mirror of
https://github.com/karpathy/nanochat.git
synced 2025-12-06 04:12:13 +00:00
141 lines
6.5 KiB
Bash
141 lines
6.5 KiB
Bash
#!/bin/bash
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set -e
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# This script is the "Best ChatGPT clone that $100 can buy",
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# It is designed to run in ~4 hours on 8XH100 node at $3/GPU/hour.
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# 1) Example launch (simplest):
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# bash speedrun.sh
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# 2) Example launch in a screen session (because the run takes ~4 hours):
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# screen -L -Logfile speedrun.log -S speedrun bash speedrun.sh
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# 3) Example launch with wandb logging, but see below for setting up wandb first:
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# WANDB_RUN=speedrun screen -L -Logfile speedrun.log -S speedrun bash speedrun.sh
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# Default intermediate artifacts directory is in ~/.cache/nanochat
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export OMP_NUM_THREADS=1
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export NANOCHAT_BASE_DIR="$HOME/.cache/nanochat"
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mkdir -p $NANOCHAT_BASE_DIR
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# -----------------------------------------------------------------------------
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# Python venv setup with uv
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# install uv (if not already installed)
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command -v uv &> /dev/null || curl -LsSf https://astral.sh/uv/install.sh | sh
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# create a .venv local virtual environment (if it doesn't exist)
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[ -d ".venv" ] || uv venv
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# install the repo dependencies
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uv sync --extra gpu
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# activate venv so that `python` uses the project's venv instead of system python
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source .venv/bin/activate
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# -----------------------------------------------------------------------------
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# wandb setup
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# If you wish to use wandb for logging (it's nice!, recommended).
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# 1) Make sure to first log in to wandb, e.g. run:
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# `wandb login`
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# 2) Set the WANDB_RUN environment variable when running this script, e.g.:
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# `WANDB_RUN=d26 bash speedrun.sh`
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if [ -z "$WANDB_RUN" ]; then
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# by default use "dummy" : it's handled as a special case, skips logging to wandb
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WANDB_RUN=dummy
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fi
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# -----------------------------------------------------------------------------
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# During the course of the run, we will be writing markdown reports to the report/
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# directory in the base dir. This command clears it out and writes a header section
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# with a bunch of system info and a timestamp that marks the start of the run.
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python -m nanochat.report reset
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# -----------------------------------------------------------------------------
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# Tokenizer
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# Install Rust / Cargo
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curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- -y
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source "$HOME/.cargo/env"
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# Build the rustbpe Tokenizer
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uv run maturin develop --release --manifest-path rustbpe/Cargo.toml
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# Download the first ~2B characters of pretraining dataset
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# look at dev/repackage_data_reference.py for details on how this data was prepared
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# each data shard is ~250M chars
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# so we download 2e9 / 250e6 = 8 data shards at this point
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# each shard is ~100MB of text (compressed), so this is about ~800MB of data on disk
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python -m nanochat.dataset -n 8
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# Immediately also kick off downloading more shards in the background while tokenizer trains
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# See comment below for why 240 is the right number here
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python -m nanochat.dataset -n 240 &
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DATASET_DOWNLOAD_PID=$!
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# train the tokenizer with vocab size 2**16 = 65536 on ~2B characters of data
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python -m scripts.tok_train --max_chars=2000000000
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# evaluate the tokenizer (report compression ratio etc.)
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python -m scripts.tok_eval
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# -----------------------------------------------------------------------------
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# Base model (pretraining)
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# The d20 model is 561M parameters.
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# Chinchilla says #tokens = 20X #params, so we need 561e6 * 20 = 11.2B tokens.
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# Assume our tokenizer is 4.8 chars/token, this is 11.2B * 4.8 ~= 54B chars.
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# At 250M chars/shard, this is 54B / 250M ~= 216 shards needed for pretraining.
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# Round up to 240 for safety. At ~100MB/shard, this downloads ~24GB of data to disk.
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# (The total number of shards available in the entire dataset is 1822.)
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echo "Waiting for dataset download to complete..."
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wait $DATASET_DOWNLOAD_PID
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# Number of processes/GPUs to use
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# Auto-detect if we have GPUs (including ROCm)
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if python -c "import torch; exit(0) if torch.cuda.is_available() or (hasattr(torch.version, 'hip') and torch.version.hip) else exit(1)"; then
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NPROC_PER_NODE=8
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else
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echo "No GPU detected. Defaulting to NPROC_PER_NODE=1 to avoid OOM and using multi-threading."
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NPROC_PER_NODE=1
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# If running on CPU, let PyTorch use all available cores for the single process
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unset OMP_NUM_THREADS
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fi
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# pretrain the d20 model
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torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.base_train -- --depth=20 --run=$WANDB_RUN
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# evaluate the model on a larger chunk of train/val data and draw some samples
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torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.base_loss
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# evaluate the model on CORE tasks
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torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.base_eval
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# -----------------------------------------------------------------------------
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# Midtraining (teach the model conversation special tokens, tool use, multiple choice)
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# download 2.3MB of synthetic identity conversations to impart a personality to nanochat
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# see dev/gen_sft_data.py for details on how this data was prepared and to get a sense of how you can easily tune it
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curl -L -o $NANOCHAT_BASE_DIR/identity_conversations.jsonl https://karpathy-public.s3.us-west-2.amazonaws.com/identity_conversations.jsonl
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# run midtraining and eval the model
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torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.mid_train -- --run=$WANDB_RUN
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torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.chat_eval -- -i mid
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# -----------------------------------------------------------------------------
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# Supervised Finetuning (domain adaptation to each sequence all by itself per row)
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# train sft and re-eval right away (should see a small bump)
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torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.chat_sft -- --run=$WANDB_RUN
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torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.chat_eval -- -i sft
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# chat with the model over CLI! Leave out the -p to chat interactively
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# python -m scripts.chat_cli -p "Why is the sky blue?"
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# even better, chat with your model over a pretty WebUI ChatGPT style
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# python -m scripts.chat_web
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# -----------------------------------------------------------------------------
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# Reinforcement Learning. Optional, and currently only on GSM8K
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# (optional)
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# run reinforcement learning
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# torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.chat_rl -- --run=$WANDB_RUN
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# eval the RL model only on GSM8K
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# torchrun --standalone --nproc_per_node=$NPROC_PER_NODE -m scripts.chat_eval -- -i rl -a GSM8K
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# -----------------------------------------------------------------------------
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# Generate the full report by putting together all the sections
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# report.md is the output and will be copied to current directory for convenience
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python -m nanochat.report generate
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