nixie-querygen-v3
A Mistral-7B-v0.3 fine-tuned on query generation task. Main use cases:
- synthetic query generation for downstream embedding fine-tuning tasks - when you have only documents and no queries/labels. Such task can be done with the nixietune toolkit, see the
nixietune.qgen.generate
recipe. - synthetic dataset expansion for further embedding training - when you DO have query-document pairs, but only a few. You can fine-tune the
nixie-querygen-v3
on existing pairs, and then expand your document corpus with synthetic queries (which are still based on your few real ones). Seenixietune.querygen
recipe.
The idea behind the approach is taken from the doqT5query model. See the original paper Rodrigo Nogueira and Jimmy Lin. From doc2query to docTTTTTquery.
Flavours
This repo has multiple versions of the model:
- model-*.safetensors: Pytorch FP16 checkpoint, suitable for down-stream fine-tuning
- *-f16.gguf: GGUF F16 non-quantized llama-cpp checkpoint, for CPU inference
- *-q4.gguf: GGUF Q4_0 quantized llama-cpp checkpoint, for fast (and less precise) CPU inference.
Prompt formats
The model accepts the followinng Alpaca prompt format:
### Instruction:
Write a short query which can be used to search a given document:
### Input:
{document text}
### Response:
[short|medium|long]? [question|regular]? query:
Some notes on format:
[short|medium|long]
and[question|regular]
fragments are optional and can be skipped.
Inference example
llamacpp
With llama-cpp and Q4 model the inference can be done on a CPU:
$ cat input.txt
### Instruction:
Write a short query which can be used to search a given document:
### Input:
Google’s greenhouse gas emissions have surged 48 percent in the past five years due to the expansion of its data centers that underpin artificial intelligence systems, leaving its commitment to get to “net zero” by 2030 in doubt. The Silicon Valley company’s pollution amounted to 14.3 million tonnes of carbon equivalent in 2023, a 48 percent increase from its 2019 baseline and a 13 percent rise since last year, Google said in its annual environmental report on Tuesday. Google said the jump highlighted “the challenge of reducing emissions” at the same time as it invests in the build-out of large language models and their associated applications and infrastructure, admitting that “the future environmental impact of AI” was “complex and difficult to predict.”
### Response:
short query:
$ ./llama-cli -m ~/models/nixie-querygen-v3/nixie-querygen-v3-q4.gguf -f input.txt -s 1
system_info: n_threads = 16 / 32 | AVX = 1 | AVX_VNNI = 0 | AVX2 = 1 | AVX512 = 0 | AVX512_VBMI = 0 | AVX512_VNNI = 0 | AVX512_BF16 = 0 | FMA = 1 | NEON = 0 | SVE = 0 | ARM_FMA = 0 | F16C = 1 | FP16_VA = 0 | WASM_SIMD = 0 | BLAS = 0 | SSE3 = 1 | SSSE3 = 1 | VSX = 0 | MATMUL_INT8 = 0 | LLAMAFILE = 0 |
sampling:
repeat_last_n = 64, repeat_penalty = 1.000, frequency_penalty = 0.000, presence_penalty = 0.000
top_k = 40, tfs_z = 1.000, top_p = 0.950, min_p = 0.050, typical_p = 1.000, temp = 0.800
mirostat = 0, mirostat_lr = 0.100, mirostat_ent = 5.000
sampling order:
CFG -> Penalties -> top_k -> tfs_z -> typical_p -> top_p -> min_p -> temperature
generate: n_ctx = 32768, n_batch = 2048, n_predict = 128, n_keep = 1
### Instruction:
Write a short query which can be used to search a given document:
### Input:
Google’s greenhouse gas emissions have surged 48 percent in the past five years due to the expansion of its data centers that underpin artificial intelligence systems, leaving its commitment to get to “net zero” by 2030 in doubt.
The Silicon Valley company’s pollution amounted to 14.3 million tonnes of carbon equivalent in 2023, a 48 percent increase from its 2019 baseline and a 13 percent rise since last year, Google said in its annual environmental report on Tuesday.
Google said the jump highlighted “the challenge of reducing emissions” at the same time as it invests in the build-out of large language models and their associated applications and infrastructure, admitting that “the future environmental impact of AI” was “complex and difficult to predict.”
