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	---
	language: ast
	language_name: AST
	language_family: romance_iberian
	tags:
	- wikilangs
	- nlp
	- tokenizer
	- embeddings
	- n-gram
	- markov
	- wikipedia
	- monolingual
	- family-romance_iberian
	license: mit
	library_name: wikilangs
	pipeline_tag: feature-extraction
	datasets:
	- omarkamali/wikipedia-monthly
	dataset_info:
	name: wikipedia-monthly
	description: Monthly snapshots of Wikipedia articles across 300+ languages
	metrics:
	- name: best_compression_ratio
	type: compression
	value: 3.924
	- name: best_isotropy
	type: isotropy
	value: 0.7692
	- name: vocabulary_size
	type: vocab
	value: 654549
	generated: 2025-12-27
	---

	# AST - Wikilangs Models
	## Comprehensive Research Report & Full Ablation Study

	This repository contains NLP models trained and evaluated by Wikilangs, specifically on AST Wikipedia data.
	We analyze tokenizers, n-gram models, Markov chains, vocabulary statistics, and word embeddings.

	## 📋 Repository Contents

	### Models & Assets

	- Tokenizers (8k, 16k, 32k, 64k)
	- N-gram models (2, 3, 4-gram)
	- Markov chains (context of 1, 2, 3 and 4)
	- Subword N-gram and Markov chains
	- Embeddings in various sizes and dimensions
	- Language Vocabulary
	- Language Statistics
	![Performance Dashboard](visualizations/performance_dashboard.png)

	### Analysis and Evaluation

	- [1. Tokenizer Evaluation](#1-tokenizer-evaluation)
	- [2. N-gram Model Evaluation](#2-n-gram-model-evaluation)
	- [3. Markov Chain Evaluation](#3-markov-chain-evaluation)
	- [4. Vocabulary Analysis](#4-vocabulary-analysis)
	- [5. Word Embeddings Evaluation](#5-word-embeddings-evaluation)
	- [6. Summary & Recommendations](#6-summary--recommendations)
	- [Metrics Glossary](#appendix-metrics-glossary--interpretation-guide)
	- [Visualizations Index](#visualizations-index)

	---
	## 1. Tokenizer Evaluation

	![Tokenizer Compression](visualizations/tokenizer_compression.png)

	### Results

	\| Vocab Size \| Compression \| Avg Token Len \| UNK Rate \| Total Tokens \|
	\|------------\|-------------\|---------------\|----------\|--------------\|
	\| 8k \| 3.259x \| 3.22 \| 0.0290% \| 1,033,064 \|
	\| 16k \| 3.531x \| 3.48 \| 0.0315% \| 953,475 \|
	\| 32k \| 3.753x \| 3.70 \| 0.0334% \| 897,137 \|
	\| 64k \| 3.924x 🏆 \| 3.87 \| 0.0350% \| 858,173 \|

	### Tokenization Examples

	Below are sample sentences tokenized with each vocabulary size:

	Sample 1: `Fechos

	Personaxes importantes

	Referencies

	Enllaces esternos

	Categoría...`

	\| Vocab \| Tokens \| Count \|
	\|-------\|--------\|-------\|
	\| 8k \| `▁fechos ▁personaxes ▁importantes ▁referencies ▁enllaces ▁esternos ▁categoría : sieglu ▁viii ... (+4 more)` \| 14 \|
	\| 16k \| `▁fechos ▁personaxes ▁importantes ▁referencies ▁enllaces ▁esternos ▁categoría : sieglu ▁viii ... (+4 more)` \| 14 \|
	\| 32k \| `▁fechos ▁personaxes ▁importantes ▁referencies ▁enllaces ▁esternos ▁categoría : sieglu ▁viii ... (+4 more)` \| 14 \|
	\| 64k \| `▁fechos ▁personaxes ▁importantes ▁referencies ▁enllaces ▁esternos ▁categoría : sieglu ▁viii ... (+4 more)` \| 14 \|

	Sample 2: `Armental ye un llugar de la parroquia de Talarén nel conceyu asturianu de Navia....`

	\| Vocab \| Tokens \| Count \|
	\|-------\|--------\|-------\|
	\| 8k \| `▁ar mental ▁ye ▁un ▁llugar ▁de ▁la ▁parroquia ▁de ▁tal ... (+18 more)` \| 28 \|
	\| 16k \| `▁ar mental ▁ye ▁un ▁llugar ▁de ▁la ▁parroquia ▁de ▁tal ... (+18 more)` \| 28 \|
	\| 32k \| `▁ar mental ▁ye ▁un ▁llugar ▁de ▁la ▁parroquia ▁de ▁tal ... (+16 more)` \| 26 \|
	\| 64k \| `▁ar mental ▁ye ▁un ▁llugar ▁de ▁la ▁parroquia ▁de ▁tal ... (+16 more)` \| 26 \|

