Linear vs Kinked Interest Rate Models

Specific advantage: Interest rates change smoothly and predictably with utilization. This matters for risk modeling and user experience, as borrowers and lenders can forecast costs/returns without sudden jumps. Protocols like Aave V2 use this for core stablecoin pools.

Specific advantage: A single, continuous function reduces smart contract complexity and gas costs. This matters for new protocols or sidechains where audit surface and execution efficiency are critical. It's the standard model for many foundational DeFi blueprints.

Specific advantage: Introduces a sharp rate increase at a target utilization (e.g., 80-90%) to strongly incentivize liquidity replenishment. This matters for protecting protocol solvency during high demand, as seen in Compound's cToken design, helping to prevent liquidity crunches.

Specific advantage: The "kink" acts as a circuit breaker, making it superior for long-tail or volatile asset markets where liquidity is thinner. It creates a clear economic signal for liquidators and lenders, a strategy employed by Compound for non-stablecoin assets.

Simple, transparent pricing: Interest rates change at a constant slope (e.g., 0.02% per 1% utilization). This provides deterministic cost forecasting for institutional borrowers and risk models. Protocols like early Compound used this for stability.

Suboptimal rates at critical levels: At high utilization (>90%), rates may not rise sharply enough to incentivize repayments or new supply, increasing liquidation risk. At low utilization, rates may be too high, stifling borrowing demand and protocol revenue.

Aggressive rate spikes near capacity: Features a 'kink' point (e.g., 80% utilization) where the slope increases dramatically. This strongly incentivizes repayments and additional deposits to protect protocol solvency, a design used by Aave v2.

Introduces a discontinuity: The sharp rate jump can create volatile borrowing costs near the kink, complicating hedging strategies. Requires careful parameter tuning (kink point, slope ratios) and can lead to inefficient markets if set incorrectly.

Simple, transparent calculation: Interest rates change linearly with utilization. This provides clear, deterministic projections for borrowers and lenders, crucial for long-term financial planning in protocols like Aave V2 and Compound V2. It's easier to audit and model.

Encourages optimal capital deployment: Rates adjust smoothly across all utilization levels, incentivizing borrowers and lenders to naturally balance the pool. This avoids sharp discontinuities that can lead to liquidity fragmentation or "cliff-edge" behavior.

Explicit safety mechanism: Features a sharp rate increase (the "kink") at a target utilization (e.g., 80-90%). This strongly discourages borrowing past this threshold, protecting protocol solvency and lender funds during high demand, a core design in Compound V2's original model.

Clear penalty zone: Once past the kink, borrowers face a steep, predictable cost for scarce liquidity. This creates a stable, high-yield environment for lenders during periods of stress, making it attractive for conservative liquidity providers in volatile markets.

Lacks emergency brakes: A purely linear model may not react sharply enough to rapidly increasing utilization, potentially risking over-leverage and liquidity crunches if not combined with other safeguards like Aave's stability fee or Compound's reserve factors.

Can create liquidity cliffs: The sharp kink can lead to under-utilization of capital just below the threshold, as borrowers avoid crossing it. This can result in lower overall capital efficiency and more fragmented liquidity pools compared to smoother models.