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224 lines
13 KiB
Markdown
224 lines
13 KiB
Markdown
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# nanoGPT
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![nanoGPT](assets/nanogpt.jpg)
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The simplest, fastest repository for training/finetuning medium-sized GPTs. It is a rewrite of [minGPT](https://github.com/karpathy/minGPT) that prioritizes teeth over education. Still under active development, but currently the file `train.py` reproduces GPT-2 (124M) on OpenWebText, running on a single 8XA100 40GB node in about 4 days of training. The code itself is plain and readable: `train.py` is a ~300-line boilerplate training loop and `model.py` a ~300-line GPT model definition, which can optionally load the GPT-2 weights from OpenAI. That's it.
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![repro124m](assets/gpt2_124M_loss.png)
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Because the code is so simple, it is very easy to hack to your needs, train new models from scratch, or finetune pretrained checkpoints (e.g. biggest one currently available as a starting point would be the GPT-2 1.3B model from OpenAI).
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## install
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Dependencies:
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- [pytorch](https://pytorch.org) <3
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- [numpy](https://numpy.org/install/) <3
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- `pip install transformers` for huggingface transformers <3 (to load GPT-2 checkpoints)
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- `pip install datasets` for huggingface datasets <3 (if you want to download + preprocess OpenWebText)
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- `pip install tiktoken` for OpenAI's fast BPE code <3
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- `pip install wandb` for optional logging <3
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- `pip install tqdm` <3
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## quick start
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If you are not a deep learning professional and you just want to feel the magic and get your feet wet, the fastest way to get started is to train a character-level GPT on the works of Shakespeare. First, we download it as a single (1MB) file and turn it from raw text into one large stream of integers:
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```
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$ python data/shakespeare_char/prepare.py
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```
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This creates a `train.bin` and `val.bin` in that data directory. Now it is time to train your GPT. The size of it very much depends on the computational resources of your system:
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**I have a GPU**. Great, we can quickly train a baby GPT with the settings provided in the [config/train_shakespeare_char.py](config/train_shakespeare_char.py) config file:
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```
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$ python train.py config/train_shakespeare_char.py
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```
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If you peek inside it, you'll see that we're training a GPT with a context size of up to 256 characters, 384 feature channels, and it is a 6-layer Transformer with 6 heads in each layer. On one A100 GPU this training run takes about 3 minutes and the best validation loss is 1.4697. Based on the configuration, the model checkpoints are being written into the `--out_dir` directory `out-shakespeare-char`. So once the training finishes we can sample from the best model by pointing the sampling script at this directory:
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```
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$ python sample.py --out_dir=out-shakespeare-char
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```
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This generates a few samples, for example:
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```
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ANGELO:
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And cowards it be strawn to my bed,
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And thrust the gates of my threats,
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Because he that ale away, and hang'd
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An one with him.
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DUKE VINCENTIO:
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I thank your eyes against it.
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DUKE VINCENTIO:
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Then will answer him to save the malm:
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And what have you tyrannous shall do this?
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DUKE VINCENTIO:
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If you have done evils of all disposition
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To end his power, the day of thrust for a common men
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That I leave, to fight with over-liking
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Hasting in a roseman.
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```
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lol `¯\_(ツ)_/¯`. Not bad for a character-level model after 3 minutes of training on a GPU. Better results are quite likely obtainable by instead finetuning a pretrained GPT-2 model on this dataset (see finetuning section later).
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**I only have a macbook** (or other cheap computer). No worries, we can still train a GPT but we want to dial things down a notch. I recommend getting the bleeding edge PyTorch nightly ([select it here](https://pytorch.org/get-started/locally/) when installing) as it is currently quite likely to make your code more efficient. But even without it, a simple train run could look as follows:
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```
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$ python train.py config/train_shakespeare_char.py --device=cpu --compile=False --eval_iters=20 --log_interval=1 --block_size=64 --batch_size=12 --n_layer=4 --n_head=4 --n_embd=128 --max_iters=2000 --lr_decay_iters=2000 --dropout=0.0
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```
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Here, since we are running on CPU instead of GPU we must set both `--device=cpu` and also turn off PyTorch 2.0 compile with `--compile=False`. Then when we evaluate we get a bit more noisy but faster estimate (`--eval_iters=20`, down from 200), our context size is only 64 characters instead of 256, and the batch size only 12 examples per iteration, not 64. We'll also use a much smaller Transformer (4 layers, 4 heads, 128 embedding size), and decrease the number of iterations to 2000 (and correspondingly usually decay the learning rate to around max_iters with `--lr_decay_iters`). Because our network is so small we also ease down on regularization (`--dropout=0.0`). This still runs in about ~3 minutes, but gets us a loss of only 1.88 and therefore also worse samples, but it's still good fun:
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```
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$ python sample.py --out_dir=out-shakespeare-char --device=cpu
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```
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Generates samples like this:
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```
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GLEORKEN VINGHARD III:
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Whell's the couse, the came light gacks,
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And the for mought you in Aut fries the not high shee
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bot thou the sought bechive in that to doth groan you,
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No relving thee post mose the wear
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```
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Not bad for ~3 minutes on a CPU, for a hint of the right character gestalt. If you're willing to wait longer, feel free to tune the hyperparameters, increase the size of the network, the context length (`--block_size`), the length of training, etc.
