Space communication network with integrated orbital micro data center grid

Maargin is building a multi-shell multi-orbit space communication network — a constellation of satellites in LEO interconnected via OISL — providing connectivity and integrated computing facility to enterprises, government agencies, aircrafts and maritime businesses, fellow satellites and deep-space missions.

Network Topology multi-shellmulti-orbit

Coverage planetscale

Inter-satellite links opticalISL

Orbital compute micro DCgrid

A unified fabric for orbital communication and compute

01 · Communication

A standards-compliant space network.

The next generation of communication will not be tethered to towers, islands of coverage, or single-orbit constellations. It will move fluidly between ground, sky and space — routing packets across a continuously reconfiguring mesh. Maargin is building that highly connected mesh: a standards-compliant space network of satellites in LEO.

02 · Compute

A micro data center grid in orbit.

That same mesh — an ideal substrate for compute — is configured to form a micro data center grid. Every satellite is already solar-powered, radiatively cooled, and one hop from its neighbours, turning each node into a micro data centre. The sub-constellation becomes a highly connected compute grid in orbit, where workloads move as fluidly as packets.

Standards-native. Multi-shell. Interoperable by design.

Infrastructure · 01

A multi-shell multi-orbit constellation with inter-satellite links

Our space networks combines satellites across multiple shells in LEO — connected via optical inter-satellite links form a low-latency routing plane that reaches anywhere on or above Earth.

Standards compliance · 02

3GPP NTN. Broadband. Cellular. IoT

Our services are built against recognized, interoperable standards — not walled gardens — so devices, operators and spacecraft can integrate cleanly

3GPP NTN NB-IoT DVB-S2X

Spectrum · 03

Multi-band, coordinated

Ku, Ka and S-band operation with dynamic allocation across the constellation

Links · 04

Optical ISL

Near-infrared optical inter-satellite links built on a roadmap toward an open standard for ISL-as-a-service

Latency · 05

Routed through space

Packets traverse space directly — shorter paths, lower latency, fewer terrestrial hops

Deployment · 06

HAPS & UAVs, deployed as needed

High-altitude pseudo-satellites and unmanned aerial vehicles give the network an elastic layer — deployed to extend capacity, fill coverage gaps, or support critical operations on short notice

Compute · 07

A orbital compute fabric on top of communication grid

A single architectural fabric serves user devices on the ground, commercial and defense aircraft, maritime vessels, earth-observation satellites, space telescopes, and deep-space entities with both communication and compute

Not another constellation. A network.

Multi-shell by default

Instead of optimizing for a single shell, we compose across shells in LEO — plus HAPS and UAVs — so each workload rides the layer that suits it best

ii.

Inter-satellite links, open

We are working toward a standardized protocol for inter-satellite links — unlocking ISL-as-a-service for fellow operators and their spacecraft

iii.

Standards over silos

Every service layer complies with 3GPP NTN, cellular and IoT standards — devices, networks and missions interoperate without bespoke integration

The people building the network.

Founder & CEO

Aniruddh Rao Kabbinale

Communications engineer turned founder. Leading the design of Maargin's space network architecture and standards work.

Previously Staff Engineer at Samsung (contributions to IEEE Ultra-Wideband & Wi-Fi standards), with research stints at the University of Cambridge and TCS Research, and engineering roles at Qualcomm, Siemens and Huawei.

IIT Bombay, M.Tech IEEE Senior Member 10+ yrs Wireless