	Sample 3: `Fechos
	-

	Nacencies
	-

	Muertes
	-

	Referencies

	Enllaces esternos
	...`

	\| Vocab \| Tokens \| Count \|
	\|-------\|--------\|-------\|
	\| 8k \| `▁fechos ▁- ▁nacencies ▁- ▁muertes ▁- ▁referencies ▁enllaces ▁esternos ▁categoría ... (+7 more)` \| 17 \|
	\| 16k \| `▁fechos ▁- ▁nacencies ▁- ▁muertes ▁- ▁referencies ▁enllaces ▁esternos ▁categoría ... (+7 more)` \| 17 \|
	\| 32k \| `▁fechos ▁- ▁nacencies ▁- ▁muertes ▁- ▁referencies ▁enllaces ▁esternos ▁categoría ... (+7 more)` \| 17 \|
	\| 64k \| `▁fechos ▁- ▁nacencies ▁- ▁muertes ▁- ▁referencies ▁enllaces ▁esternos ▁categoría ... (+7 more)` \| 17 \|


	### Key Findings

	- Best Compression: 64k achieves 3.924x compression
	- Lowest UNK Rate: 8k with 0.0290% unknown tokens
	- Trade-off: Larger vocabularies improve compression but increase model size
	- Recommendation: 32k vocabulary provides optimal balance for production use

	---
	## 2. N-gram Model Evaluation

	![N-gram Perplexity](visualizations/ngram_perplexity.png)

	![N-gram Coverage](visualizations/ngram_coverage.png)

	### Results

	\| N-gram \| Perplexity \| Entropy \| Unique N-grams \| Top-100 Coverage \| Top-1000 Coverage \|
	\|--------\|------------\|---------\|----------------\|------------------\|-------------------\|
	\| 2-gram \| 95,540 🏆 \| 16.54 \| 1,568,799 \| 13.6% \| 26.9% \|
	\| 2-gram \| 311 🏆 \| 8.28 \| 23,389 \| 65.5% \| 98.4% \|
	\| 3-gram \| 573,984 \| 19.13 \| 3,974,147 \| 5.1% \| 13.4% \|
	\| 3-gram \| 2,766 \| 11.43 \| 195,082 \| 25.8% \| 68.5% \|
	\| 4-gram \| 1,609,317 \| 20.62 \| 7,247,181 \| 3.9% \| 9.3% \|
	\| 4-gram \| 16,954 \| 14.05 \| 1,178,742 \| 12.7% \| 37.0% \|

	### Top 5 N-grams by Size

	2-grams:

	\| Rank \| N-gram \| Count \|
	\|------\|--------\|-------\|
	\| 1 \| `d '` \| 1,196,313 \|
	\| 2 \| `de la` \| 875,667 \|
	\| 3 \| `' l` \| 534,478 \|
	\| 4 \| `\| \|` \| 438,858 \|
	\| 5 \| `l '` \| 403,691 \|

	3-grams:

	\| Rank \| N-gram \| Count \|
	\|------\|--------\|-------\|
	\| 1 \| `\| - \|` \| 128,285 \|
	\| 2 \| `referencies enllaces esternos` \| 104,162 \|
	\| 3 \| `- \| \|` \| 89,758 \|
	\| 4 \| `- - -` \| 81,514 \|
	\| 5 \| `d ' un` \| 69,529 \|

	4-grams:

	\| Rank \| N-gram \| Count \|
	\|------\|--------\|-------\|
	\| 1 \| `- - - -` \| 69,470 \|
	\| 2 \| `enllaces esternos categoría :` \| 63,833 \|
	\| 3 \| `referencies enllaces esternos categoría` \| 60,665 \|
	\| 4 \| `. referencies enllaces esternos` \| 51,144 \|
	\| 5 \| `\| linear \| -` \| 50,481 \|


	### Key Findings

	- Best Perplexity: 2-gram with 311
	- Entropy Trend: Decreases with larger n-grams (more predictable)
	- Coverage: Top-1000 patterns cover ~37% of corpus
	- Recommendation: 4-gram or 5-gram for best predictive performance

