module module high

`IndisputableMonolith.Unification.RecognitionBandwidth`

RecognitionBandwidth fixes one complete recognition cycle to eight fundamental ticks as the minimal processing interval. It supplies the temporal granularity and bandwidth function used in saturation, black-hole, and consciousness models. The module consists of definitions for the eight-tick cadence together with positivity, monotonicity, and linearity lemmas on the bandwidth derived from holographic bits over cost.

claimOne full recognition cycle satisfies $T=8$ ticks. Bandwidth is $B=N_h/C$ where $N_h$ is the holographic bit count from the boundary area and $C$ is the recognition cost per cycle.

background

The module rests on the fundamental tick $τ_0=1$ from Constants and the holographic bound derived from ledger projection, which limits information content to boundary area rather than volume. It introduces the eight-tick cadence as the period of a complete recognition event and defines bandwidth via the ratio of holographic bits to cost, consistent with the Boltzmann analog obtained from ledger bit cost.

proof idea

This is a definition module, no proofs. It states the eight-tick cadence, proves positivity and monotonicity of bandwidth, and records the equality bandwidth equals holographic bits over cost.

why it matters in Recognition Science

This module supplies the bandwidth primitive required by BandwidthSaturation to derive ILG gravity from recognition throughput limits, by BlackHoleBandwidth for the maximal saturation case, by ConsciousnessBandwidth for the holographic constraint on conscious extent, and by CriticalRecognitionLoading for the load-ratio control variable.

scope and limits

Does not derive the numerical value of the Boltzmann constant.
Does not compute bandwidth for concrete physical systems.
Does not incorporate multi-cycle batching or time kernels.
Does not address temperature-energy relations beyond basic cost.

used by (4)

From the project-wide theorem graph. These declarations reference this one in their body.

IndisputableMonolith.Unification.BandwidthSaturation module_import
IndisputableMonolith.Unification.BlackHoleBandwidth module_import
IndisputableMonolith.Unification.ConsciousnessBandwidth module_import
IndisputableMonolith.Unification.CriticalRecognitionLoading module_import

depends on (5)

Lean names referenced from this declaration's body.

IndisputableMonolith.Constants module_import
IndisputableMonolith.Constants.BoltzmannConstant module_import
IndisputableMonolith.Constants.ILG module_import
IndisputableMonolith.Cost module_import
IndisputableMonolith.Quantum.HolographicBound module_import

declarations in this module (20)

def eightTickCadence L48
theorem eightTickCadence_pos L50
theorem eightTickCadence_eq L54
def bandwidth L74
theorem planckArea_pos L78
theorem bandwidth_denom_pos L83
theorem bandwidth_pos L93
theorem bandwidth_pos' L97
theorem bandwidth_monotone L101
theorem bandwidth_linear L107
def holographicBits L115
theorem bandwidth_eq_bits_over_cost L119
theorem bandwidth_times_cost_eq_rate L126
theorem Clag_eq_phi_neg5 L136
theorem alpha_locked_in_unit L141
def demandedRate L154
theorem demandedRate_pos L157
def IsSaturated L167
def IsSubSaturated L171
theorem saturated_or_sub L175