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SILMA STS Arabic Embedding Model 0.1

This is a sentence-transformers model finetuned from silma-ai/silma-embeddding-matryoshka-0.1. It maps sentences & paragraphs to a 768-dimensional dense vector space and can be used for semantic textual similarity, semantic search, paraphrase mining, text classification, clustering, and more.

Model Details

Model Description

Model Type: Sentence Transformer
Base model: aubmindlab/bert-base-arabertv02
Maximum Sequence Length: 512 tokens
Output Dimensionality: 768 tokens
Similarity Function: Cosine Similarity

Usage

Direct Usage (Sentence Transformers)

First install the Sentence Transformers library:

pip install -U sentence-transformers

Then load the model

from sentence_transformers import SentenceTransformer
from sentence_transformers.util import cos_sim

model = SentenceTransformer("silma-ai/silma-embeddding-sts-0.1")

Samples

[+] Short Sentence Similarity

Arabic

query = "الطقس اليوم مشمس"
sentence_1 = "الجو اليوم كان مشمسًا ورائعًا"
sentence_2 = "الطقس اليوم غائم"

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.42602288722991943
# sentence_2_similarity: 0.10798501968383789
# =======

English

query = "The weather is sunny today"
sentence_1 = "The morning was bright and sunny"
sentence_2 = "it is too cloudy today"

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.5796191692352295
# sentence_2_similarity: 0.21948376297950745
# =======

[+] Long Sentence Similarity

Arabic

query = "الكتاب يتحدث عن أهمية الذكاء الاصطناعي في تطوير المجتمعات الحديثة"
sentence_1 = "في هذا الكتاب، يناقش الكاتب كيف يمكن للتكنولوجيا أن تغير العالم"
sentence_2 = "الكاتب يتحدث عن أساليب الطبخ التقليدية في دول البحر الأبيض المتوسط"

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.5725120306015015
# sentence_2_similarity: 0.22617210447788239
# =======

English

query = "China said on Saturday it would issue special bonds to help its sputtering economy, signalling a spending spree to bolster banks"
sentence_1 = "The Chinese government announced plans to release special bonds aimed at supporting its struggling economy and stabilizing the banking sector."
sentence_2 = "Several countries are preparing for a global technology summit to discuss advancements in bolster global banks."

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.6438770294189453
# sentence_2_similarity: 0.4720292389392853
# =======

[+] Question to Paragraph Matching

Arabic

query = "ما هي فوائد ممارسة الرياضة؟"
sentence_1 = "ممارسة الرياضة بشكل منتظم تساعد على تحسين الصحة العامة واللياقة البدنية"
sentence_2 = "تعليم الأطفال في سن مبكرة يساعدهم على تطوير المهارات العقلية بسرعة"

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.6058318614959717
# sentence_2_similarity: 0.006831036880612373
# =======

English

query = "What are the benefits of exercising?"
sentence_1 = "Regular exercise helps improve overall health and physical fitness"
sentence_2 = "Teaching children at an early age helps them develop cognitive skills quickly"

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.3593001365661621
# sentence_2_similarity: 0.06493218243122101
# =======

[+] Message to Intent-Name Mapping

Arabic

query = "أرغب في حجز تذكرة طيران من دبي الى القاهرة يوم الثلاثاء القادم"
sentence_1 = "حجز رحلة"
sentence_2 = "إلغاء حجز"

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.4646468162536621
# sentence_2_similarity: 0.19563665986061096
# =======

English

query = "Please send an email to all of the managers"
sentence_1 = "send email"
sentence_2 = "read inbox emails"

query_embedding = model.encode(query)

print("sentence_1_similarity:", cos_sim(query_embedding, model.encode(sentence_1))[0][0].tolist())
print("sentence_2_similarity:", cos_sim(query_embedding, model.encode(sentence_2))[0][0].tolist())

