tGPU brings them on-chain. Price, trade and settle GPU-hours, reserved capacity and inference throughput as on-chain commodities — denominated in $tGPU. Provision bare-metal H100 clusters in one click. Settle at the speed of a block.
One order book for every accelerator. Spot, reserved and forward GPU capacity quoted live and settled in $tGPU.
Deploy capacity, route demand across the orchestration mesh, settle per-slot with zk proof-of-compute.
The gas, collateral and unit of account for the network — one token, denominated in raw silicon.
Reserved, spot and forward GPU capacity quoted in real time. Latency-aware matching routes every fill to the nearest attested node, settles against escrowed $tGPU, and slashes non-delivering operators automatically.
Everything in tGPU is a primitive you can compose, hedge or tokenize. The compute market is finally programmable.
Lock reserved GPU-hours weeks out at a fixed strike. Hedge training runs against spot volatility with cash-settled forwards.
Exchange variable tokens-per-second for a fixed throughput stream. Float-to-fixed routing for production endpoints.
Aggregate idle capacity into one liquid pool. Auto-rebalances across regions to absorb demand spikes in real time.
Senior/junior capacity tranches with guaranteed allocation. Priority scheduling backed by restaked collateral.
Every fill binds to the nearest attested node. Geographic order matching minimizes round-trip and settlement drift.
A volume-weighted benchmark across all SKUs. The reference rate for compute-denominated contracts.
Three primitives turn raw silicon into a tradable, redeemable asset. Every step is attested on-chain and denominated in $tGPU — no invoices, no counterparties, no cloud lock-in.
Operators register bare-metal clusters and mint capacity tokens against verifiable hardware. A zero-knowledge proof-of-compute attests TFLOPS, memory bandwidth and uptime before a single $tGPU is escrowed.
Buyers post inference or training workloads to the orchestration mesh. Latency-aware matching binds demand to the cheapest attested node, spins up an isolated runtime, and streams telemetry to the settlement layer.
Delivered compute is metered per slot and cleared against escrow with sub-slot finality. Underdelivery triggers automatic slashing; surplus capacity rebates to the elastic reserve.
Five composable layers turn physical accelerators into a permissionless, MEV-resistant commodity market. Each layer is independently verifiable and settles upward into a single unit of account.
No reserved-instance contracts. Just attested silicon, priced by the market and redeemable on demand.
The world is short on GPUs and long on idle silicon. tGPU is the settlement layer that closes the gap — turning fragmented, underutilized accelerators into a single liquid market, verifiable on-chain and priced by demand instead of cloud rate cards.
GPU capacity is locked behind opaque pricing, long-term reservations and regional silos. Demand spikes go unmet while billions in silicon sit idle. There is no neutral price, no liquid market, no way to redeem capacity on demand.
Treat a GPU-hour as a commodity. Attest it with zero-knowledge proofs, escrow it in $tGPU, match it across a latency-aware order book, and settle per slot. Capacity becomes a programmable, hedgeable, redeemable asset.
No compute clears without a proof-of-compute attestation. Underdelivery is slashed at the protocol level.
Any operator with attestable bare-metal can mint capacity and earn. No gatekeepers, no onboarding queue.
Funds sit in on-chain escrow until compute is delivered. Sub-slot finality, no trusted intermediary.
A settlement layer that turns GPU capacity into on-chain commodities. Operators mint capacity, buyers provision it, and the network clears delivered compute against escrowed $tGPU with sub-slot finality.
Through zero-knowledge proof-of-compute attestation backed by a restaked validator set. TFLOPS, memory bandwidth and uptime are proven on-chain. Operators who underdeliver are automatically slashed.
Collateralized, escrowed compute capacity. The unit of account is a GPU-hour, so token value tracks real demand for accelerated compute rather than speculation alone.
Any operator with attestable bare-metal — data centers, mining facilities, or independent rigs. Registration is permissionless; the only requirement is passing attestation.
No. Funds remain in on-chain escrow until compute is delivered and metered. There is no trusted intermediary holding balances.
$tGPU is the gas, collateral and settlement currency of the network. Provision capacity, pay for inference, restake to validate — one token, denominated in raw silicon.
Every order, attestation and settlement is metered in $tGPU. Network fees route to the elastic reserve.
Capacity is escrowed in $tGPU. Buyers fund orders; operators post bonds against delivery guarantees.
Delivered GPU-hours clear directly in $tGPU. The token is the denominator of every contract on the network.
Validators restake $tGPU to back proof-of-compute attestations and earn protocol yield from honest delivery.
Holders steer emissions, fee parameters and the validator set through on-chain governance.
Surplus capacity and protocol fees rebate to active suppliers, compounding network liquidity.
Provision a cluster, deploy capacity tokens, or restake to validate. The compute economy clears in $tGPU.
Capacity onboarding is gated until the $tGPU fair launch finalizes and the validator set reaches quorum. The order book is live in observation mode.