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https://github.com/osmarks/nanogpt-experiments.git
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new notebook with a bunch of calculations related to flops and memory of Transformer
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transformer_sizing.ipynb
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"cells": [
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{
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"attachments": {},
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"### Transformer Theoretical Model\n",
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"\n",
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"This notebook stores a bunch of analysis about a Transformer, e.g. estimates the number of FLOPs, parameters, peak memory footprint, checkpoint size, etc."
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]
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},
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{
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"cell_type": "code",
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"execution_count": 1,
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"metadata": {},
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"outputs": [],
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"source": [
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"from collections import OrderedDict"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 2,
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"metadata": {},
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"outputs": [],
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"source": [
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"# config_args = {\n",
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"# 'gpt2': dict(n_layer=12, n_head=12, n_embd=768), # 124M params\n",
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"# 'gpt2-medium': dict(n_layer=24, n_head=16, n_embd=1024), # 350M params\n",
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"# 'gpt2-large': dict(n_layer=36, n_head=20, n_embd=1280), # 774M params\n",
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"# 'gpt2-xl': dict(n_layer=48, n_head=25, n_embd=1600), # 1558M params\n",
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"# }[model_type]\n",
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"\n",
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"block_size = 1024\n",
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"vocab_size = 50257\n",
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"n_layer = 12\n",
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"n_head = 12\n",
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"n_embd = 768\n",
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"bias = False\n",
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"assert not bias, \"this notebook assumes bias=False just for simplicity\""
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]
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},
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{
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"cell_type": "code",
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"execution_count": 3,
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"metadata": {},
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"outputs": [
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{
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"name": "stdout",
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"output_type": "stream",
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"text": [
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"we see: 124337664, expected: 124337664, match: True\n",
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"name params ratio (%) \n",
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"emebedding/position 786432 0.6325\n",
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"embedding/token 38597376 31.0424\n",
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"embedding 39383808 31.6749\n",
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"attention/ln 768 0.0006\n",
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"attention/kqv 1769472 1.4231\n",
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"attention/proj 589824 0.4744\n",
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"attention 2360064 1.8981\n",
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"mlp/ln 768 0.0006\n",
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"mlp/ffw 2359296 1.8975\n",
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"mlp/proj 2359296 1.8975\n",
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"mlp 4719360 3.7956\n",
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"block 7079424 5.6937\n",
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"transformer 84953088 68.3245\n",
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"ln_f 768 0.0006\n",
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"dense 0 0.0000\n",
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"total 124337664 100.0000\n"
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]
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}
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],
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"source": [
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"def params():\n",
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" \"\"\" estimates the number of parameters in the model\"\"\"\n",
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" out = OrderedDict()\n",
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"\n",
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" # token and position embeddings\n",
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" out['emebedding/position'] = n_embd * block_size\n",
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" out['embedding/token'] = n_embd * vocab_size\n",
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" out['embedding'] = out['emebedding/position'] + out['embedding/token']\n",
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"\n",
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" # attention blocks\n",
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" out['attention/ln'] = n_embd # note, bias=False in our LN\n",
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" out['attention/kqv'] = n_embd * 3*n_embd\n",
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" out['attention/proj'] = n_embd**2\n",
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" out['attention'] = out['attention/ln'] + out['attention/kqv'] + out['attention/proj']\n",
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"\n",
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" # MLP blocks\n",
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" ffw_size = 4*n_embd # feed forward size\n",
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" out['mlp/ln'] = n_embd\n",
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" out['mlp/ffw'] = n_embd * ffw_size\n",
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" out['mlp/proj'] = ffw_size * n_embd\n",
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" out['mlp'] = out['mlp/ln'] + out['mlp/ffw'] + out['mlp/proj']\n",
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" \n",
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" # the transformer and the rest of it\n",
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" out['block'] = out['attention'] + out['mlp']\n",
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" out['transformer'] = n_layer * out['block']\n",
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" out['ln_f'] = n_embd # final layernorm\n",
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" out['dense'] = 0 # 0 because of parameter sharing. This layer uses the weights from the embedding layer\n",
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"\n",
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" # total\n",
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" out['total'] = out['embedding'] + out['transformer'] + out['ln_f'] + out['dense']\n",
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"\n",
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" return out\n",
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"\n",
