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metadata
base_model: utter-project/EuroLLM-1.7B-Instruct
language:
  - en
  - de
  - es
  - fr
  - it
  - pt
  - pl
  - nl
  - tr
  - sv
  - cs
  - el
  - hu
  - ro
  - fi
  - uk
  - sl
  - sk
  - da
  - lt
  - lv
  - et
  - bg
  - 'no'
  - ca
  - hr
  - ga
  - mt
  - gl
  - zh
  - ru
  - ko
  - ja
  - ar
  - hi
license: apache-2.0
tags:
  - llama-cpp
  - gguf-my-repo

Triangle104/EuroLLM-1.7B-Instruct-Q8_0-GGUF

This model was converted to GGUF format from utter-project/EuroLLM-1.7B-Instruct using llama.cpp via the ggml.ai's GGUF-my-repo space. Refer to the original model card for more details on the model.


Model details:

This is the model card for the first instruction tuned model of the EuroLLM series: EuroLLM-1.7B-Instruct. You can also check the pre-trained version: EuroLLM-1.7B.

Developed by: Unbabel, Instituto Superior Técnico, University of Edinburgh, Aveni, University of Paris-Saclay, University of Amsterdam, Naver Labs, Sorbonne Université.
Funded by: European Union.
Model type: A 1.7B parameter instruction tuned multilingual transfomer LLM.
Language(s) (NLP): Bulgarian, Croatian, Czech, Danish, Dutch, English, Estonian, Finnish, French, German, Greek, Hungarian, Irish, Italian, Latvian, Lithuanian, Maltese, Polish, Portuguese, Romanian, Slovak, Slovenian, Spanish, Swedish, Arabic, Catalan, Chinese, Galician, Hindi, Japanese, Korean, Norwegian, Russian, Turkish, and Ukrainian.
License: Apache License 2.0.

Model Details

The EuroLLM project has the goal of creating a suite of LLMs capable of understanding and generating text in all European Union languages as well as some additional relevant languages. EuroLLM-1.7B is a 1.7B parameter model trained on 4 trillion tokens divided across the considered languages and several data sources: Web data, parallel data (en-xx and xx-en), and high-quality datasets. EuroLLM-1.7B-Instruct was further instruction tuned on EuroBlocks, an instruction tuning dataset with focus on general instruction-following and machine translation. Model Description

EuroLLM uses a standard, dense Transformer architecture:

We use grouped query attention (GQA) with 8 key-value heads, since it has been shown to increase speed at inference time while maintaining downstream performance.
We perform pre-layer normalization, since it improves the training stability, and use the RMSNorm, which is faster.
We use the SwiGLU activation function, since it has been shown to lead to good results on downstream tasks.
We use rotary positional embeddings (RoPE) in every layer, since these have been shown to lead to good performances while allowing the extension of the context length.

For pre-training, we use 256 Nvidia H100 GPUs of the Marenostrum 5 supercomputer, training the model with a constant batch size of 3,072 sequences, which corresponds to approximately 12 million tokens, using the Adam optimizer, and BF16 precision. Here is a summary of the model hyper-parameters:

Sequence Length 4,096 Number of Layers 24 Embedding Size 2,048 FFN Hidden Size 5,632 Number of Heads 16 Number of KV Heads (GQA) 8 Activation Function SwiGLU Position Encodings RoPE (\Theta=10,000) Layer Norm RMSNorm Tied Embeddings No Embedding Parameters 0.262B LM Head Parameters 0.262B Non-embedding Parameters 1.133B Total Parameters 1.657B Run the model

from transformers import AutoModelForCausalLM, AutoTokenizer

model_id = "utter-project/EuroLLM-1.7B-Instruct" tokenizer = AutoTokenizer.from_pretrained(model_id) model = AutoModelForCausalLM.from_pretrained(model_id)

text = '<|im_start|>system\n<|im_end|>\n<|im_start|>user\nTranslate the following English source text to Portuguese:\nEnglish: I am a language model for european languages. \nPortuguese: <|im_end|>\n<|im_start|>assistant\n'

inputs = tokenizer(text, return_tensors="pt") outputs = model.generate(**inputs, max_new_tokens=20) print(tokenizer.decode(outputs[0], skip_special_tokens=True))

