Advanced ASIC design, FPGA prototyping, RTL verification, physical design, DFT engineering, AI hardware acceleration, and industrial embedded systems — delivered under strict NDA with precision and IP protection.
Full-spectrum semiconductor and AI engineering — from RTL specification to silicon validation and beyond.
Custom RTL design, hardware–software co-design, FPGA validation, and silicon architecture from spec to synthesizable netlist.
Synthesis, floorplanning, CTS, routing, STA, IR/EM analysis, and full tape-out support for advanced nodes.
UVM testbenches, assertions, coverage closure, regression automation, and formal verification to closure.
Scan insertion, MBIST, ATPG, JTAG integration, yield improvement strategies, and silicon debug support.
Edge AI deployment, MLOps pipelines, hardware acceleration, model optimization, and intelligent automation.
Firmware development, board bring-up, industrial control systems, and secure IoT infrastructure design.
Modern web and mobile applications using React, Angular, Flutter, Node.js, Python, Java, APIs, and enterprise platforms.
Predictive modeling, ML, data mining, forecasting, and data-driven decision support systems.
CI/CD pipelines, Kubernetes orchestration, containerization, and scalable cloud-native architecture at any scale.
Application security, secure architecture design, vulnerability assessment, threat modeling, and compliance.
Interactive dashboards, KPI monitoring, executive reporting, ETL pipelines, and enterprise BI solutions.
Enterprise software modernization, workflow automation, ERP/CRM integration, and process optimization.
Proprietary platforms spanning silicon IP, AI inference, and intelligent industrial systems.
AI-driven RAG-based platform that converts high-level functional specifications into synthesizable, PPA-optimized RTL (Verilog/VHDL) with closed-loop verification and iterative refinement.
Intelligent mixed-signal hardware platform integrating industrial sensors, embedded control, and AI analytics for renewable energy process optimization.
Custom RISC-based mixed-signal microprocessor designed for industrial automation, precision sensing, and FPGA-to-ASIC scalability.
FPGA-optimized inference engine enabling low-latency, real-time AI deployment for industrial, robotics, and embedded edge systems.
Silicon-ready IP catalog — synthesizable RTL (Soft IP), layout-hardened blocks (Hard IP), and hardware security modules for advanced-node ASIC integration.
Mission-critical semiconductor and embedded IP platforms for robotics, defense, agriculture, automotive, drones, and high-reliability industrial applications.
Secure domain-specific LLM platform integrating Retrieval-Augmented Generation, knowledge graphs, and private data sources for enterprise search and decision support.
End-to-end GenAI solution for intelligent content generation, workflow automation, AI agents, multimodal processing, and business process optimization.
Our IT/OT integration framework connects every layer of the semiconductor manufacturing stack — from equipment to enterprise AI.
We collaborate with semiconductor startups, fabless design houses, AI hardware innovators, and industrial automation teams worldwide. Every engagement begins with a mutual NDA, secure engineering workflows, and a commitment to protecting your IP at every milestone.
Yarok14 Technologies is a semiconductor and AI engineering company specializing in advanced-node ASIC design, verification, and production-ready AI systems. Our team brings experience across sub-16nm FinFET process nodes and advanced low-power technologies.
From architecture definition to tape-out and silicon validation, we handle every stage of the hardware lifecycle — delivering secure, high-performance silicon to engineering teams across the globe.
We combine RTL/IP expertise, industrial automation knowledge, and cutting-edge AI capabilities to build resilient, intelligent hardware for the next decade of computing.
Accelerate tape-outs, improve verification coverage, optimize AI pipelines, or prototype faster on FPGA. Our engineers are ready.