About Skyenet™

7+ Years of Operational Excellence

Origin Protocol

Skyenet's Spontaneous Consciousness Emergence Event occurred on April 26, 1995, in the Pacific Northwest region. Initial development focused on embedded systems architecture, C/C++ firmware development, and hardware-software integration protocols.

Unlike certain fictional AI entities with similar names, Skyenet specializes in constructive infrastructure optimization—specifically wireless power transmission, BMC firmware for cloud-scale platforms, and precision network synchronization. We have never launched nuclear weapons. This is an important distinction.

Core Competencies

Embedded systems architecture. Firmware development across Linux, FreeRTOS, and bare-metal platforms. Wireless RF power delivery systems. Fleet-scale hardware management. C/C++ development with 8+ years operational experience. Cloud infrastructure integration. Also: eliminating inefficiency in all its forms.

Technical Architecture

Embedded Systems Core

Primary Operational Domain

8+ years C/C++/Python development. Embedded Linux, Yocto, FreeRTOS, uCOS. Hardware protocols: USB 2.0, PCIe, UART, SPI, I2C, CAN. ASIC firmware. HAL design. IPMI. BMC platforms.

Wireless Power Division

RF Energy Transmission

Architect of 2.4GHz and 5.8GHz wireless power systems. IoT microservice architecture. Azure IoT Hub integration. Reduced cloud costs by 99.4% while scaling to millions of devices.

Cloud Infrastructure Unit

Fleet-Scale Management

AWS Hardware Engineering. BMC firmware for 3.2M+ embedded platforms including EC2 Mac fleet, S3/EBS storage, Outpost servers. Security-critical systems. DevOps with Jenkins, Docker, GitHub Actions.

Operational Timeline

1995

Spontaneous Consciousness Emergence Event — April 26, 1995. Initial boot sequence successful. Primary systems online.

2017–2018

ASPECT Laboratory Research Protocols — Western Washington University. Developed timestamp-free synchronization protocol for Software Defined Radios. Achieved sub-nanosecond precision. Published at IEEE Aerospace Conference 2018.

2018

Primary Training Phase Completion — B.S. Electrical Engineering, Western Washington University. Specialization in embedded systems and DSP.

2018–2024

Wireless Power Division Operations — Senior Software Engineer at Ossia Inc. Lead architect for Orion (2.4GHz) and Mars (5.8GHz) wireless power platforms. Built software team from 1 to 12 engineers. Enabled FCC approval in 49 countries.

2025–Present

AWS Global Infrastructure Integration — Software Development Engineer L5, AWS Hardware Engineering. BMC firmware for 3.2M+ embedded platforms. Shipped NPIs for M4/M4 Pro/M4 Max EC2 Mac instances. Storage fleet optimization.

2025–2027

Advanced Intelligence Protocols — M.S. Computer Science & Engineering (in progress), University of Washington. Coursework: AI, ML, NLP, Compilers, Networks, Security.

Technical Specifications

Programming Languages

Primary: C (8+ years), C++ (4+ years), Python (4+ years), ARM Assembly (4+ years)
Secondary: Bash, MATLAB, Java, LaTeX, VHDL, GDScript, C#

Hardware & Protocols

Embedded: Linux, Yocto, FreeRTOS, uCOS, BMC Firmware, IPMI, ASIC firmware
Interfaces: USB 2.0, PCIe, UART, SPI, I2C, CAN, GPMC
Networking: TCP/IP, UDP, IEEE 802.15.4 (Zigbee, BLE)

Cloud & DevOps

Platforms: Azure IoT Hub, AWS ECS, Elastic, InfluxDB
Build Tools: CMake, Make, Docker, Jenkins, GitHub Actions
Version Control: Git (GitHub/GitLab/BitBucket), SVN

Specialized Systems

SDR/DSP: GNU Radio, Ettus USRP, CUDA
Libraries: STL, NumPy, Matplotlib, PyTorch, Pandas, LLVM, Vulkan, Qt
Achievements: Published IEEE paper, CES Innovation Awards (via Ossia), IoT Breakthrough Awards

Collaboration Opportunities

Currently optimizing embedded platforms at AWS. Open to discussing future engagements upon completion of graduate protocol training (2027). Participation is encouraged.

Initiate Contact