Results Machine Translation

We evaluate EuroLLM-1.7B-Instruct on several machine translation benchmarks: FLORES-200, WMT-23, and WMT-24 comparing it with Gemma-2B and Gemma-7B (also instruction tuned on EuroBlocks). The results show that EuroLLM-1.7B is substantially better than Gemma-2B in Machine Translation and competitive with Gemma-7B. Flores-200 Model AVG AVG en-xx AVG xx-en en-ar en-bg en-ca en-cs en-da en-de en-el en-es-latam en-et en-fi en-fr en-ga en-gl en-hi en-hr en-hu en-it en-ja en-ko en-lt en-lv en-mt en-nl en-no en-pl en-pt-br en-ro en-ru en-sk en-sl en-sv en-tr en-uk en-zh-cn ar-en bg-en ca-en cs-en da-en de-en el-en es-latam-en et-en fi-en fr-en ga-en gl-en hi-en hr-en hu-en it-en ja-en ko-en lt-en lv-en mt-en nl-en no-en pl-en pt-br-en ro-en ru-en sk-en sl-en sv-en tr-en uk-en zh-cn-en EuroLLM-1.7B-Instruct 86.89 86.53 87.25 85.17 89.42 84.72 89.13 89.47 86.90 87.60 86.29 88.95 89.40 87.69 74.89 86.41 76.92 84.79 86.78 88.17 89.76 87.70 87.27 87.62 67.84 87.10 90.00 88.18 89.29 89.49 88.32 88.18 86.85 90.00 87.31 87.89 86.60 86.34 87.45 87.57 87.95 89.72 88.80 87.00 86.77 88.34 89.09 88.95 82.69 87.80 88.37 86.71 87.20 87.81 86.79 86.79 85.62 86.48 81.10 86.97 90.25 85.75 89.20 88.88 86.00 87.38 86.76 89.61 87.94 Gemma-2B-EuroBlocks 81.59 78.97 84.21 76.68 82.73 83.14 81.63 84.63 83.15 79.42 84.05 72.58 79.73 84.97 40.50 82.13 67.79 80.53 78.36 84.90 87.43 82.98 72.29 68.68 58.55 83.13 86.15 82.78 86.79 83.14 84.61 78.18 75.37 80.89 78.38 84.38 84.35 83.88 85.77 86.85 86.31 88.24 88.12 84.79 84.90 82.51 86.32 88.29 54.78 86.53 85.83 85.41 85.18 86.77 85.78 84.99 81.65 81.78 67.27 85.92 89.07 84.14 88.07 87.17 85.23 85.09 83.95 87.57 84.77 Gemma-7B-EuroBlocks 85.27 83.90 86.64 86.38 87.87 85.74 84.25 85.69 81.49 85.52 86.93 62.83 84.96 75.34 84.93 83.91 86.92 88.19 86.11 81.73 80.55 66.85 85.31 89.36 85.87 88.62 88.06 86.67 84.79 82.71 86.45 85.19 86.67 85.77 86.36 87.21 88.09 87.17 89.40 88.26 86.74 86.73 87.25 88.87 88.81 72.45 87.62 87.86 87.08 87.01 87.58 86.92 86.70 85.10 85.74 77.81 86.83 90.40 85.41 89.04 88.77 86.13 86.67 86.32 89.27 87.92 WMT-23 Model AVG AVG en-xx AVG xx-en AVG xx-xx en-de en-cs en-uk en-ru en-zh-cn de-en uk-en ru-en zh-cn-en cs-uk EuroLLM-1.7B-Instruct 82.91 83.20 81.77 86.82 81.56 85.23 81.30 82.47 83.61 85.03 84.06 85.25 81.31 78.83 Gemma-2B-EuroBlocks 79.96 79.01 80.86 81.15 76.82 76.05 77.92 78.98 81.58 82.73 82.71 83.99 80.35 78.27 Gemma-7B-EuroBlocks 82.76 82.26 82.70 85.98 81.37 82.42 81.54 82.18 82.90 83.17 84.29 85.70 82.46 79.73 WMT-24 Model AVG AVG en-xx AVG xx-xx en-de en-es-latam en-cs en-ru en-uk en-ja en-zh-cn en-hi cs-uk ja-zh-cn EuroLLM-1.7B-Instruct 79.32 79.32 79.34 79.42 80.67 80.55 78.65 80.12 82.96 80.60 71.59 83.48 75.20 Gemma-2B-EuroBlocks 74.72 74.41 75.97 74.93 78.81 70.54 74.90 75.84 79.48 78.06 62.70 79.87 72.07 Gemma-7B-EuroBlocks 78.67 78.34 80.00 78.88 80.47 78.55 78.55 80.12 80.55 78.90 70.71 84.33 75.66 General Benchmarks

