Dontopedia

Helmholtz

From Dontopedia, the open, paraconsistent wiki. (Last updated 2026-06-06.)

Helmholtz has 43 facts recorded in Dontopedia across 3 references.

43 facts·40 predicates·3 sources

Mostly:rdf:type(2), is ofdm(1), bpb degradation percentage from6 to3 layers(1)

Maturity scale raw canonical shape-checked rule-derived certified

Inbound mentions (13)

Other subjects in dontopedia point AT this entity as a value. These are inverse relationships — e.g. "X motherOf this subject" — and answer questions the forward facts can't. Grouped by predicate.

usesArchitectureUses Architecture(3)

comparesCompares(2)

belongsToBelongs to(1)

comparedWithCompared With(1)

hasMoreParamsThanHas More Params Than(1)

hasSpeedGreaterThanHas Speed Greater Than(1)

isOneWayToEncodeSameInformationAsIs One Way to Encode Same Information As(1)

losesSameAmountPerRemovedLayerAsLoses Same Amount Per Removed Layer As(1)

parameterDifferenceRelativeToParameter Difference Relative to(1)

simplerThanSimpler Than(1)

Other facts (41)

The long tail: predicates that appear too rarely to warrant their own section. Filter or scroll to find a specific one. Each row links to its source.

41 facts
PredicateValueRef
Rdf:typeModel Architecture[2]
Rdf:typeModel Architecture[3]
Is Ofdmnull[1]
Bpb Degradation Percentage From6 To3 Layers11.3%[1]
Wins on No Metric Testednull[1]
Does Not Degrade More Gracefully ThanV3 Model[1]
Has52 Percent Energy in High Frequency Modesnull[1]
Sp Entropy Range1.94-1.95[1]
R Global Range0.47-0.51[1]
Has Consistently Higher Sp Entropy ThanV3 Model[1]
Has Consistently Lower R Global ThanV3 Model[1]
Bpb Degradation From6 To3 Layers0.259[1]
Has Symmetric U Shape Encodingnull[1]
Is One Way to Encode Same Information AsV3 Model[1]
Has Worse Bpb at Lower Depthsnull[1]
Higher Throughput At6 Layersnull[1]
Has Speed77000[2]
Unit of Measurementtokens per second[2]
Configuration for QpskG=8 H=1[2]
Has Training Steps500[3]
Has Spectral Entropy Mean1.967[3]
Has Higher Spectral Entropy ThanV3 Model[3]
Has Fiber Multi Head Bandpasstrue[3]
Prevents Energy Concentration in Single Modetrue[3]
Spreads Coherence Uniformlytrue[3]
No Single Layer Dominates Coherencetrue[3]
Has Align Delta Mean0.318[3]
Has Fiber Sync Pipelinetrue[3]
Has Cascade Index Mean0.007[3]
Has Cascade Index Ratio to V32-3× higher[3]
Has Variance in Per Group Coherencetrue[3]
Has Group Dependent Dynamicstrue[3]
Has Bandpass Filteringtrue[3]
Synchronizes Groups at Different Ratestrue[3]
Desynchronates in Final Layertrue[3]
Desynchronates More Than V3 in Final Layertrue[3]
Has Core Spectral Differencedistributes energy broadly[3]
Has Higher Entropytrue[3]
Has Flatter Coherence Profiletrue[3]
Has Higher Cascade Indextrue[3]
Compared WithV3 Model[3]

Timeline

Timeline axis is valid_time — when each source says the fact was true in the world, not when Dontopedia learned about it. Retracted rows are kept for provenance; coloured stripes indicate the context kind.

