Neupenn delivers high-performance engineering and computing for the organizations solving the world's hardest physical problems — from hydropower to autonomous systems, infrastructure to disaster resilience.
Custom parallel software for supercomputing clusters, distributed systems, and GPU-accelerated environments. Code optimized at the limits of hardware memory.
HPC · MPI · CUDAEnd-to-end drone system design — flight control software, autonomous mission planning, survey, logistics, and precision agriculture applications.
UAV · Autonomy · GISCFD, FEM, and multiphysics simulations built from the ground up. Structural analysis, fluid dynamics, and thermal modeling with physical accuracy.
CFD · FEM · MultiphysicsReal-time virtual models of physical assets — hydropower plants to bridge networks. Monitor, predict, and optimize infrastructure before structural failures occur.
Digital Twin · IoT · AIFull-lifecycle design and integration of complex technical systems across hardware and software boundaries. From design requirements to production deployment.
SysEng · IntegrationDomain-native software by engineers who understand physics and math. Legacy system modernization, compilation optimization, and greenfield builds.
Fortran · C++ · Python · JuliaLightweight 3D CFD, FEM, and multiphysics solvers optimized to run locally on engineer workstations instead of cloud cluster dependencies.
C++17 · CUDA · MPINeuSim bypasses commercial simulation cost bottlenecks by compiling raw physics routines directly into lightweight GPU kernels, delivering native execution speed.
Autopilot extension layer and swarm flight director engineered for extreme mountainous elevations and GPS-degraded valley zones.
ROS2 · PX4 · C++FlightOS handles the non-linear wind shear challenges of high Himalayan operations using real-time predictive control models and local mesh coordinate routing.
Sub-100ms real-time asset tracking telemetry pipeline built for critical municipal infrastructure monitoring and predictive health warnings.
MQTT · InfluxDB · JuliaTwinCore connects physical strain sensors, pressure valves, and climate arrays directly to real-time physics models, warning operators before stress thresholds rupture.
Nepal sits at the intersection of immense engineering opportunity and underserved technical capacity. Neupenn is the engineering backbone of Nepal's infrastructure decade — delivering globally competitive solutions.
NeuSim CFD model simulating sediment-induced erosion inside Pelton turbine nozzles. Enables hydro operators to run preventive load adjustments.
FlightOS terrain-following algorithms mapping extreme Himalayan highway expansions. Captures high-precision topographical profiles.
TwinCore IoT deployment across deep-ravine suspension bridges. Streams micro-strain telemetry to physics-informed predictive warning boards.
Linking live upstream water-level sensors with a NeuSim 2D hydrodynamic flow model to predict flood zones in real-time before waters surge.
Tell us your hardest problem.
We'll tell you how to solve it.