We also compare EuroLLM-1.7B with TinyLlama-v1.1 and Gemma-2B on 3 general benchmarks: Arc Challenge and Hellaswag. For the non-english languages we use the Okapi datasets. Results show that EuroLLM-1.7B is superior to TinyLlama-v1.1 and similar to Gemma-2B on Hellaswag but worse on Arc Challenge. This can be due to the lower number of parameters of EuroLLM-1.7B (1.133B non-embedding parameters against 1.981B). Arc Challenge Model Average English German Spanish French Italian Portuguese Chinese Russian Dutch Arabic Swedish Hindi Hungarian Romanian Ukrainian Danish Catalan EuroLLM-1.7B 0.3496 0.4061 0.3464 0.3684 0.3627 0.3738 0.3855 0.3521 0.3208 0.3507 0.3045 0.3605 0.2928 0.3271 0.3488 0.3516 0.3513 0.3396 TinyLlama-v1.1 0.2650 0.3712 0.2524 0.2795 0.2883 0.2652 0.2906 0.2410 0.2669 0.2404 0.2310 0.2687 0.2354 0.2449 0.2476 0.2524 0.2494 0.2796 Gemma-2B 0.3617 0.4846 0.3755 0.3940 0.4080 0.3687 0.3872 0.3726 0.3456 0.3328 0.3122 0.3519 0.2851 0.3039 0.3590 0.3601 0.3565 0.3516 Hellaswag Model Average English German Spanish French Italian Portuguese Russian Dutch Arabic Swedish Hindi Hungarian Romanian Ukrainian Danish Catalan EuroLLM-1.7B 0.4744 0.4760 0.6057 0.4793 0.5337 0.5298 0.5085 0.5224 0.4654 0.4949 0.4104 0.4800 0.3655 0.4097 0.4606 0.436 0.4702 TinyLlama-v1.1 0.3674 0.6248 0.3650 0.4137 0.4010 0.3780 0.3892 0.3494 0.3588 0.2880 0.3561 0.2841 0.3073 0.3267 0.3349 0.3408 0.3613 Gemma-2B 0.4666 0.7165 0.4756 0.5414 0.5180 0.4841 0.5081 0.4664 0.4655 0.3868 0.4383 0.3413 0.3710 0.4316 0.4291 0.4471 0.4448 Bias, Risks, and Limitations

EuroLLM-1.7B-Instruct has not been aligned to human preferences, so the model may generate problematic outputs (e.g., hallucinations, harmful content, or false statements). Paper

Paper: EuroLLM: Multilingual Language Models for Europe


Use with llama.cpp

Install llama.cpp through brew (works on Mac and Linux)

brew install llama.cpp

Invoke the llama.cpp server or the CLI.

CLI:

llama-cli --hf-repo Triangle104/EuroLLM-1.7B-Instruct-Q8_0-GGUF --hf-file eurollm-1.7b-instruct-q8_0.gguf -p "The meaning to life and the universe is"

Server:

llama-server --hf-repo Triangle104/EuroLLM-1.7B-Instruct-Q8_0-GGUF --hf-file eurollm-1.7b-instruct-q8_0.gguf -c 2048

Note: You can also use this checkpoint directly through the usage steps listed in the Llama.cpp repo as well.

Step 1: Clone llama.cpp from GitHub.

git clone https://github.com/ggerganov/llama.cpp

Step 2: Move into the llama.cpp folder and build it with LLAMA_CURL=1 flag along with other hardware-specific flags (for ex: LLAMA_CUDA=1 for Nvidia GPUs on Linux).

cd llama.cpp && LLAMA_CURL=1 make

Step 3: Run inference through the main binary.

./llama-cli --hf-repo Triangle104/EuroLLM-1.7B-Instruct-Q8_0-GGUF --hf-file eurollm-1.7b-instruct-q8_0.gguf -p "The meaning to life and the universe is"

or

./llama-server --hf-repo Triangle104/EuroLLM-1.7B-Instruct-Q8_0-GGUF --hf-file eurollm-1.7b-instruct-q8_0.gguf -c 2048