Since Bitcoin’s inception, network
To improve on this, the team at Luxor Technologies developed a new method called the “rolling-block method,” which we describe in more detail in a recent report on forecasting Bitcoin mining difficulty.
It’s our hope that the rolling-block method for forecasting Bitcoin difficulty could provide miners, investors and hash rate traders a better tool to plan for difficulty changes
Luxor’s ‘Rolling Block Method’ For Forecasting Difficulty Adjustments
For this report, we developed a new time series forecasting method for upcoming difficulty adjustments, which improves accuracy at the beginning of the epoch compared to the constant block time method. We call this the succinctly-named “rolling-2,015-block, square-root-weighted, epoch-adjusted block time method” (or just “rolling-block method,” “adjusted-block-time method,” or “dual-epoch method”).
This new method improves upon the constant-block-time method early in the epoch by including block times from the previous 2,015 blocks, instead of just the blocks from the current epoch, which can skew forecasts early in the epoch for lack of data points. To account for the change in network difficulty between epochs, block times in the previous epoch are adjusted by the previous adjustment. And finally, we weight the average block times of the current epoch with the square of the proportion through the epoch. This final step is to diminish the impact of block times from the previous epoch as the current epoch progresses since these values do not actually determine the upcoming adjustment.
In the chart below, we can see through confidence intervals that the new method performed better than the old model at the beginning of the epoch up to block 650, but it performed slightly more poorly thereafter:
This forecast, of course, is only for projecting the next difficulty adjustment. What if we wanted to forecast, say, a year into the future?
Long-Term Bitcoin Mining Difficulty Forecasting
Luxor has developed models for long-term difficulty forecasting, as well, but these models are obviously much more complex, since they span a longer time frame.
Our model takes the bitcoin price, transaction fees and block subsidy as inputs on the demand side, and internal data on ASIC production estimates and operating cost distributions across the industry on the supply side. Using these inputs, the model produces an equilibrium hash rate, difficulty and hash price for 18-month periods.
The model structure reflects reality; hash rate, difficulty and hash price are endogenous to the system, not exogenous determinants of one another. We can conduct sensitivity analyses with the model across all inputs as well. For example, we can forecast an equilibrium hash rate, difficulty, and hash price across a range of bitcoin prices.
The charts below present projections from our updated hash rate supply and demand model. It provides estimates for flat, bull and bear bitcoin price scenarios.
Hash Rate, Difficulty And Hash Price Projection Updates
Hash rate is an emerging asset class and digital commodity market. Hash rate market participants like Bitcoin miners, hosters, lenders, investors and traders need access to the rigorous economic analysis and data available in other commodity markets.
Luxor will be committed to providing this analysis and forecasting on a quarterly basis. If you’d like to learn more, please visit this post.
This is a guest post by Colin Harper. Opinions expressed are entirely their own and do not necessarily reflect those of BTC Inc or Bitcoin Magazine.