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Finally, on Apple Silicon Macbooks and with a recent PyTorch version make sure to add `--device=mps` (short for "Metal Performance Shaders"); PyTorch then uses the on-chip GPU that can *significantly* accelerate training (2-3X) and allow you to use larger networks. See [Issue 28](https://github.com/karpathy/nanoGPT/issues/28) for more.
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## reproducing GPT-2
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A more serious deep learning professional may be more interested in reproducing GPT-2 results. So here we go - we first tokenize the dataset, in this case the [OpenWebText](https://openwebtext2.readthedocs.io/en/latest/), an open reproduction of OpenAI's (private) WebText:
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```
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$ python data/openwebtext/prepare.py
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```
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This downloads and tokenizes the [OpenWebText](https://huggingface.co/datasets/openwebtext) dataset. It will create a `train.bin` and `val.bin` which holds the GPT2 BPE token ids in one sequence, stored as raw uint16 bytes. Then we're ready to kick off training. To reproduce GPT-2 (124M) you'll want at least an 8X A100 40GB node and run:
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```
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$ torchrun --standalone --nproc_per_node=8 train.py config/train_gpt2.py
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```
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This will run for about 4 days using PyTorch Distributed Data Parallel (DDP) and go down to loss of ~2.85. Now, a GPT-2 model just evaluated on OWT gets a val loss of about 3.11, but if you finetune it it will come down to ~2.85 territory (due to an apparent domain gap), making the two models ~match.
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If you're in a cluster environment and you are blessed with multiple GPU nodes you can make GPU go brrrr e.g. across 2 nodes like:
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```
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Run on the first (master) node with example IP 123.456.123.456:
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$ torchrun --nproc_per_node=8 --nnodes=2 --node_rank=0 --master_addr=123.456.123.456 --master_port=1234 train.py
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Run on the worker node:
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$ torchrun --nproc_per_node=8 --nnodes=2 --node_rank=1 --master_addr=123.456.123.456 --master_port=1234 train.py
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```
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It is a good idea to benchmark your interconnect (e.g. iperf3). In particular, if you don't have Infiniband then also prepend `NCCL_IB_DISABLE=1` to the above launches. Your multinode training will work, but most likely _crawl_. By default checkpoints are periodically written to the `--out_dir`. We can sample from the model by simply `$ python sample.py`.
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Finally, to train on a single GPU simply run the `$ python train.py` script. Have a look at all of its args, the script tries to be very readable, hackable and transparent. You'll most likely want to tune a number of those variables depending on your needs.
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## baselines
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OpenAI GPT-2 checkpoints allow us to get some baselines in place for openwebtext. We can get the numbers as follows:
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```
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$ python train.py eval_gpt2
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$ python train.py eval_gpt2_medium
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$ python train.py eval_gpt2_large
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$ python train.py eval_gpt2_xl
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```
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and observe the following losses on train and val:
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| model | params | train loss | val loss |
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| ------| ------ | ---------- | -------- |
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| gpt2 | 124M | 3.11 | 3.12 |
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| gpt2-medium | 350M | 2.85 | 2.84 |
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| gpt2-large | 774M | 2.66 | 2.67 |
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| gpt2-xl | 1558M | 2.56 | 2.54 |
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However, we have to note that GPT-2 was trained on (closed, never released) WebText, while OpenWebText is just a best-effort open reproduction of this dataset. This means there is a dataset domain gap. Indeed, taking the GPT-2 (124M) checkpoint and finetuning on OWT directly for a while reaches loss down to ~2.85. This then becomes the more appropriate baseline w.r.t. reproduction.