isOfdmblah/watt-activation/part-455
null
bpbDegradationPercentageFrom6To3Layersblah/watt-activation/part-455
11.3%
winsOnNoMetricTestedblah/watt-activation/part-455
null
doesNotDegradeMoreGracefullyThanblah/watt-activation/part-455
ex:v3-model
has52PercentEnergyInHighFrequencyModesblah/watt-activation/part-455
null
spEntropyRangeblah/watt-activation/part-455
1.94-1.95
rGlobalRangeblah/watt-activation/part-455
0.47-0.51
hasConsistentlyHigherSpEntropyThanblah/watt-activation/part-455
ex:v3-model
hasConsistentlyLowerRGlobalThanblah/watt-activation/part-455
ex:v3-model
bpbDegradationFrom6To3Layersblah/watt-activation/part-455
0.259
hasSymmetricUShapeEncodingblah/watt-activation/part-455
null
isOneWayToEncodeSameInformationAsblah/watt-activation/part-455
ex:v3-model
hasWorseBpbAtLowerDepthsblah/watt-activation/part-455
null
higherThroughputAt6Layersblah/watt-activation/part-455
null
typeblah/watt-activation/390
ex:ModelArchitecture
labelblah/watt-activation/390
Helmholtz
hasSpeedblah/watt-activation/390
77000
unitOfMeasurementblah/watt-activation/390
tokens per second
configurationForQPSKblah/watt-activation/390
G=8 H=1
typeblah/watt-activation/450
ex:ModelArchitecture
labelblah/watt-activation/450
Helmholtz
hasTrainingStepsblah/watt-activation/450
500
hasSpectralEntropyMeanblah/watt-activation/450
1.967
hasHigherSpectralEntropyThanblah/watt-activation/450
ex:v3-model
hasFiberMultiHeadBandpassblah/watt-activation/450
true
preventsEnergyConcentrationInSingleModeblah/watt-activation/450
true
spreadsCoherenceUniformlyblah/watt-activation/450
true
noSingleLayerDominatesCoherenceblah/watt-activation/450
true
hasAlignDeltaMeanblah/watt-activation/450
0.318
hasFiberSyncPipelineblah/watt-activation/450
true
hasCascadeIndexMeanblah/watt-activation/450
0.007
hasCascadeIndexRatioToV3blah/watt-activation/450
2-3× higher
hasVarianceInPerGroupCoherenceblah/watt-activation/450
true
hasGroupDependentDynamicsblah/watt-activation/450
true
hasBandpassFilteringblah/watt-activation/450
true
synchronizesGroupsAtDifferentRatesblah/watt-activation/450
true
desynchronatesInFinalLayerblah/watt-activation/450
true
desynchronatesMoreThanV3InFinalLayerblah/watt-activation/450
true
hasCoreSpectralDifferenceblah/watt-activation/450
distributes energy broadly
hasHigherEntropyblah/watt-activation/450
true
hasFlatterCoherenceProfileblah/watt-activation/450
true
hasHigherCascadeIndexblah/watt-activation/450
true
comparedWithblah/watt-activation/450
ex:v3-model

References (3)

3 references
  1. [1]Part 45514 facts
    ctx:discord/blah/watt-activation/part-455
  2. [2]3905 facts
    ctx:discord/blah/watt-activation/390
    • full textwatt-activation-390
      text/plain2 KBdoc:agent/watt-activation-390/0969ed20-089d-4c11-9ef9-6650032ec4ea
      Show excerpt
      [2026-03-19 03:16] xenonfun: ⏺ Rotor model: 34,001 params (24 more than Helmholtz — the delta_proj weights). Works perfectly. [2026-03-19 03:26] xenonfun: ⏺ 227K tok/s — 25x speedup from the parallel scan. Was 9K with the sequential loop. N
  3. [3]45024 facts
    ctx:discord/blah/watt-activation/450
    • full textwatt-activation-450
      text/plain2 KBdoc:agent/watt-activation-450/652d4cdf-7420-4c67-925e-a554f75d0beb
      Show excerpt
      [2026-03-21 04:37] xenonfun: ## Spectral Characterization: v3 vs Helmholtz (per-layer, 500-step trained) ``` Key findings: 1. Helmholtz has higher spectral entropy in 5 of 6 layers (mean 1.967 vs 1.893). The fiber's multi-head bandpass

See also

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