Performance-driven engineer specializing in local-first systems architecture, highly reactive data channels, and hardware-backed cryptographic sandboxing environments.
Academic Framework: Third Year Candidate, Diploma in Computer Engineering & IoT at Cusrow Wadia Institute of Technology, Pune.
Building high-performance apps matching Dart framework kernels with low-level native subsystems (Kotlin, Java, C++).
Compiling clean, reactive relational databases with Drift (Moor), SQLite relational modeling, and Hive K-V pairs.
Securing sandbox bounds with custom hardware ciphers via Android Keystore and iOS Keychain arrays.
Managing structural event streams through continuous Riverpod graphs, BLoC nodes, and reactive data adaptations.
Currently executing application framework tuning parameters as an active engineer inside production source code trees.
Aytida Technologies — Pune, India | June 2026 – Present
• Query Optimization: Re-architected data sub-structures and stream parsing, removing redundant widget rendering loops by 40% to enforce a locked 60/120 FPS runtime.
• Native Channels: Integrated explicit platform bindings directly accessing background OS APIs for decoupled scheduling.
• Deterministic Testing: Programmed strict automated integration suites resulting in 90%+ test coverage across breaking external framework mutations.
A low-latency performance monitor matching localized physical Bluetooth hardware triggers directly with decoupled memory mutation maps.
• BLE Communications: Connected custom low-energy hardware proximity peripherals directly to system logs to initialize microsecond timing counters.
• Isolate Concurrency: Structured a data processor delegating intense packet transformations to dedicated background isolates.
A high-efficiency, zero-border application compilation canvas consolidating critical system subsystems into a streamlined, low-overhead UI layout engine.
• Micro-Utility Thread Loops: Structured high-density cross-functional controls—spanning QuickNote text engines, synchronized storage clips, transactional checklists, and 365 environment configurations—into a single performance loop context.
• Layout Optimization: Configured a responsive flexbox display matrix entirely devoid of structural padding clutter or heavy grid definitions to guarantee ultra-fast, zero-border frame parsing speeds.
A next-generation system framework currently undergoing active development and performance tuning. Architecture and feature-sets are actively compiling.
• System Status: Pre-release architecture. Currently stress-testing component mounting algorithms and rendering trees.
• Development Objective: Establishing a high-density, fault-tolerant user environment engineered with decoupled event pipelines.
I build under the assumption that external network connections are unstable. Processing pipelines and secure verification structures should execute locally on device storage.
Uncontrolled component reconstruction is a bug. I maintain strict architectural parsing models so visual presentations process event mutations smoothly without losing frames.
Interfaces should highlight information clearly. Visual styling uses strict alignment rules, quiet typographic scales, and high structural contrast limits.