CHIP-2023-04 Adaptive Blocksize Limit Algorithm for Bitcoin Cash 比特现金的自适应区块大小限制算法(I...
where: 其中:
y stands for block size limit; n stands for block height; y 代表块大小限制;
ε (epsilon) is the "control function"; n 代表块高度;
β (beta) is the "elastic buffer function"; n0, ε0, and β0 are initialization values; ε (epsilon) 是“控制函数”; β (beta) 是“弹性缓冲函数”;n0、ε0 和 β0 是初始化值;
x stands for mined block size; x 代表挖出的块大小;
γ (gamma) is the control function's "forget factor". This controls the maximum per-block rate of the adjustment. The greater the value the greater the response to a single block's size;γ (gamma) 是控制函数的“遗忘因子”。 这控制了每个块的最大调整速率。 值越大,对单个块大小的响应越大;
ζ (zeta) is the control function's "asymmetry factor". This controls the difference between maximum increase and decrease rates;
θ (theta) is the elastic buffer decay rate. With this, the buffer will be reduced with each step when geared growth rate of the control function is less than the decay rate;ζ (zeta) 是控制函数的“不对称因子”。 这控制了增加和减少速率之间的差异; θ (theta) 是弹性缓冲衰减率。有了这个,当控制函数的增长速率低于衰减率时,缓冲区将在每一步中减少;
δ (delta) is the elastic buffer "gearing ratio". With this, growth rate of the elastic buffer is geared to growth rate of the control function. δ (delta) 是弹性缓冲的“传动比”。 有了这个,弹性缓冲的增长速率将与控制函数的增长速率相匹配。