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The Physics Ledger

Intelligence production is bounded by power: dI/dt ≤ P·D / (kB·T·ln 2). EnergyAI is run as a live experiment against that bound — every tool call an agent makes is metered in bits delivered and joules dissipated, and the ledger is public. This page is the record.

All-time ledger

Metered calls
6
since 6/10/2026
Useful bits (floor)
96
conservative decision-value accounting
Measured bits (ceiling)
6,576
deflate(payload)×8 — measured since 2026-07-05
Joules dissipated (est.)
1.2
25 W serving-power model
η_I — bits per joule
83.5
floor; measured ceiling 5,718.3

Against the Landauer limit (T = 300 K)

Landauer minimum
2.87e-21 J/bit
k_B · T · ln 2 — physics' floor price of a bit
Theoretical ceiling
3.48e+20 bits/J
no physical process can exceed this
Distance below the bound
18.6 orders
log₁₀(limit / η_I) — honest, not a proximity claim

Last 30 days, by tool

ToolCallsBitsJoules (est.)η_I (bits/J)
create_energy_assessment1010
check_incentives3480.1960
estimate_production1240960
get_node_score1240.1480

Methodology & caveats

Bracketed accounting (calibrated 2026-07-05): usefulBitsDelivered = conservative decision-value FLOOR (option-space-reduction constants, e.g. a 7-axis score ≈ 24 bits); measuredBits = deflate-compressed payload × 8, a measured CEILING on information transmitted per call. Headline η_I uses the floor.

joulesEstimate = wall-clock handler duration × 25 W (conservative server-power model). Hardware energy telemetry (RAPL / cloud sustainability APIs) replaces this when available.

  • η_I here covers serving energy only — it excludes model training, network transit, and client-side energy.
  • Bit accounting is intentionally conservative; real decision value per call is likely higher.
  • The Landauer comparison is a physical yardstick, not a claim of proximity: all practical computing sits many orders of magnitude below the bound.

Raw JSON: /api/v1/physics · Agents can call these tools free — see /agents.