SIMD-0550: Proposal to Double Disinflation

Authors: Lostin & 0xIchigo (Helius)

Summary

This SIMD proposes updating the inflation schedule by increasing the disinflation rate from -15% to -30%, effectively doubling the pace of inflation decline.

Our modeling indicates this will have the following effects:

• Reach the terminal inflation rate of 1.5% in 2.8 years (H1 2029) instead of 5.7 years (H1 2032)
• Reduce emissions by 18.9 million SOL ($1.51 billion) over six years
• Bring nominal staking yields from the current 5.84% to 4.34% in year one, 3.00% in year two, and 2.25% in year three.
• Have a muted impact on the number of profitable validators, with 2 validators out of 738 transitioning from profitable/breakeven to unprofitable in year one, 13 in year two, and 30 in year three.

Motivation

The core motivation for this proposal is to materially reduce Solana’s emissions schedule. Unlike SIMD-228, doubling the disinflation rate takes a fundamentally different approach to emissions reduction, with the following benefits:

Simplicity: Doubling the disinflation rate requires modifying a single parameter, making it the simplest possible protocol change that delivers a meaningful reduction in inflation. This adjustment is straightforward to implement and will not consume core developer resources. It carries a low risk of introducing bugs or unforeseen edge cases.

Because the adjustment is intuitive, it can be easily communicated to all stakeholder groups, including retail stakers, non-crypto native institutions, and regulators, regardless of their technical background.

Predictability: Unlike dynamic inflation mechanisms, the effects of doubling the disinflation rate are predictable and easy to model. This provides strong certainty around future inflation and emissions.

The adjustment gradually reduces emissions over many years, avoiding abrupt shocks to the network or the economic system. The original long-term inflation target (1.5%) remains unchanged; this proposal merely accelerates the path to that established equilibrium.

Supply Reduction: Our modeling indicates that, over the next 6 years, total supply would be approximately 2.6% lower (a reduction of 18.9 million SOL) than under the current inflation schedule. At today’s SOL price, this equates to roughly $1.51 billion in reduced emissions. Excessive emissions create persistent downward price pressure, distorting market signals and hindering fair price comparison.

Plugging the Leaky Bucket: High token inflation increases selling pressure, as some stakers, especially in certain jurisdictions, treat staking rewards as ordinary income and must sell a portion to cover taxes. Max Resnick’s analysis outlined a 17% “leaky bucket” tax on inflation (i.e., the gap between ordinary income and the 20% long-term capital gains rate). When governments, centralized exchanges, and custody providers take significant cuts of staking rewards, even small reductions in issuance can save the network hundreds of millions of dollars per year.

DeFi Usage: High inflation increases the opportunity cost of deploying SOL in DeFi, discouraging participation in lending, trading, and liquidity provision. The effect mirrors traditional finance: higher interest rates raise the risk-free rate and reduce borrowing and spending. In Solana’s case, the “risk-free rate” is the native staking yield.

Flexibility: This adjustment does not preclude the community from adopting more sophisticated, dynamic, or market-driven emission systems at a later date, should they be desired.

Why Double?

Any adjustment to the inflation schedule must be significant enough to materially reduce emissions, yet moderate enough to avoid introducing shocks to the system. Doubling the disinflation rate is a straightforward, balanced way to achieve these goals. The idea itself is not novel, having been independently proposed multiple times (e.g., 1, 2, 3, 4).

Detailed Design

Note: For simplicity, SIMD-0525: Shorter slot times is excluded from this analysis, as it should not affect Solana’s inflation schedule. The proposal increases slots_per_year to account for shorter slot times, keeping annual inflation unchanged.

Three parameters define Solana’s current inflation schedule:

• Initial Inflation Rate: 8%
• Disinflation Rate: -15%
• Long-term Inflation Rate: 1.5%

As of June 1st, the inflation rate stands at 3.82%. Under the current disinflation schedule of -15% per year, it will take approximately 5.7 years (H1 2032) to reach the terminal rate. Doubling the disinflation rate to -30% significantly shortens this timeline, bringing the network to its long-term terminal inflation rate in roughly 2.8 years (H1 2029). This assumes a 4.5-month lag period before any change is activated to account for the governance process and the Alpenglow update. This provides a reasonable timeline that addresses inflation concerns without introducing a systemic shock to an already shrinking validator set.

