Umang
Sharma
Treating SAP, codebases, browsers, and hardware as one continuous playground—designing AI-driven tools that automate everything from ABAP landscapes to DC-DC power rigs.
SOFTWARE
SAP architect building AI platforms, ABAP analyzers, and LLM pipelines at scale—shipping features to millions while keeping latency and infrastructure cost as KPIs.
HARDWARE
Designing 3D-printed chess tables, motorized desks, and 60V battery stacks—where mechanics, electronics, and control software are engineered as one integrated system.
Core Identity
Umang is an ecosystem engineer who treats SAP, codebases, browsers, and hardware as one continuous playground—designing AI-driven tools that read, refactor, and automate everything from ABAP landscapes to BTP infrastructure, then going home and wiring the same mindset into drones, DC-DC power rigs, and auto-playing chess tables.
"Define the architecture, wire the monitoring, script the migration, then build docs, prompts, and extensions so the rest of the team can drive it without me."
He thrives in messy, constraint-heavy environments—legacy ABAP, limited BTP trials, or underpowered hardware—and turns them into unfair advantages through tooling, automation, and a "ship it, then instrument it" discipline.
Internal Founder
Operates like a startup founder: define, build, document, and enable the team to run autonomously.
Constraint Solver
Turns legacy systems and limited resources into competitive advantages through clever tooling.
Full-Stack Mindset
Applies software engineering discipline to physical systems—wiring, power, and mechanics.
Software & AI Architecture
Key Projects & Platforms
Doubtnut Product Engineering
Led core product engineering and internal innovation cell, shipping features like Hindi profanity detection, collaborative whiteboards, WebRTC broadcasting, live quizzes, and gamified learning journeys at million-plus DAU scale.
Sookti AI Platform (SAP)
Built AI platforms that sit on top of SAP as an 'AI architect'—ABAP analyzers, GROW-with-SAP blueprints, CAP/BTP SaaS backends, and full observability stacks wired into Dynatrace/Cloud ALM.
LLM + Static Analysis Pipeline
Developed LLM + static-analysis pipelines on top of abaplint and custom symbol maps to auto-generate high-level designs, flow diagrams, and remediation plans for S/4HANA readiness.
Infrastructure & Observability
Transformed incidents into data through comprehensive monitoring stacks, treating latency, database load, and infrastructure cost as key performance metrics across all systems.
Technical Stack & Capabilities
SAP Ecosystem
AI & Analytics
Web & Infrastructure
Approach: Build tools that read, refactor, and automate entire landscapes. Turn legacy custom code into structured, sellable intelligence. Ship features at scale while keeping infrastructure cost and latency as first-class metrics.
Hardware & Mechanical Engineering
Physical Systems & Builds
Auto-Playing Chess Table
3D-printed and CNC-grade automated chess system where mechanics, electronics, and control software are engineered as one integrated system. Features precise piece movement and game state tracking.
Multi-Top Motorized Desks
Custom motorized desk systems with multiple work surfaces, precision height control, and integrated power management. Designed for optimal workflow and equipment organization.
Aquarium-PC Hybrid Systems
Integrated aquarium and PC workstation builds combining thermal management, liquid cooling aesthetics, and aquatic life support systems with high-performance computing.
6DOF Motion Rigs
Six degrees of freedom motion platforms with synchronized control systems, precision actuators, and software integration for simulation and entertainment applications.
Power & Battery Systems
60V battery stacks, DC-DC converters, safe fuse/wiring topologies, and inverter setups optimized for GPUs and workstations—designed with the same precision as production infrastructure diagrams.
Drone Systems
Custom drone builds with integrated flight controllers, power systems, and telemetry. Applying software engineering principles to aerial robotics and autonomous systems.
Engineering Disciplines & Tools
Fabrication
Electronics
Control Systems
Approach: Design power and motion ecosystems with production-grade precision. Apply software engineering discipline to physical systems—treating wiring diagrams, power topologies, and control code as one integrated architecture document.
How He Operates
Internal Founder Mindset
Define the architecture, wire the monitoring, script the migration, then build docs, prompts, and extensions so the rest of the team can drive it without him. Operates like a startup founder within larger organizations.
Constraint-Driven Innovation
Thrives in messy, constraint-heavy environments—legacy ABAP, limited BTP trials, or underpowered hardware—and turns them into unfair advantages through tooling, automation, and discipline.
Ship It, Then Instrument It
Prioritizes rapid deployment with comprehensive observability. Turns incidents into data, not surprises. Treats latency, database load, and infrastructure cost as first-class metrics.
Integrated System Thinking
Applies the same engineering rigor to both digital and physical systems. Wiring diagrams receive the same precision as architecture documents. Hardware and software are one continuous design space.
"Treat every system as a playground. Every constraint as a design parameter. Every tool as infrastructure that enables the next level."
— Operating Philosophy