339 lines
10 KiB
Plaintext
339 lines
10 KiB
Plaintext
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{
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"cells": [
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"## Pretrenowanie modeli\n",
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"\n"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"System AlphaZero uczy się grając sam ze sobą — wystarczy 24 godziny,\n",
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"by system nauczył się grać w szachy lub go na nadludzkim poziomie.\n",
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"\n",
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"**Pytanie**: Dlaczego granie samemu ze sobą nie jest dobrym sposobem\n",
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" nauczenia się grania w szachy dla człowieka, a dla maszyny jest?\n",
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"\n",
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"Co jest odpowiednikiem grania samemu ze sobą w świecie przetwarzania tekstu?\n",
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"Tzn. **pretrenowanie** (*pretraining*) na dużym korpusie tekstu. (Tekst jest tani!)\n",
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"\n",
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"Jest kilka sposobów na pretrenowanie modelu, w każdym razie sprowadza\n",
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"się do odgadywania następnego bądź zamaskowanego słowa.\n",
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"W każdym razie zawsze stosujemy softmax (być może ze „sztuczkami” takimi jak\n",
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"negatywne próbkowanie albo hierarchiczny softamx) na pewnej **representecji kontekstowej**:\n",
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"\n",
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"$$\\vec{p} = \\operatorname{softmax}(f(\\vec{c})).$$\n",
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"\n",
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"Model jest karany używając funkcji log loss:\n",
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"\n",
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"$$-\\log(p_j),$$\n",
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"\n",
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"gdzie $w_j$ jest wyrazem, który pojawił się rzeczywiście w korpusie.\n",
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"\n"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"### Przewidywanie słowa (GPT-2)\n",
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"\n"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"Jeden ze sposobów pretrenowania modelu to po prostu przewidywanie\n",
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"następnego słowa.\n",
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"\n",
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"Zainstalujmy najpierw bibliotekę transformers.\n",
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"\n"
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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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"! pip install transformers"
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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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"50257\n"
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]
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},
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{
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"data": {
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"text/plain": [
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"[('Ġon', 0.6786560416221619),\n",
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" ('Ġupon', 0.04339785501360893),\n",
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" ('Ġheavily', 0.02208443358540535),\n",
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" ('Ġin', 0.021049050614237785),\n",
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" (',', 0.020188499242067337),\n",
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" ('Ġa', 0.01833895780146122),\n",
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" ('Ġvery', 0.017935041338205338),\n",
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" ('Ġentirely', 0.017528969794511795),\n",
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" ('Ġlargely', 0.016769640147686005),\n",
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" ('Ġto', 0.01009418722242117),\n",
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" ('Ġgreatly', 0.010009866207838058),\n",
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" ('Ġnot', 0.009016563184559345),\n",
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" ('Ġmore', 0.005853226874023676),\n",
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" ('Ġprimarily', 0.005203146021813154),\n",
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" ('Ġstrongly', 0.0034501152113080025),\n",
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" ('Ġpartly', 0.0033184229396283627),\n",
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" ('Ġmuch', 0.0033095215912908316),\n",
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" ('Ġmostly', 0.0032150144688785076),\n",
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" ('Ġmainly', 0.0030899408739060163),\n",
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" ('Ġfor', 0.003034428460523486),\n",
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" ('.', 0.0028878094162791967),\n",
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" ('Ġboth', 0.0028405177872627974),\n",
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" ('Ġsomewhat', 0.0028194624464958906),\n",
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" ('Ġcru', 0.002263976726680994),\n",
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" ('Ġas', 0.00221616611815989),\n",
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" ('Ġof', 0.0022000609897077084),\n",
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" ('Ġalmost', 0.001968063646927476),\n",
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" ('Ġat', 0.0018015997484326363),\n",
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" ('Ġhighly', 0.0017461496172472835),\n",
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" ('Ġcompletely', 0.001692073536105454)]"
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]
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},
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"execution_count": 5,
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"metadata": {},
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"output_type": "execute_result"
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}
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],
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"source": [
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"import torch\n",
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"from transformers import GPT2Tokenizer, GPT2LMHeadModel\n",