Yearly comparisons are provided below, with full numbers in this sheet.

inflationrate1280×720 27.6 KB

Side Note: The inflation schedule assumes 180 epochs per year, corresponding to the protocol’s target 400 ms slot time (approximately 2 days per epoch). In practice, however, actual slot times were significantly longer, particularly throughout 2021–2023, meaning epochs took much more than 2 days to complete. Only since epoch 718 has the network consistently hit ~2-day epochs.

As a result, the current inflation schedule is behind the intended timeline. When comparing actual epoch durations to the expected 2-day cadence, the network is currently running 276 days behind where inflation would be if epochs had matched the target duration.

Impact

Reduced Emissions

Doubling the disinflation rate results in an estimated total supply of 708.54 million SOL after six years, 18.9 million SOL lower (2.6%) than under the current inflation path. At current SOL prices, this is a $1.51 billion reduction in emissions. Following the implementation of SIMD-0096, the share of issuance offset by burned transaction base fees is negligible (see chart) and has been excluded from this analysis. Full numbers in this sheet.

totalsupplygrowth1280×720 13.2 KB

Nominal Staking Yields

Nominal staking yields were modeled under three plausible staking participation scenarios, 62%, 68%, and 74%, which reflect historical staking ranges (see chart). These modeled yields represent the baseline nominal returns of staking, excluding commissions or additional yield sources such as MEV and block rewards. They can be considered a worst-case scenario for staking yield in the event of very low network activity.

At the mid-range assumption of a 68% staking rate (which closely reflects current conditions), nominal staking yields decline by 0.91% after one year under a -15% disinflation scenario, and by about 1.5% under a -30% disinflation scenario. The table and chart below provide full year-over-year comparisons. Full numbers in this sheet.
Current Schedule

nominalyield1280×720 37.9 KB

Validator Break-Even Stake Requirement

Using the following code, we can model the effect of this proposal on validator profitability. We assume $18,000 USD/year—based on server costs, an average commission of 2.75%, a SOL price of $80 USD, and annual voting costs of 201 SOL (i.e., Alpenglow’s VAT * 182.5 epochs, rounded to the nearest whole number). Using the current inflation rate (i.e., 3.827%), we can make a simple model of this proposal’s effects on validator profitability.

Ceteris paribus, we find the following for the amount of SOL a validator needs to stake to break even under the following scenarios:

Eventually, according to our assumptions outlined above, all validators would need at least 698,000 SOL to break even in the long term due to the 1.5% inflation floor. The 4.5-month grace period before doubling the disinflation rate to -30% attains this break-even amount in 2.8 years, compared to the current schedule’s 5.7, without introducing the same intensity of shocks as immediately doubling the disinflation rate. This also offers a more straightforward implementation compared to linear or quadratic easing, which, over a two- to three-year period, yield similar results.

Validator Set Profitability

In this spreadsheet, we captured real mainnet rewards data from a recent epoch (976) via the Trillium API, then evaluated validator profitability by estimating operational costs and totaling revenue across three sources: Jito MEV tip commissions, block rewards, and inflation reward commissions.

We compared how the number of profitable validators would change as inflation rewards decrease over six years, under both the -15% and -30% disinflation schedules.

Outside the supermajority, 43.3%of validators have inflation commissions set to 0%.

With -30% disinflation, the number of validators who went from profitable or breakeven to unprofitable was 2 in year one, 13 in year two, and 30 in year three. After year three, the terminal rate is met, with no further changes in profitability.

Profitability at -15% disinflation

Profitability at -30% disinflation

Security Considerations

As staking yields decline, the network’s staking rate (i.e., currently 68%) could fall below levels considered optimal for security. However, this same dynamic would also play out under the current inflation schedule, since the terminal inflation rate of 1.5% remains unchanged. This proposal simply brings the network to the long-term rate sooner. Any challenges arising from lower yields would therefore need to be addressed regardless of whether the timeline is accelerated. The accelerated -30% disinflation schedule still takes multiple years to reach the terminal rate, providing ample time to make further adjustments if required.