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"# compare our param count to that reported by PyTorch\n",
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"p = params()\n",
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"params_total = p['total']\n",
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"print(f\"we see: {params_total}, expected: {124337664}, match: {params_total == 124337664}\")\n",
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"# create a header\n",
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"print(f\"{'name':20s} {'params':10s} {'ratio (%)':10s}\")\n",
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"for k,v in p.items():\n",
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" print(f\"{k:20s} {v:10d} {v/params_total*100:10.4f}\")\n",
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" "
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]
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},
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{
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"cell_type": "code",
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"execution_count": 4,
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"metadata": {},
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"outputs": [
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{
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"name": "stdout",
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"output_type": "stream",
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"text": [
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"est checkpoint size: 1.49 GB\n",
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"measured with wc -c ckpt.pt: 1542470366\n",
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"fluff ratio: 103.38%\n"
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]
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}
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],
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"source": [
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"# we can now calculate the size of each checkpoint\n",
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"# params are stored in fp32, and the AdamW optimizer has 2 additional buffers per param for statistics\n",
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"params_bytes = params_total*4\n",
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"params_and_buffers_bytes = params_bytes + 2*params_bytes\n",
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"print(f\"est checkpoint size: {params_and_buffers_bytes/1e9:.2f} GB\")\n",
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"measured_bytes = 1542470366 # from wc -c ckpt.pt\n",
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"print(f\"measured with wc -c ckpt.pt: {measured_bytes}\")\n",
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"print(f\"fluff ratio: {measured_bytes/params_and_buffers_bytes*100:.2f}%\")"
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]
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},
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{
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"attachments": {},
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"We can also estimate the ratio of our GPU memory that will be taken up just by the weights and the buffers inside the AdamW optimizer"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 5,
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"metadata": {},
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"outputs": [
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{
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"name": "stdout",
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"output_type": "stream",
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"text": [
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"memory ratio taken up just for parameters: 3.73%\n"
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]
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}
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],
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"source": [
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"gpu_memory = 40e9 # 40 GB A100 GPU, roughly\n",
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"print(f\"memory ratio taken up just for parameters: {params_and_buffers_bytes / gpu_memory * 100:.2f}%\")"
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]
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},
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{
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"attachments": {},
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"i.e. not that much of the memory for this tiny model, most of the memory is activations (forward and backward). This of course changes dramatically for larger and larger models."
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]
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},
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{
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"attachments": {},
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"Let's estimate FLOPs for a single forward pass."
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]
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},
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{
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"cell_type": "code",
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"execution_count": 6,
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"metadata": {},
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"outputs": [
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{
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"name": "stdout",
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"output_type": "stream",
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"text": [
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"name flops ratio (%) \n",
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"attention/kqv 3623878656 1.2426\n",
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"attention/scores 1610612736 0.5522\n",
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"attention/reduce 1610612736 0.5522\n",
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"attention/proj 1207959552 0.4142\n",
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"attention 8053063680 2.7612\n",
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"mlp/ffw1 4831838208 1.6567\n",
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"mlp/ffw2 4831838208 1.6567\n",
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"mlp 9663676416 3.3135\n",
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"block 17716740096 6.0747\n",
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"transformer 212600881152 72.8963\n",
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"dense 79047426048 27.1037\n",
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"forward_total 291648307200 100.0000\n",
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"backward_total 583296614400 200.0000\n",
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"total 874944921600 300.0000\n"
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]
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}
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],
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"source": [
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"def flops():\n",
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" # we only count Weight FLOPs, all other layers (LayerNorm, Softmax, etc) are effectively irrelevant\n",
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" # we count actual FLOPs, not MACs. Hence 2* all over the place\n",
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" # basically for any matrix multiply A (BxC) @ B (CxD) -> (BxD) flops are 2*B*C*D\n",
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"\n",
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" out = OrderedDict()\n",
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" head_size = n_embd // n_head\n",
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"\n",
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" # attention blocks\n",
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" # 1) the projection to key, query, values\n",