	---
	## 3. Markov Chain Evaluation

	![Markov Entropy](visualizations/markov_entropy.png)

	![Markov Branching](visualizations/markov_branching.png)

	### Results

	\| Context \| Avg Entropy \| Perplexity \| Branching Factor \| Unique Contexts \| Predictability \|
	\|---------\|-------------\|------------\|------------------\|-----------------\|----------------\|
	\| 1 \| 0.7150 \| 1.641 \| 8.69 \| 1,669,949 \| 28.5% \|
	\| 1 \| 1.5193 \| 2.866 \| 10.68 \| 8,875 \| 0.0% \|
	\| 2 \| 0.4611 \| 1.377 \| 2.90 \| 14,499,551 \| 53.9% \|
	\| 2 \| 0.7271 \| 1.655 \| 4.90 \| 94,766 \| 27.3% \|
	\| 3 \| 0.2234 \| 1.167 \| 1.58 \| 42,031,886 \| 77.7% \|
	\| 3 \| 0.8068 \| 1.749 \| 4.59 \| 464,259 \| 19.3% \|
	\| 4 \| 0.1062 🏆 \| 1.076 \| 1.22 \| 66,322,442 \| 89.4% \|
	\| 4 \| 0.7182 🏆 \| 1.645 \| 3.49 \| 2,131,889 \| 28.2% \|

	### Generated Text Samples

	Below are text samples generated from each Markov chain model:

	Context Size 1:

	1. `de gossip girl play ye como xenofonte en dussel , y el 7 d ' amuesa`
	2. `, pero la botánica referencies ver , collaboró en valdivia . mientres la humanidá al chinu`
	3. `. ( 2 ) - ḥḏ horusmuriu blancumennefermenfismit rahina . isbn 0 british lion , yera`

	Context Size 2:

	1. `d ' ellos yera detectáu polos enemigos . shiva prakash ( 1997 ) , nel conceyu sevillanu`
	2. `de la litografía y l ' ala posterior : chronica majora : una « inocente ya inconsciente`
	3. `' l xeneral prats tamién pudo ante fernando verdasco david ferrer por 6 - 2 \| ríu`

	Context Size 3:

	1. `\| - \| 38378 - \| \| 1997 tb18 \| \| 4 \| align = right \| [`
	2. `referencies enllaces esternos categoría : montserrat`
	3. `- \| \| 2001 sd35 \| \| 16 \| \| 592 \| \| < small > 1911 <`

	Context Size 4:

	1. `- - - - - - - - - - - - - - - - - - -`
	2. `enllaces esternos categoría : pintores de parís categoría : sabios de la torre eiffel , los nacional...`
	3. `referencies enllaces esternos categoría : comuñes de nord`


	### Key Findings

	- Best Predictability: Context-4 with 89.4% predictability
	- Branching Factor: Decreases with context size (more deterministic)
	- Memory Trade-off: Larger contexts require more storage (2,131,889 contexts)
	- Recommendation: Context-3 or Context-4 for text generation

	---
	## 4. Vocabulary Analysis

	![Zipf's Law](visualizations/zipf_law.png)

	![Top Words](visualizations/top20_words.png)

	![Coverage Curve](visualizations/vocab_coverage.png)

	### Statistics

	\| Metric \| Value \|
	\|--------\|-------\|
	\| Vocabulary Size \| 654,549 \|
	\| Total Tokens \| 80,184,102 \|
	\| Mean Frequency \| 122.50 \|
	\| Median Frequency \| 4 \|
	\| Frequency Std Dev \| 8722.95 \|

	### Most Common Words

	\| Rank \| Word \| Frequency \|
	\|------\|------\|-----------\|
	\| 1 \| de \| 5,075,921 \|
	\| 2 \| la \| 2,521,840 \|
	\| 3 \| y \| 2,071,360 \|
	\| 4 \| d \| 1,229,266 \|
	\| 5 \| a \| 1,176,335 \|
	\| 6 \| del \| 1,090,980 \|
	\| 7 \| en \| 1,071,173 \|
	\| 8 \| que \| 1,020,518 \|
	\| 9 \| los \| 971,499 \|
	\| 10 \| l \| 968,352 \|

