Free Bonding Curve Calculator
Bonding Curve Stress Tester
Model how linear, quadratic, and cubic curves react to buy pressure, panic exits, and reserve depletion - before you launch.
Interactive Simulator
Stress your curve before the market does
See when a steep curve becomes easy to move with relatively little capital.
Watch how reserve backing and steepness change slippage and exit risk.
Scenario ledger
Supply and reserve impact per wave| Wave | Action | Supply | Spot price | Cash flow |
|---|
Internal reading
Bonding curves fail through system behavior, not just formulas
Pair this tool with exploit reasoning. If your curve depends on onchain price references, study oracle manipulation attacks. If your launch can be pushed around by temporary capital, review flash loan attack mechanics. If buyers rely on loose slippage, revisit sandwich attack behavior.
When to escalate
Use this as a pre-audit filter
Extreme price jumps, repeated slippage breaches, or thin reserve coverage are signs your launch assumptions need a deeper design review and a full contract audit before deployment.
FAQ
Bonding curve stress testing questions
What is a bonding curve stress tester?
A bonding curve calculator that goes beyond a single spot-price estimate. It models how repeated buy and sell waves change execution price, reserve backing, and exit risk.
Why do quadratic and cubic curves deserve more caution?
They become more convex as supply expands - modest demand drives large price jumps, attracting momentum but making reversals more violent. This is where many bonding curve exploit discussions start.
How should I use this in a review?
Run realistic and adversarial scenarios. Test normal launch demand, hype-driven demand, and post-hype exits. If the output looks brittle, document it as a design risk before code reaches mainnet.
Is this only for crypto founders?
No. Auditors, tokenomics researchers, and protocol designers all use it as a quick reasoning aid before deeper simulations or code-level review.