### Response:
short query: google carbon footprint [end of text]
llama_print_timings: load time = 4497.53 ms
llama_print_timings: sample time = 0.21 ms / 5 runs ( 0.04 ms per token, 23584.91 tokens per second)
llama_print_timings: prompt eval time = 4006.12 ms / 209 tokens ( 19.17 ms per token, 52.17 tokens per second)
llama_print_timings: eval time = 829.37 ms / 4 runs ( 207.34 ms per token, 4.82 tokens per second)
llama_print_timings: total time = 4839.50 ms / 213 tokens```
Transformers
from transformers import pipeline
import torch
generator = pipeline(task="text-generation", model='<path>', torch_dtype=torch.bfloat16, device_map="auto")
prompt = "### Instruction:\nWrite a short query which can be used to search a given document:\n\n### Input:\n<doc>\n\n### Response:\nshort query:"
result = generator(prompt, return_full_text=True, max_new_tokens=32, num_return_sequences=1)
Training config
See axolotl config
axolotl version: 0.4.1
base_model: mistralai/Mistral-7B-v0.3
model_type: MistralForCausalLM
tokenizer_type: LlamaTokenizer
load_in_8bit: false
load_in_4bit: true
strict: false
val_set_size: 0.001
datasets:
- path: json
split: train
type: alpaca
data_files:
- /home/shutty/data/querygen/alpaca.json
dataset_prepared_path: last_run_prepared
output_dir: ./outputs/qlora-out
adapter: qlora
lora_model_dir:
sequence_len: 512
sample_packing: false
pad_to_sequence_len: true
lora_r: 32
lora_alpha: 16
lora_dropout: 0.05
lora_target_modules:
lora_target_linear: true
lora_fan_in_fan_out:
wandb_project:
wandb_entity:
wandb_watch:
wandb_name:
wandb_log_model:
gradient_accumulation_steps: 1
micro_batch_size: 40
num_epochs: 1
optimizer: adamw_torch
lr_scheduler: cosine
learning_rate: 0.00001
train_on_inputs: false
group_by_length: false
bf16: auto
fp16:
tf32: false
gradient_checkpointing: true
gradient_checkpointing_kwargs:
use_reentrant: true
early_stopping_patience:
resume_from_checkpoint:
local_rank:
xformers_attention:
flash_attention: true
logging_steps: 10
warmup_steps: 10
evals_per_epoch: 10
eval_table_size:
saves_per_epoch: 1
debug:
deepspeed:
weight_decay: 0.0
fsdp:
- full_shard
- auto_wrap
fsdp_config:
fsdp_limit_all_gathers: true
fsdp_sync_module_states: true
fsdp_offload_params: false
fsdp_use_orig_params: false
fsdp_cpu_ram_efficient_loading: false
fsdp_transformer_layer_cls_to_wrap: MistralDecoderLayer
fsdp_state_dict_type: FULL_STATE_DICT
fsdp_auto_wrap_policy: TRANSFORMER_BASED_WRAP
special_tokens:
# torch_compile: true
# chat_template: chatml
Training procedure
Training hyperparameters
The following hyperparameters were used during training:
- learning_rate: 1e-05
- train_batch_size: 40
- eval_batch_size: 40
- seed: 42
- distributed_type: multi-GPU
- num_devices: 2
- total_train_batch_size: 80
- total_eval_batch_size: 80
- optimizer: Adam with betas=(0.9,0.999) and epsilon=1e-08
- lr_scheduler_type: cosine
- lr_scheduler_warmup_steps: 10
- num_epochs: 1
Training results
Training Loss | Epoch | Step | Validation Loss |
---|---|---|---|
No log | 0.0000 | 1 | 2.8685 |
1.3256 | 0.1000 | 5581 | 1.4044 |
1.3539 | 0.2000 | 11162 | 1.3793 |
1.3409 | 0.3000 | 16743 | 1.3659 |
1.3781 | 0.4000 | 22324 | 1.3552 |
1.3909 | 0.5000 | 27905 | 1.3470 |
1.4037 | 0.6000 | 33486 | 1.3423 |
1.3573 | 0.7000 | 39067 | 1.3383 |
1.3088 | 0.8000 | 44648 | 1.3366 |
1.3243 | 0.9000 | 50229 | 1.3357 |
Framework versions
- PEFT 0.11.1
- Transformers 4.41.1
- Pytorch 2.3.0+cu121
- Datasets 2.19.1
- Tokenizers 0.19.1
License
Apache 2.0
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Model tree for nixiesearch/nixie-querygen-v3
Base model
mistralai/Mistral-7B-v0.3