# ======= Output
# sentence_1_similarity: 0.6485046744346619
# sentence_2_similarity: 0.43906497955322266
# =======

Evaluation

Metrics

Semantic Similarity

Dataset: MTEB STS17 (ar-ar) source
Evaluated with EmbeddingSimilarityEvaluator

Metric	Value
pearson_cosine	0.8515
spearman_cosine	0.8559
pearson_manhattan	0.8220
spearman_manhattan	0.8397
pearson_euclidean	0.8231
spearman_euclidean	0.8444
pearson_dot	0.8515
spearman_dot	0.8557

Training Details

This model was fine-tuned via 2 phases:

Phase 1:

In phase 1, we curated a dataset silma-ai/silma-arabic-triplets-dataset-v1.0 which contains more than 2.25M records of (anchor, positive and negative) Arabic/English samples. Only the first 600 samples were taken to be the eval dataset, while the rest were used for fine-tuning.

Phase 1 produces a finetuned Matryoshka model based on aubmindlab/bert-base-arabertv02 with the following hyperparameters:

per_device_train_batch_size: 250
per_device_eval_batch_size: 10
learning_rate: 1e-05
num_train_epochs: 3
bf16: True
dataloader_drop_last: True
optim: adamw_torch_fused
batch_sampler: no_duplicates

training script

Phase 2:

In phase 2, we curated a dataset silma-ai/silma-arabic-english-sts-dataset-v1.0 which contains more than 30k records of (sentence1, sentence2 and similarity-score) Arabic/English samples. Only the first 100 samples were taken to be the eval dataset, while the rest was used for fine-tuning.

Phase 2 produces a finetuned STS model based on the model from phase 1, with the following hyperparameters:

eval_strategy: steps
per_device_train_batch_size: 250
per_device_eval_batch_size: 10
learning_rate: 1e-06
num_train_epochs: 10
bf16: True
dataloader_drop_last: True
optim: adamw_torch_fused
batch_sampler: no_duplicates

training script

Framework Versions

Python: 3.10.14
Sentence Transformers: 3.2.0
Transformers: 4.45.2
PyTorch: 2.3.1
Accelerate: 1.0.1
Datasets: 3.0.1
Tokenizers: 0.20.1

Citation:

BibTeX:

@misc{silma2024embedding,
  author = {Abu Bakr Soliman, Karim Ouda, SILMA AI},
  title = {SILMA Embedding STS 0.1},
  year = {2024},
  publisher = {Hugging Face},
  howpublished = {\url{https://huggingface.co/silma-ai/silma-embeddding-sts-0.1}},
}

APA:

Abu Bakr Soliman, Karim Ouda, SILMA AI. (2024). SILMA Embedding STS 0.1 [Model]. Hugging Face. https://huggingface.co/silma-ai/silma-embeddding-sts-0.1

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Safetensors

Model size

135M params

Tensor type

F32

Inference Examples

Sentence Similarity

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Model tree for silma-ai/silma-embeddding-sts-v0.1

Base model

aubmindlab/bert-base-arabertv02

Finetuned

silma-ai/silma-embeddding-matryoshka-v0.1

Finetuned

(1)

this model

Collection including silma-ai/silma-embeddding-sts-v0.1

Arabic Embedding Models

Collection

A collection of highly efficient and lightweight Arabic Embedding Models developed by SILMA AI, featuring innovative Matryoshka-based models. • 2 items • Updated 2 days ago

Evaluation results

accuracy on MTEB MassiveIntentClassification (ar)
test set self-reported

56.490
f1 on MTEB MassiveIntentClassification (ar)
test set self-reported

54.053
f1_weighted on MTEB MassiveIntentClassification (ar)
test set self-reported

56.742
main_score on MTEB MassiveIntentClassification (ar)
test set self-reported

56.490
accuracy on MTEB MassiveIntentClassification (en)
test set self-reported

48.783
f1 on MTEB MassiveIntentClassification (en)
test set self-reported

47.560
f1_weighted on MTEB MassiveIntentClassification (en)
test set self-reported

48.980
main_score on MTEB MassiveIntentClassification (en)
test set self-reported

48.783
accuracy on MTEB MassiveIntentClassification (ar)
validation set self-reported

56.768
f1 on MTEB MassiveIntentClassification (ar)
validation set self-reported

53.964

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