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"tokenizer = GPT2Tokenizer.from_pretrained('gpt2-large')\n",
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"model = GPT2LMHeadModel.from_pretrained('gpt2-large')\n",
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"text = \"This issue depends\"\n",
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"encoded_input = tokenizer(text, return_tensors='pt')\n",
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"output = model(**encoded_input)\n",
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"next_token_probs = torch.softmax(output[0][:, -1, :][0], dim=0)\n",
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"\n",
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"next_token_probs\n",
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"nb_of_tokens = next_token_probs.size()[0]\n",
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"print(nb_of_tokens)\n",
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"\n",
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"_, top_k_indices = torch.topk(next_token_probs, 30, sorted=True)\n",
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"\n",
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"words = tokenizer.convert_ids_to_tokens(top_k_indices)\n",
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"\n",
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"top_probs = []\n",
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"\n",
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"for ix in range(len(top_k_indices)):\n",
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" top_probs.append((words[ix], next_token_probs[top_k_indices[ix]].item()))\n",
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"\n",
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"top_probs"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"Zalety tego podejścia:\n",
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"\n",
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"- prostota,\n",
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"- dobra podstawa do strojenia systemów generowania tekstu zwłaszcza\n",
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" „otwartego” (systemy dialogowe, generowanie (fake) newsów, streszczanie tekstu),\n",
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" ale niekoniecznie tłumaczenia maszynowego,\n",
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"- zaskakująca skuteczność przy uczeniu *few-shot* i *zero-shot*.\n",
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"\n",
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"Wady:\n",
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"\n",
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"- asymetryczność, przetwarzanie tylko z lewej do prawej, preferencja\n",
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" dla lewego kontekstu,\n",
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"- mniejsza skuteczność przy dostrajaniu do zadań klasyfikacji i innych zadań\n",
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" niepolegających na prostym generowaniu.\n",
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"\n",
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"Przykłady modeli: GPT, GPT-2, GPT-3, DialoGPT.\n",
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"\n"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"### Maskowanie słów (BERT)\n",
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"\n"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"Inną metodą jest maskowanie słów (*Masked Language Modeling*, *MLM*).\n",
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"\n",
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"W tym podejściu losowe wybrane zastępujemy losowe słowa specjalnym\n",
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"tokenem (`[MASK]`) i każemy modelowi odgadywać w ten sposób\n",
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"zamaskowane słowa (z uwzględnieniem również prawego kontekstu!).\n",
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"\n",
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"Móciąc ściśle, w jednym z pierwszych modeli tego typu (BERT)\n",
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"zastosowano schemat, w którym również niezamaskowane słowa są odgadywane (!):\n",
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"\n",
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"- wybieramy losowe 15% wyrazów do odgadnięcia\n",
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"- 80% z nich zastępujemy tokenem `[MASK]`,\n",
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"- 10% zastępujemy innym losowym wyrazem,\n",
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"- 10% pozostawiamy bez zmian.\n",
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"\n"
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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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{
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"name": "stdout",
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"output_type": "stream",
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"text": [
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"# Out[3]:"
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]
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}
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],
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"source": [
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"from transformers import AutoModelWithLMHead, AutoTokenizer\n",
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"import torch\n",
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"\n",
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"tokenizer = AutoTokenizer.from_pretrained(\"xlm-roberta-large\")\n",
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"model = AutoModelWithLMHead.from_pretrained(\"xlm-roberta-large\")\n",
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"\n",
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"sequence = f'II wojna światowa zakończyła się w {tokenizer.mask_token} roku.'\n",
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"\n",
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"input_ids = tokenizer.encode(sequence, return_tensors=\"pt\")\n",
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"mask_token_index = torch.where(input_ids == tokenizer.mask_token_id)[1]\n",
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"\n",
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"token_logits = model(input_ids)[0]\n",
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"mask_token_logits = token_logits[0, mask_token_index, :]\n",
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"mask_token_logits = torch.softmax(mask_token_logits, dim=1)\n",
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"\n",
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"top_10 = torch.topk(mask_token_logits, 10, dim=1)\n",
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"top_10_tokens = zip(top_10.indices[0].tolist(), top_10.values[0].tolist())\n",
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"\n",
