Fixed-period BOND
A fixed-period BOND is a BOND token which expires after a fixed lifetime . This page details the design of the contracts which govern these tokens so their valuation is fair. The variables of payout rate, the expiration time, and the value of the BOND are dependent on each other. A DAO can choose two of the variables at will, then solve for the third to determine a fair contract using REP tokenomics theory.
The results and notation from the reputation tokenomics page are used here derive the formulas under the assumptions that a DAO's underlying REP tokens have infinite lifetime and when they have finite lifetime, under the further assumptions that the fees the DAO earns are constant.
Variable-period BONDs can be programmed with more complicated formulas as discussed here.
Overview
Suppose we wish to pay a developer a bounty worth , but we do so BONDs which have a fixed expiration date of . These fixed-period BONDs pay out the same as a REP token would by participating in the REP salary. Our goal is to find formulas determining how large we should set the expiration date given the rate of payout and the value.
When we pay the developer with newly minted BOND tokens, which dilutes the total REP in the DAO as fees are now shared with the tokens. The number of tokens determines the rate of payout, as a larger means a larger share of the REP salary. The exact rate of payout for BOND token is proportional to the incoming fees as .
Depending on whether the REP token design of the DAO has REP tokens with finite or infinite lifetime we get different formulas for how long the lifetime should be set for a fixed-period BOND.
Fixed-period BOND contracts under infinite-lifetime REP
Under the assumption that a DAO's REP lifetime is unbounded, , we wish to find the lifetime we should set for a BOND so that it will have a particular value. In this case the income stream of one BOND token is the same as one REP token
until the BOND expires. In general, we have The term represents all the BONDs which are active at time .
Now suppose you want to find the lifetime of a BOND that will give an expected payout of for tokens. We therefore hope to solve the equation
However, the terms and are complicated. is a stopping time, and is a stochastic process. Nevertheless, these terms behave relatively well, since we know the expected value will be an increasing function of , because is increasing, because . Simply taking the expected value
Now assume the rate of fees is constant and no further BOND tokens are minted during the lifetime . Then there is a minor change in the previous formulas
Further, we can find the present value of a single BOND token with arbitrary lifetime under the assumption of constant fees is
Therefore we have the following solutions:
Proposition 5: Assume the rate of fees is constant and that no further BOND tokens are minted during the lifetime .
Then BOND tokens will have payout by time at a payout rate of by setting the lifetime of a BOND to be
Again, assuming constant rate of fees, if you wish to pay a developer BOND tokens with arbitrary predetermined lifetime that will have expected present value worth solve the following equation for
Equation 7 has no elementary solution, but admits efficient solutions through standard numerical approximation algorithms. However, next we assume the REP tokens have finite lifetimes, which guarantees explicit elementary solutions.
Fixed-period BOND contracts under finite-lifetime REP
Next, we consider the situation when there is a finite lifetime on a DAO's REP tokens. We make the further assumptions of constant minting ratio and constant fees . We assume the BOND tokens are minted after the system reaches equilibrium. In this case, there are always of the REP tokens in the system. Then diluting the system with artificially minted BOND tokens at time which have the same lifetime gives
So
Proposition 6: Assume the rate of fees is constant, and the lifetime of all tokens (REP and BONDs) is . To pay a bounty with present value worth a DAO can mint BOND tokens where
Similar calculations can be made to get the formula for the number of BOND tokens when we choose the lifetime independently of the lifetime of the normal REP tokens.
Notice Proposition 6 gives a bound on the value of BOND tokens that can be minted based on the amount of fees the DAO is earning .
The major problem with these formulas is that the assumption that the rate of fees is constant is false and will often be very inaccurate, especially when a DAO is small. The above solutions make BONDs a gamble for both the developer and the DAO. If the rate of fees increases during the lifetime then the reward’s value will be greater than , and if the rate of fees decreases it will be worth less. However, as mentioned above, Jensen’s inequality gives us a bound, showing these results are conservative. Specifically, if the fees’ rate is not constant, but that the fees merely have expected value then these formulas will be generous to the BOND holder. If however, the actual values of the fees have an average less than this expected value, the BOND holders can still end with less than remuneration in present value.
Such uncertainties can be eliminated by more complicated contracts which have variable lifetimes.