	### Least Common Words (from vocabulary)

	\| Rank \| Word \| Frequency \|
	\|------\|------\|-----------\|
	\| 1 \| leptafeke \| 2 \|
	\| 2 \| haua \| 2 \|
	\| 3 \| küzdoblani \| 2 \|
	\| 4 \| contrarrellatu \| 2 \|
	\| 5 \| semilleru \| 2 \|
	\| 6 \| bisterca \| 2 \|
	\| 7 \| šafarsko \| 2 \|
	\| 8 \| vyfalu \| 2 \|
	\| 9 \| ribich \| 2 \|
	\| 10 \| lacos \| 2 \|

	### Zipf's Law Analysis

	\| Metric \| Value \|
	\|--------\|-------\|
	\| Zipf Coefficient \| 1.0077 \|
	\| R² (Goodness of Fit) \| 0.995140 \|
	\| Adherence Quality \| excellent \|

	### Coverage Analysis

	\| Top N Words \| Coverage \|
	\|-------------\|----------\|
	\| Top 100 \| 40.0% \|
	\| Top 1,000 \| 60.0% \|
	\| Top 5,000 \| 76.4% \|
	\| Top 10,000 \| 82.7% \|

	### Key Findings

	- Zipf Compliance: R²=0.9951 indicates excellent adherence to Zipf's law
	- High Frequency Dominance: Top 100 words cover 40.0% of corpus
	- Long Tail: 644,549 words needed for remaining 17.3% coverage

	---
	## 5. Word Embeddings Evaluation

	![Embedding Isotropy](visualizations/embedding_isotropy.png)

	![Similarity Matrix](visualizations/embedding_similarity.png)

	![t-SNE Words](visualizations/tsne_words.png)

	![t-SNE Sentences](visualizations/tsne_sentences.png)

	### Model Comparison

	\| Model \| Vocab Size \| Dimension \| Avg Norm \| Std Norm \| Isotropy \|
	\|-------\|------------\|-----------\|----------\|----------\|----------\|
	\| mono_32d \| 510,373 \| 32 \| 3.008 \| 0.935 \| 0.7692 🏆 \|
	\| mono_64d \| 510,373 \| 64 \| 3.395 \| 0.938 \| 0.7616 \|
	\| mono_128d \| 510,373 \| 128 \| 3.842 \| 0.965 \| 0.6988 \|
	\| embeddings_enhanced \| 0 \| 0 \| 0.000 \| 0.000 \| 0.0000 \|

	### Key Findings

	- Best Isotropy: mono_32d with 0.7692 (more uniform distribution)
	- Dimension Trade-off: Higher dimensions capture more semantics but reduce isotropy
	- Vocabulary Coverage: All models cover 510,373 words
	- Recommendation: 100d for balanced semantic capture and efficiency

	---
	## 6. Summary & Recommendations

	![Performance Dashboard](visualizations/performance_dashboard.png)

	### Production Recommendations

	\| Component \| Recommended \| Rationale \|
	\|-----------\|-------------\|-----------\|
	\| Tokenizer \| 32k BPE \| Best compression (3.92x) with low UNK rate \|
	\| N-gram \| 5-gram \| Lowest perplexity (311) \|
	\| Markov \| Context-4 \| Highest predictability (89.4%) \|
	\| Embeddings \| 100d \| Balanced semantic capture and isotropy \|

	---
	## Appendix: Metrics Glossary & Interpretation Guide

	This section provides definitions, intuitions, and guidance for interpreting the metrics used throughout this report.

	### Tokenizer Metrics

	Compression Ratio
	> Definition: The ratio of characters to tokens (chars/token). Measures how efficiently the tokenizer represents text.
	>
	> Intuition: Higher compression means fewer tokens needed to represent the same text, reducing sequence lengths for downstream models. A 3x compression means ~3 characters per token on average.
	>
	> What to seek: Higher is generally better for efficiency, but extremely high compression may indicate overly aggressive merging that loses morphological information.

	Average Token Length (Fertility)
	> Definition: Mean number of characters per token produced by the tokenizer.
	>
	> Intuition: Reflects the granularity of tokenization. Longer tokens capture more context but may struggle with rare words; shorter tokens are more flexible but increase sequence length.
	>
	> What to seek: Balance between 2-5 characters for most languages. Arabic/morphologically-rich languages may benefit from slightly longer tokens.

	Unknown Token Rate (OOV Rate)
	> Definition: Percentage of tokens that map to the unknown/UNK token, indicating words the tokenizer cannot represent.
	>
	> Intuition: Lower OOV means better vocabulary coverage. High OOV indicates the tokenizer encounters many unseen character sequences.
	>
	> What to seek: Below 1% is excellent; below 5% is acceptable. BPE tokenizers typically achieve very low OOV due to subword fallback.

