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Bio

Electrotechnics & Automotive IT student at BMSZC Bolyai János Technical School.

I also work in event tech — handling lighting, audio, VFX/AFX, pyrotechnics, and electrical systems for concerts and parties.

Full‑stack dev & homelab enthusiast: I build automation tools, bots, monitoring, and resilient self‑hosted services on Proxmox, Debian, and Nginx.

I am currently pursuing HAREC certification to become a licensed HAM radio operator, expanding into RF communications and emergency comms.

Overview

I build across code, infrastructure, and live production — blending software with real-world systems. I’m not tied to one stack; I engineer workflows, tools, and technical experiences.

Goal: Merge homelab automation with live event control.

Event Experience

I have worked on live events, concerts, and parties handling full technical operation — lighting rigs, audio mixing, special effects, and electrical safety.

Largest hosted event: 9th grade welcome party with 170+ attendees — full concert-scale setup. We tapped district power (beyond 3×16A), ran 240m of cabling, deployed 35+ tons of stage gear: 3 digital mixers, 12+8 moving heads, 12 rod lights, 4 strobes, massive sub arrays (2×18'' + monitor subs), 4 top speakers, and over 7 mic/patch channels, peaking at 96A total draw — enough power to trip building mains; forced district transformer tap. I was on networking duty using my custom RouterBox, handling interference mitigation, anti-jamming, and HAM comms to ensure absolute internet reliability. Built setup over a full week.

Skills & Stack

  • Core Languages: Java, Python, JavaScript, Lua, C, PHP, Batch, Shell
  • Web & Backend: HTML, CSS, MySQL/MariaDB, REST APIs
  • Systems & Automation: Linux (Debian/Proxmox), scripting, build automation, CI-like workflows
  • Event Tech: Lighting, audio engineering, VFX/AFX, pyrotechnics, stage electrical

PowerEdge R630 (Compute)

  • Dual 14‑core CPUs (28 threads each) → 56 total
  • 32 GB DDR4 ECC RAM
  • Drives: 1 TB SSD, 1 TB HDD, 750 GB HDD, 120 GB SSD, 240 GB SSD
  • Hypervisor: Proxmox VE (Debian/Ubuntu/Windows VMs)
  • Workloads: ingress, web backends/frontends, Minecraft compute
  • Networking: dual gateway + tunnel to backup

IBM Server (Storage)

  • 8‑core CPU, 48 GB DDR3 ECC RAM
  • Boot: dual 60 GB SAS (RAID‑1)
  • Data pool: 3× 1.8 TB HDD + 1 TB HDD cache
  • OS: TrueNAS CORE (IPMI)
  • Role: storage, compression, file management (~3.5 TB)

Networking & Integration

  • Direct link between nodes for low‑latency access
  • Compute node routes to storage for redundancy & throughput
  • Field‑tested under 200+ player Minecraft load across 3 servers

Projects

OMEGA / BatchRack

OMEGA I: Initial concept — raw Batch shell, command parsing, no encryption, foundation of the kernel.

OMEGA II: Introduced modular plugins, basic security layers, filesystem simulation and persistence.

OMEGA III: Introduced encryption foundation, experimental isolation but without full lock or kernel integration.

BatchRack (OMEGA IV): Final evolution — full kernel integration, plugin runtime, sandbox persistence.

A locked-down Batch-based kernel & filesystem — encryption, plugin loader, and terminal OS built entirely in Windows Batch. Focused on control, persistence, and bare-metal automation.

“OMEGA wasn’t built to be useful — it was built to prove Batch can break its own limits.”

  • OkayGarmin – Voice-triggered automation & screen/audio capture.
  • RPlotSquared (Build Only): Built private patched versions via Gradle; not original source code.
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