Drawbacks

Previous governance discussions on modifying the inflation schedule became unusually heated and divisive, ultimately diverting attention away from more productive ecosystem work. With this proposal, we aim to avoid repeating those missteps and promote a more constructive and focused governance process.

SOL’s relatively high nominal yield has made it appealing to certain retail and traditional finance investors, some of whom characterize it as “a high-growth stock with a bond.” Increasing the disinflation rate will cause this yield advantage to diminish more quickly than it otherwise would.

Reduced emissions may lead to a contraction in the validator set among operators who depend on staking commissions to cover their operational expenses. As staking rewards decline, a subset of validators may find it increasingly difficult to remain economically viable, potentially affecting overall validator diversity.

Alternatives Considered

Directly Adjust the Inflation Rate

Even with a phase-in period, a substantial one-off reduction to the base inflation rate could introduce undesirable shocks to the system and create uncertainty for validators, stakers, and DeFi protocols that rely on staking yield.

Dynamic Issuance Curves

Dynamic, market-based systems introduce additional complexity into the protocol. They also have less predictability around future emissions and staking rewards. While SIMD-228 did receive majority support, it failed to meet the required governance threshold.

Timeline

This proposal is currently under discussion. It is expected to go to vote once the new governance tooling is ready.

Discussion

Active participation in discussions about this proposal is crucial. Discussions may also take place on the SIMD-0550 pull request and in the Solana Tech Discord.

References

Definitely support this proposal. Is there some place where it is being actively discussed?

Right here is the place for discussions

I strongly support this proposal and want to address the mentioned drawbacks:

1. Reducing yield will make SOL less attractive for income seeking investors
2. It may make smaller validators unprofitable
3. Inflation and yield motivates holders to stake

Introducion

Based on basic generally accepted economic theory long-term price direction is determined by structural supply (Inflation) and structural demand (Fees). If “Fees < Inflation” price depreciates over long term and vice versa.

When talking about long-term price depreciation I don´t mean the current general market dump which is a short-term or medium-term trading-driven event. I mean long-term inevitable supply / demand dynamics that will play out over many years or decades.

Making Solana network as a whole economically viable means getting to a state where “Fees > Inflation”. Therefore it is in the best interest of all stakeholders to support changes that reduce Inflation (like this proposal) or increase Fees (such as “Improving SOL tokenomics via a resource-based base fee #547”).

Yield

Until we get to the situation where “structural demand (Fees) > structural supply (Inflation)” which means the SOL price over long term is increasing, the yield is just a fiction. The real yield on asset, whose price is in systemic “supply > demand” driven long-term decline, is negative. I would rather have 1% yield on SOL that in 3 years will be $500, than 10% yield on SOL that in 3 years will be $50.

Small validators becoming unprofitable

I am definitely for decentralization and support of smaller validators. However if the current tragic “supply (Inflation) > demand (Fees)” dynamics keeps pushing price down over long term, not just small validators but big validators too may have problem. In my view, if Solana is to become economically sustainable as a whole, then reduction of Inflation and increase of Fees is not optional, it is absolutely necessary and unavoidable. There may be some temporary sacrifices, but the sooner it is done, the smaller the sacrifices will be.

Inflation and yields motivates holders to stake

There is also a popular argument that Inflation is effectively a tax on non-stakers, rewarding the people who stake and punishing those who don´t. And that Inflation motivates holders to stake. Well … I would urge to contemplate this: As long as “structural supply (Inflation) > structural demand (Fees)”, the SOL price is destined to depreciate over long term so Inflation does not motivate holders to stake, but to sell SOL and buy another asset with viable economic model. Inflation (in the situation when “Fees < Inflation” causes inevitable long-term price depreciation) would motivate holders to stake only if SOL was the only available asset on planet.

Conclusion

Any reduction of issuance helps to get closer to situation when “structural demand (Fees) > structural supply (Inflation)” and consequently to a state when SOL price appreciates over long-term so it makes sense to hold it as a long-term investment and it actually starts to make sense to talk about yield and whether Inflation motivates to stake.

Implementation of this proposal alone will not achieve the “Fees > Inflation” state, but it will help to move in this direction. I genuinely believe that Solana is one of very few decentralized public blockchains which will get there and become soon economically sustainable by combination of issuance reduction, transaction fees increase and burn, and more transactions being processed.