stability, Streamcom, Turing, Virtualization, VMware, vSphere