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" out['attention/kqv'] = 2 * block_size * (n_embd * 3*n_embd)\n",
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" # 2) calculating the attention scores\n",
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" out['attention/scores'] = 2 * block_size * block_size * n_embd\n",
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" # 3) the reduction of the values (B, nh, T, T) x (B, nh, T, hs) -> (B, nh, T, hs)\n",
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" out['attention/reduce'] = 2 * n_head * (block_size * block_size * head_size)\n",
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" # 4) the final linear projection\n",
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" out['attention/proj'] = 2 * block_size * (n_embd * n_embd)\n",
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" out['attention'] = sum(out['attention/'+k] for k in ['kqv', 'scores', 'reduce', 'proj'])\n",
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"\n",
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" # MLP blocks\n",
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" ffw_size = 4*n_embd # feed forward size\n",
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" out['mlp/ffw1'] = 2 * block_size * (n_embd * ffw_size)\n",
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" out['mlp/ffw2'] = 2 * block_size * (ffw_size * n_embd)\n",
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" out['mlp'] = out['mlp/ffw1'] + out['mlp/ffw2']\n",
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"\n",
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" # the transformer and the rest of it\n",
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" out['block'] = out['attention'] + out['mlp']\n",
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" out['transformer'] = n_layer * out['block']\n",
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" out['dense'] = 2 * block_size * (n_embd * vocab_size)\n",
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"\n",
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" # forward,backward,total\n",
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" out['forward_total'] = out['transformer'] + out['dense']\n",
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" out['backward_total'] = 2 * out['forward_total'] # use common estimate of bwd = 2*fwd\n",
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" out['total'] = out['forward_total'] + out['backward_total']\n",
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"\n",
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" return out\n",
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" \n",
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"# compare our param count to that reported by PyTorch\n",
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"f = flops()\n",
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"flops_total = f['forward_total']\n",
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"print(f\"{'name':20s} {'flops':14s} {'ratio (%)':10s}\")\n",
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"for k,v in f.items():\n",
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" print(f\"{k:20s} {v:14d} {v/flops_total*100:10.4f}\")\n",
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" "
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]
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},
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{
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"cell_type": "code",
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"execution_count": 7,
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"metadata": {},
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"outputs": [
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{
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"name": "stdout",
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"output_type": "stream",
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"text": [
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"palm_flops: 879894724608, flops: 874944921600, ratio: 1.0057\n"
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]
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}
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],
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"source": [
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"# now here is an estimate copy pasted from the PaLM paper\n",
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"# this formula is often used to calculate MFU (model flops utilization)\n",
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"def palm_flops():\n",
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" \"\"\"estimate of the model flops following PaLM paper formula\"\"\"\n",
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" N = params()['total']\n",
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" L, H, Q, T = n_layer, n_head, n_embd//n_head, block_size\n",
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" mf_per_token = 6*N + 12*L*H*Q*T\n",
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" mf = mf_per_token * block_size\n",
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" return mf\n",
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"\n",
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"print(f\"palm_flops: {palm_flops():d}, flops: {flops()['total']:d}, ratio: {palm_flops()/flops()['total']:.4f}\")"
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]
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},
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{
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"attachments": {},
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"Ok they are quite similar, giving some confidence that my math in flops() function was ~ok. Now, A100 is cited at 312TFLOPS bfloat16 on tensor cores. So what is our model flops utilization (MFU)? I trained the model above with a batch_size of 20 and grad_accum of 5, which runs in about 755ms on a single A100 GPU. We get:"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 8,
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"metadata": {},
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"outputs": [
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{
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"name": "stdout",
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"output_type": "stream",
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"text": [
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"fraction of A100 used: 37.14%\n"
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]
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}
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],
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"source": [
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"# here is what we currently roughly measure\n",
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"batch_size = 20 * 5 # 5 is grad_accum, so total batch size is 100\n",
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"measured_time = 0.755 # in seconds per iteration\n",
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"measured_throughput = batch_size / measured_time\n",
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"flops_achieved = f['total'] * measured_throughput\n",
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"\n",
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"# A100 is cited to be 312 TFLOPS of bloat16 running on tensor cores\n",
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"a100_flops_promised = 312e12\n",
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"\n",
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"# the fraction of the A100 that we are using:\n",
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"print(f\"fraction of A100 used: {flops_achieved / a100_flops_promised * 100:.2f}%\")"
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]
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},
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{
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"attachments": {},
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"For reference, we'd prefer to be somewhere around 50%+, and not just for a single GPU but for an entire DDP run. So we still have some work to do, but at least we're within a factor of ~2X of what is achievable with this GPU."