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"for token, score in top_10_tokens:\n",
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" print(sequence.replace(tokenizer.mask_token, tokenizer.decode([token])), f\"(score: {score})\")"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"Przykłady: BERT, RoBERTa (również Polish RoBERTa).\n",
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"\n"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"### Podejście generatywne (koder-dekoder).\n",
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"\n"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"System ma wygenerować odpowiedź na różne pytania (również\n",
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"odpowiadające zadaniu MLM), np.:\n",
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"\n",
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"- \"translate English to German: That is good.\" => \"Das ist gut.\"\n",
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"- \"cola sentence: The course is jumping well.\" => \"not acceptable\"\n",
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"- \"summarize: state authorities dispatched emergency crews tuesday to survey the damage after an onslaught of severe weather in mississippi…\"\n",
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" => \"six people hospitalized after a storm in attala county\"\n",
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"- \"Thank you for <X> me to your party <Y> week.\" => <X> for inviting <Y> last <Z>\n",
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"\n"
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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 transformers import T5Tokenizer, T5Config, T5ForConditionalGeneration\n",
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"\n",
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"T5_PATH = 't5-base'\n",
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"\n",
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"t5_tokenizer = T5Tokenizer.from_pretrained(T5_PATH)\n",
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"t5_config = T5Config.from_pretrained(T5_PATH)\n",
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"t5_mlm = T5ForConditionalGeneration.from_pretrained(T5_PATH, config=t5_config)\n",
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"\n",
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"slot = '<extra_id_0>'\n",
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"\n",
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"text = f'Warsaw is the {slot} of Poland.'\n",
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"\n",
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"encoded = t5_tokenizer.encode_plus(text, add_special_tokens=True, return_tensors='pt')\n",
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"input_ids = encoded['input_ids']\n",
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"\n",
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"outputs = t5_mlm.generate(input_ids=input_ids,\n",
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" num_beams=200, num_return_sequences=5,\n",
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" max_length=5)\n",
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"\n",
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"_0_index = text.index(slot)\n",
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"_result_prefix = text[:_0_index]\n",
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"_result_suffix = text[_0_index+len(slot):]\n",
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"\n",
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"def _filter(output, end_token='<extra_id_1>'):\n",
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" _txt = t5_tokenizer.decode(output[2:], skip_special_tokens=False, clean_up_tokenization_spaces=False)\n",
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" if end_token in _txt:\n",
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" _end_token_index = _txt.index(end_token)\n",
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" return _result_prefix + _txt[:_end_token_index] + _result_suffix\n",
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" else:\n",
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" return _result_prefix + _txt + _result_suffix\n",
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"\n",
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"\n",
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"results = [_filter(out) for out in outputs]\n",
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"results"
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]
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},
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{
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"cell_type": "markdown",
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"metadata": {},
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"source": [
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"(Zob. [https://arxiv.org/pdf/1910.10683.pdf](https://arxiv.org/pdf/1910.10683.pdf))\n",
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"\n",
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"Przykład: T5, mT5\n",
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"\n"
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]
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}
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],
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"metadata": {
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"kernelspec": {
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"display_name": "Python 3",
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"language": "python",
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"name": "python3"
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},
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"language_info": {
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"codemirror_mode": {
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"name": "ipython",
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"version": 3
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},
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"file_extension": ".py",
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"mimetype": "text/x-python",
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"name": "python",
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"nbconvert_exporter": "python",
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"pygments_lexer": "ipython3",
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"version": "3.9.2"
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},
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"org": null
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},
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"nbformat": 4,
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"nbformat_minor": 1
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}
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