Run a wallet
Create addresses, learn the Core wallet, and follow the network from your own node.
Mission
TensorCash turns useful AI work into open money.
Financial systems and AI should be cheaper, more open, and less dependent on gatekeepers. TensorCash connects both problems: useful AI inference can serve people and secure a public ledger at the same time.
Why care?
We believe people deserve a cheaper, more efficient financial system, and fairer AI that works for everyone. TensorCash makes AI work verified and verifiable. Verification gives AI a face: proof of which model did the work, what it saw, and the rules it followed. That lets anyone confidently buy or sell AI work at the most efficient price. The result is more accessible, more sustainable AI, powering a new generation of financial systems. Today's currencies are the potatoes: antiquated, expensive to move, and trapped behind fee-takers. TensorCash is a more efficient way to move and store value — one that harnesses AI's computational power for everyone while pushing the control outward instead of concentrating it.
What can I do?
Mine or verify
Use compute to serve open-model inference, produce proof material, or independently check proofs.
Get TSC peer-to-peer
There is no official sale. TSC enters circulation through active mining and can move peer-to-peer.
Donate, translate, explain
Support the work, translate public materials, or make the project legible to one more person.
About us
Imosuke Takakuni is a pseudonym. The Japanese name is both a tribute to Satoshi Nakamoto and a nod to Potato Land — the parable from our whitepaper. The mission is bigger than any one contributor; it should outlast personalities and charisma. Decentralisation works for everyone, or it doesn't work at all. We want everyone to participate in TensorCash as equals.
Emission schedule
Bitcoin set the baseline: no discretionary minting, block rewards only, and an integer halving schedule that ends at 20,999,999.97690000 BTC. TensorCash keeps the fixed-supply discipline while changing the release curve for a compute-mined network; the implemented Core recurrence ends at 21,184,153.03530240 TSC.
Instead of a simple halving clone, TensorCash uses an epoch-decay schedule. Early epochs are shorter and pay more, rewarding miners who take the first operational risk. Later epochs get longer while rewards decay, making issuance steadier over time and eventually driving the subsidy to zero.
Supply over blocks
Total subsidy issued
Exact integer subsidy rules from Core: Bitcoin halvings against the TensorCash epoch-decay schedule, shown through the first 6,000,000 blocks.
- Horizon
- ...
- BTC @ 6M
- ...
- TSC @ 6M
- ...
Block 0
BTC supply 0 BTC
TSC supply 0 TSC
BTC: 50 BTC, 210,000-block halvings TSC: 715 TSC, 715-block epoch, reward x 3/5, capped epoch length
Bitcoin baseline
50 BTC reward, 210,000-block halvings, exact integer total of 20,999,999.97690000 BTC.
TensorCash curve
Initial reward 715 TSC, first epoch 715 blocks, reward decays by 3/5 per epoch.
Bootstrap logic
More benefit early, when the network needs miners, operators, and inference capacity.
Long tail
Epoch lengths double to a 732,160-block cap; the subsidy reaches zero after 48 epochs.