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]
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},
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{
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"cell_type": "code",
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"execution_count": 9,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [
|
||||||
|
{
|
||||||
|
"name": "stdout",
|
||||||
|
"output_type": "stream",
|
||||||
|
"text": [
|
||||||
|
"time needed to train the model: 3.46 days\n"
|
||||||
|
]
|
||||||
|
}
|
||||||
|
],
|
||||||
|
"source": [
|
||||||
|
"# Finally let's check out the 6ND approximation as total cost of training in FLOPs\n",
|
||||||
|
"model_size = params()['total'] # this is number of parameters, N\n",
|
||||||
|
"tokens_num = 300e9 # 300B tokens, this is dataset size in tokens, D\n",
|
||||||
|
"a100_flops = 312e12 # 312 TFLOPS\n",
|
||||||
|
"assumed_mfu = 0.3 # assume this model flops utilization (take the current 37% from above and add some DDP overhead)\n",
|
||||||
|
"flops_throughput = a100_flops * 8 * assumed_mfu # assume an 8XA100 node at 50% utilization\n",
|
||||||
|
"flops_needed = 6 * model_size * tokens_num # 6ND\n",
|
||||||
|
"time_needed_s = flops_needed / flops_throughput # in seconds\n",
|
||||||
|
"print(f\"time needed to train the model: {time_needed_s/3600/24:.2f} days\")"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"attachments": {},
|
||||||
|
"cell_type": "markdown",
|
||||||
|
"metadata": {},
|
||||||
|
"source": [
|
||||||
|
"This is not a bad estimate at all. I trained this model and it converged in roughly 4 days."
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"attachments": {},
|
||||||
|
"cell_type": "markdown",
|
||||||
|
"metadata": {},
|
||||||
|
"source": [
|
||||||
|
"Now, FLOPs are just one constraint, the other that we have to keep a close track of is the memory bandwidth. TODO estimate LOAD/STORE costs of our model later."
|
||||||
|
]
|
||||||
|
}
|
||||||
|
],
|
||||||
|
"metadata": {
|
||||||
|
"kernelspec": {
|
||||||
|
"display_name": "pytorch2",
|
||||||
|
"language": "python",
|
||||||
|
"name": "python3"
|
||||||
|
},
|
||||||
|
"language_info": {
|
||||||
|
"codemirror_mode": {
|
||||||
|
"name": "ipython",
|
||||||
|
"version": 3
|
||||||
|
},
|
||||||
|
"file_extension": ".py",
|
||||||
|
"mimetype": "text/x-python",
|
||||||
|
"name": "python",
|
||||||
|
"nbconvert_exporter": "python",
|
||||||
|
"pygments_lexer": "ipython3",
|
||||||
|
"version": "3.10.8"
|
||||||
|
},
|
||||||
|
"orig_nbformat": 4,
|
||||||
|
"vscode": {
|
||||||
|
"interpreter": {
|
||||||
|
"hash": "7f5833218766b48e6e35e4452ee875aac0e2188d05bbe5298f2c62b79f08b222"
|
||||||
|
}
|
||||||
|
}
|
||||||
|
},
|
||||||
|
"nbformat": 4,
|
||||||
|
"nbformat_minor": 2
|
||||||
|
}
|
Loading…
Reference in New Issue
Block a user