	### N-gram Model Metrics

	Perplexity
	> Definition: Measures how "surprised" the model is by test data. Mathematically: 2^(cross-entropy). Lower values indicate better prediction.
	>
	> Intuition: If perplexity is 100, the model is as uncertain as if choosing uniformly among 100 options at each step. A perplexity of 10 means effectively choosing among 10 equally likely options.
	>
	> What to seek: Lower is better. Perplexity decreases with larger n-grams (more context). Values vary widely by language and corpus size.

	Entropy
	> Definition: Average information content (in bits) needed to encode the next token given the context. Related to perplexity: perplexity = 2^entropy.
	>
	> Intuition: High entropy means high uncertainty/randomness; low entropy means predictable patterns. Natural language typically has entropy between 1-4 bits per character.
	>
	> What to seek: Lower entropy indicates more predictable text patterns. Entropy should decrease as n-gram size increases.

	Coverage (Top-K)
	> Definition: Percentage of corpus occurrences explained by the top K most frequent n-grams.
	>
	> Intuition: High coverage with few patterns indicates repetitive/formulaic text; low coverage suggests diverse vocabulary usage.
	>
	> What to seek: Depends on use case. For language modeling, moderate coverage (40-60% with top-1000) is typical for natural text.

	### Markov Chain Metrics

	Average Entropy
	> Definition: Mean entropy across all contexts, measuring average uncertainty in next-word prediction.
	>
	> Intuition: Lower entropy means the model is more confident about what comes next. Context-1 has high entropy (many possible next words); Context-4 has low entropy (few likely continuations).
	>
	> What to seek: Decreasing entropy with larger context sizes. Very low entropy (<0.1) indicates highly deterministic transitions.

	Branching Factor
	> Definition: Average number of unique next tokens observed for each context.
	>
	> Intuition: High branching = many possible continuations (flexible but uncertain); low branching = few options (predictable but potentially repetitive).
	>
	> What to seek: Branching factor should decrease with context size. Values near 1.0 indicate nearly deterministic chains.

	Predictability
	> Definition: Derived metric: (1 - normalized_entropy) × 100%. Indicates how deterministic the model's predictions are.
	>
	> Intuition: 100% predictability means the next word is always certain; 0% means completely random. Real text falls between these extremes.
	>
	> What to seek: Higher predictability for text generation quality, but too high (>98%) may produce repetitive output.

	### Vocabulary & Zipf's Law Metrics

	Zipf's Coefficient
	> Definition: The slope of the log-log plot of word frequency vs. rank. Zipf's law predicts this should be approximately -1.
	>
	> Intuition: A coefficient near -1 indicates the corpus follows natural language patterns where a few words are very common and most words are rare.
	>
	> What to seek: Values between -0.8 and -1.2 indicate healthy natural language distribution. Deviations may suggest domain-specific or artificial text.

	R² (Coefficient of Determination)
	> Definition: Measures how well the linear fit explains the frequency-rank relationship. Ranges from 0 to 1.
	>
	> Intuition: R² near 1.0 means the data closely follows Zipf's law; lower values indicate deviation from expected word frequency patterns.
	>
	> What to seek: R² > 0.95 is excellent; > 0.99 indicates near-perfect Zipf adherence typical of large natural corpora.

	Vocabulary Coverage
	> Definition: Cumulative percentage of corpus tokens accounted for by the top N words.
	>
	> Intuition: Shows how concentrated word usage is. If top-100 words cover 50% of text, the corpus relies heavily on common words.
	>
	> What to seek: Top-100 covering 30-50% is typical. Higher coverage indicates more repetitive text; lower suggests richer vocabulary.

	### Word Embedding Metrics

	Isotropy
	> Definition: Measures how uniformly distributed vectors are in the embedding space. Computed as the ratio of minimum to maximum singular values.
	>
	> Intuition: High isotropy (near 1.0) means vectors spread evenly in all directions; low isotropy means vectors cluster in certain directions, reducing expressiveness.
	>
	> What to seek: Higher isotropy generally indicates better-quality embeddings. Values > 0.1 are reasonable; > 0.3 is good. Lower-dimensional embeddings tend to have higher isotropy.

	Average Norm
	> Definition: Mean magnitude (L2 norm) of word vectors in the embedding space.
	>
	> Intuition: Indicates the typical "length" of vectors. Consistent norms suggest stable training; high variance may indicate some words are undertrained.
	>
	> What to seek: Relatively consistent norms across models. The absolute value matters less than consistency (low std deviation).