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## finetuning
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Finetuning is no different than training, we just make sure to initialize from a pretrained model and train with a smaller learning rate. For an example of how to finetune a GPT on new text go to `data/shakespeare` and run `prepare.py` to download the tiny shakespeare dataset and render it into a `train.bin` and `val.bin`, using the OpenAI BPE tokenizer from GPT-2. Unlike OpenWebText this will run in seconds. Finetuning can take very little time, e.g. on a single GPU just a few minutes. Run an example finetuning like:
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```
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$ python train.py config/finetune_shakespeare.py
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```
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This will load the config parameter overrides in `config/finetune_shakespeare.py` (I didn't tune them much though). Basically, we initialize from a GPT2 checkpoint with `init_from` and train as normal, except shorter and with a small learning rate. If you're running out of memory try decreasing the model size (they are `{'gpt2', 'gpt2-medium', 'gpt2-large', 'gpt2-xl'}`) or possibly decreasing the `block_size` (context length). The best checkpoint (lowest validation loss) will be in the `out_dir` directory, e.g. in `out-shakespeare` by default, per the config file. You can then run the code in `sample.py --out_dir=out-shakespeare`:
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```
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THEODORE:
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Thou shalt sell me to the highest bidder: if I die,
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I sell thee to the first; if I go mad,
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I sell thee to the second; if I
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lie, I sell thee to the third; if I slay,
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I sell thee to the fourth: so buy or sell,
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I tell thee again, thou shalt not sell my
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possession.
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JULIET:
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And if thou steal, thou shalt not sell thyself.
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THEODORE:
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I do not steal; I sell the stolen goods.
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THEODORE:
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Thou know'st not what thou sell'st; thou, a woman,
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Thou art ever a victim, a thing of no worth:
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Thou hast no right, no right, but to be sold.
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```
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Whoa there, GPT, entering some dark place over there. I didn't really tune the hyperparameters in the config too much, feel free to try!
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## sampling / inference
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Use the script `sample.py` to sample either from pre-trained GPT-2 models released by OpenAI, or from a model you trained yourself. For example, here is a way to sample from the largest available `gpt2-xl` model:
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```
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$ python sample.py \
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--init_from=gpt2-xl \
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--start="What is the answer to life, the universe, and everything?" \
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--num_samples=5 --max_new_tokens=100
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```
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If you'd like to sample from a model you trained, use the `--out_dir` to point the code appropriately. You can also prompt the model with some text from a file, e.g. `$ python sample.py --start=FILE:prompt.txt`.
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## efficiency notes
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For simple model benchmarking and profiling, `bench.py` might be useful. It's identical to what happens in the meat of the training loop of `train.py`, but omits much of the other complexities.
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Note that the code by default uses [PyTorch 2.0](https://pytorch.org/get-started/pytorch-2.0/). At the time of writing (Dec 29, 2022) this makes `torch.compile()` available in the nightly release. The improvement from the one line of code is noticeable, e.g. cutting down iteration time from ~250ms / iter to 135ms / iter. Nice work PyTorch team!
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## todos
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- Investigate and add FSDP instead of DDP
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- Eval zero-shot perplexities on standard evals (e.g. LAMBADA? HELM? etc.)
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- Finetune the finetuning script, I think the hyperparams are not great
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- Schedule for linear batch size increase during training
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- Incorporate other embeddings (rotary, alibi)
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- Separate out the optim buffers from model params in checkpoints I think
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- Additional logging around network health (e.g. gradient clip events, magnitudes)
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- Few more investigations around better init etc.
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## troubleshooting
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Note that by default this repo uses PyTorch 2.0 (i.e. `torch.compile`). This is fairly new and experimental, and not yet available on all platforms (e.g. Windows). If you're running into related error messages try to disable this by adding `--compile=False` flag. This will slow down the code but at least it will run.
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For some context on this repository, GPT, and language modeling it might be helpful to watch my [Zero To Hero series](https://karpathy.ai/zero-to-hero.html). Specifically, the [GPT video](https://www.youtube.com/watch?v=kCc8FmEb1nY) is popular if you have some prior language modeling context.
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For more questions/discussions feel free to stop by **#nanoGPT** on Discord:
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[![](https://dcbadge.vercel.app/api/server/3zy8kqD9Cp?compact=true&style=flat)](https://discord.gg/3zy8kqD9Cp)
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## acknowledgements
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All nanoGPT experiments are powered by GPUs on [Lambda labs](https://lambdalabs.com), my favorite Cloud GPU provider. Thank you Lambda labs for sponsoring nanoGPT!
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