// platform · build 7.14.0

One stack. Entropy to application.

The Luna platform is a vertically integrated quantum runtime: certified entropy at the bottom, a coherence-aware scheduler in the middle, signed application APIs at the top. Everything is observable. Everything is replayable. Nothing is mocked.

// live · cluster halo-eu-1

Subsystem load.

sampled @ 0.4 Hz · signed by orchestrator

subsystemslive

scheduler— —

compiler— —

cryo · dilution stage— —

HALO-MESH fabric— —

keystore · LUNA-Q1— —

signalsstreaming

ops/sec · cyan

gate fidelity % · magenta

T₁ coherence µs · cyan

// LUNA-Q1 · cryptography

Post-quantum key distribution, without the cutover.

LUNA-Q1 bridges your existing PKI to a lattice-based key exchange in a single appliance. ML-KEM-1024 and Classic McEliece run side-by-side under a unified policy engine, with hardware-rooted entropy from VOID-K and signed audit trail to a tamper-evident ledger.

SuiteML-KEM-1024 · Classic-McEliece-348864

Entropy sourceVOID-K · NIST SP 800-90B

HSMFIPS 140-3 L3

Throughput24 000 ops/s · steady

luna-q1 · spec sheetv3.2

> luna q1 status
  appliance     : LQ1-2U-A
  firmware      : 3.2.4-signed
  kex.primary   : ML-KEM-1024
  kex.fallback  : ECDHE-X25519
  sign.primary  : ML-DSA-87
  audit.ledger  : ledger.magnaluna.ru/lq1
  entropy.src   : void-k://dc-04/voidk-01
  health        : OK

oracle-7 · job submitcli

$ oracle submit \
    --kind   qaoa \
    --graph  routes_eu_west.gml \
    --depth  8 \
    --shots  4096 \
    --budget 280µs

job  job_8a14f2  queued
job  job_8a14f2  compiled (318 iters)
job  job_8a14f2  converged  cost = 4 218.7

// ORACLE-7 · optimization

Combinatorial workloads, finally affordable.

ORACLE-7 runs variational solvers (QAOA, VQE, hybrid annealing) on real qubits and a classical fallback under one declarative API. You write the objective; ORACLE picks the backend, recompiles per-shot, and meets a budget you can put in a contract.

BackendsQAOA · VQE · D-Wave bridge · CPU fallback

SLOp99 wall-clock ≤ 380 µs · budget-enforced

SDKPython · Go · gRPC

// HALO-MESH · network

An overlay where every byte is rotated.

HALO-MESH is a global, multi-region fabric that wraps your existing transport in a continuously rekeyed tunnel. Keys are drawn from VOID-K, distributed by LUNA-Q1, rotated per flow. Compromise window collapses from days to milliseconds.

RegionsEU-WEST · EU-NORTH · US-EAST · APAC-1

Key rotation8 ms / flow · 100 µs / handshake

MTU overhead36 bytes

Auditappend-only ledger · 7-year retention

halo · peersstreaming

peer halo-eu-1   UP   rtt   1.42 ms   keys 18 247 / min
peer halo-eu-2   UP   rtt   4.07 ms   keys 17 902 / min
peer halo-us-1   UP   rtt  74.18 ms   keys 16 014 / min
peer halo-ap-1   UP   rtt 188.30 ms   keys 12 506 / min
peer halo-eu-n   DEGRADED   rtt   8.91 ms   keys  4 102 / min

void-k · healthlive

Sourcephotonic · vacuum-state quadrature

Min-entropy0.998 / bit (continuous test)

Stream rate1.2 Gb/s · sustained

Health checksNIST SP 800-90B (APT, RCT)

FailoverN+2 · hot-swap photonic head

// VOID-K · entropy

Certified randomness, by the gigabit.

VOID-K turns vacuum-state photonics into auditable entropy. Every output bit is health-checked, every appliance is hardware-attested, and every consumer receives a signed certificate of origin alongside the stream.

// engagement

Two ways in.

evaluation

30-day signed pilot

One appliance, one workload, one region. We deploy LUNA-Q1 or ORACLE-7 alongside your existing stack and benchmark against your real traffic. No shadow data, no telemetry exfil.

Open a pilot ticket →

deployment

Full-fabric rollout

HALO-MESH across your regions plus a paired LUNA-Q1 cluster. Co-engineering team for the first 90 days, then handover to your SRE org with on-call coverage from us.

Talk to engineering ↗