	Cosine Similarity
	> Definition: Measures angular similarity between vectors, ranging from -1 (opposite) to 1 (identical direction).
	>
	> Intuition: Words with similar meanings should have high cosine similarity. This is the standard metric for semantic relatedness in embeddings.
	>
	> What to seek: Semantically related words should score > 0.5; unrelated words should be near 0. Synonyms often score > 0.7.

	t-SNE Visualization
	> Definition: t-Distributed Stochastic Neighbor Embedding - a dimensionality reduction technique that preserves local structure for visualization.
	>
	> Intuition: Clusters in t-SNE plots indicate groups of semantically related words. Spread indicates vocabulary diversity; tight clusters suggest semantic coherence.
	>
	> What to seek: Meaningful clusters (e.g., numbers together, verbs together). Avoid over-interpreting distances - t-SNE preserves local, not global, structure.

	### General Interpretation Guidelines

	1. Compare within model families: Metrics are most meaningful when comparing models of the same type (e.g., 8k vs 64k tokenizer).
	2. Consider trade-offs: Better performance on one metric often comes at the cost of another (e.g., compression vs. OOV rate).
	3. Context matters: Optimal values depend on downstream tasks. Text generation may prioritize different metrics than classification.
	4. Corpus influence: All metrics are influenced by corpus characteristics. Wikipedia text differs from social media or literature.
	5. Language-specific patterns: Morphologically rich languages (like Arabic) may show different optimal ranges than analytic languages.


	### Visualizations Index

	\| Visualization \| Description \|
	\|---------------\|-------------\|
	\| Tokenizer Compression \| Compression ratios by vocabulary size \|
	\| Tokenizer Fertility \| Average token length by vocabulary \|
	\| Tokenizer OOV \| Unknown token rates \|
	\| Tokenizer Total Tokens \| Total tokens by vocabulary \|
	\| N-gram Perplexity \| Perplexity by n-gram size \|
	\| N-gram Entropy \| Entropy by n-gram size \|
	\| N-gram Coverage \| Top pattern coverage \|
	\| N-gram Unique \| Unique n-gram counts \|
	\| Markov Entropy \| Entropy by context size \|
	\| Markov Branching \| Branching factor by context \|
	\| Markov Contexts \| Unique context counts \|
	\| Zipf's Law \| Frequency-rank distribution with fit \|
	\| Vocab Frequency \| Word frequency distribution \|
	\| Top 20 Words \| Most frequent words \|
	\| Vocab Coverage \| Cumulative coverage curve \|
	\| Embedding Isotropy \| Vector space uniformity \|
	\| Embedding Norms \| Vector magnitude distribution \|
	\| Embedding Similarity \| Word similarity heatmap \|
	\| Nearest Neighbors \| Similar words for key terms \|
	\| t-SNE Words \| 2D word embedding visualization \|
	\| t-SNE Sentences \| 2D sentence embedding visualization \|
	\| Position Encoding \| Encoding method comparison \|
	\| Model Sizes \| Storage requirements \|
	\| Performance Dashboard \| Comprehensive performance overview \|

	---
	## About This Project

	### Data Source

	Models trained on [wikipedia-monthly](https://huggingface.co/datasets/omarkamali/wikipedia-monthly) - a monthly snapshot of Wikipedia articles across 300+ languages.

	### Project

	A project by [Wikilangs](https://wikilangs.org) - Open-source NLP models for every Wikipedia language.

	### Maintainer

	[Omar Kamali](https://omarkamali.com) - [Omneity Labs](https://omneitylabs.com)

	### Citation

	If you use these models in your research, please cite:

	```bibtex
	@misc{wikilangs2025,
	author = {Kamali, Omar},
	title = {Wikilangs: Open NLP Models for Wikipedia Languages},
	year = {2025},
	publisher = {HuggingFace},
	url = {https://huggingface.co/wikilangs}
	institution = {Omneity Labs}
	}
	```

	### License

	MIT License - Free for academic and commercial use.

	### Links

	- 🌐 Website: [wikilangs.org](https://wikilangs.org)
	- 🤗 Models: [huggingface.co/wikilangs](https://huggingface.co/wikilangs)
	- 📊 Data: [wikipedia-monthly](https://huggingface.co/datasets/omarkamali/wikipedia-monthly)
	- 👤 Author: [Omar Kamali](https://huggingface.co/omarkamali)
	---
	Generated by Wikilangs Models Pipeline

	Report Date: 2025-12-27 20:35:27