{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# MODELIŲ MOKYMAS IR GERIAUSIŲ PARAMETRŲ PAIEŠKA"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<div>\n",
       "<style scoped>\n",
       "    .dataframe tbody tr th:only-of-type {\n",
       "        vertical-align: middle;\n",
       "    }\n",
       "\n",
       "    .dataframe tbody tr th {\n",
       "        vertical-align: top;\n",
       "    }\n",
       "\n",
       "    .dataframe thead th {\n",
       "        text-align: right;\n",
       "    }\n",
       "</style>\n",
       "<table border=\"1\" class=\"dataframe\">\n",
       "  <thead>\n",
       "    <tr style=\"text-align: right;\">\n",
       "      <th></th>\n",
       "      <th>Date</th>\n",
       "      <th>Title</th>\n",
       "      <th>Rating</th>\n",
       "    </tr>\n",
       "  </thead>\n",
       "  <tbody>\n",
       "    <tr>\n",
       "      <th>6475</th>\n",
       "      <td>2017-05-22</td>\n",
       "      <td>Very bad.I can't register any of my …</td>\n",
       "      <td>1.0</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>6476</th>\n",
       "      <td>2017-05-19</td>\n",
       "      <td>Functional platform but seriously lacking in c...</td>\n",
       "      <td>3.0</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>6477</th>\n",
       "      <td>2017-05-18</td>\n",
       "      <td>No reservations.</td>\n",
       "      <td>5.0</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>6478</th>\n",
       "      <td>2017-05-18</td>\n",
       "      <td>I HOPE YOU SEE THIS BEFORE You send …</td>\n",
       "      <td>1.0</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>6479</th>\n",
       "      <td>2017-05-16</td>\n",
       "      <td>Coinbase - the rock star crypto app</td>\n",
       "      <td>4.0</td>\n",
       "    </tr>\n",
       "  </tbody>\n",
       "</table>\n",
       "</div>"
      ],
      "text/plain": [
       "            Date                                              Title  Rating\n",
       "6475  2017-05-22              Very bad.I can't register any of my …     1.0\n",
       "6476  2017-05-19  Functional platform but seriously lacking in c...     3.0\n",
       "6477  2017-05-18                                   No reservations.     5.0\n",
       "6478  2017-05-18              I HOPE YOU SEE THIS BEFORE You send …     1.0\n",
       "6479  2017-05-16                Coinbase - the rock star crypto app     4.0"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "import pandas as pd\n",
    "reviews = pd.read_csv('trustpilot_coinbase_reviews-strip.csv', sep='|')\n",
    "reviews.tail()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Linear Regression Model:\n",
      "Mean Squared (MSE): 1309806.40\n",
      "Mean Absolute Error (MAE): 700.22\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.72%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "import pandas as pd\n",
    "import numpy as np\n",
    "from sklearn.linear_model import LinearRegression\n",
    "from sklearn.preprocessing import StandardScaler\n",
    "from sklearn.metrics import mean_squared_error, mean_absolute_error, r2_score\n",
    "\n",
    "\n",
    "def mean_absolute_percentage_error(y_true, y_pred):\n",
    "    y_true, y_pred = np.array(y_true), np.array(y_pred)\n",
    "    return np.mean(np.abs((y_true - y_pred) / y_true)) * 100\n",
    "\n",
    "def eval_regression(X_train, X_test, y_train, y_test, model, description):\n",
    "    model.fit(X_train, y_train)\n",
    "    y_pred = model.predict(X_test)\n",
    "    \n",
    "    mse = mean_squared_error(y_test, y_pred)\n",
    "    mae = mean_absolute_error(y_test, y_pred)\n",
    "    r2 = r2_score(y_test, y_pred)\n",
    "    mape = mean_absolute_percentage_error(y_test, y_pred)\n",
    "    \n",
    "    print(description)\n",
    "    print(f\"Mean Squared (MSE): {mse:.2f}\")\n",
    "    print(f\"Mean Absolute Error (MAE): {mae:.2f}\")\n",
    "    print(f\"R^2: {r2:.2f}\")\n",
    "    print(f\"Mean Absolute % (MAPE): {mape:.2f}%\")\n",
    "    print('='*50 + '\\n')\n",
    "btc_all = pd.read_csv('combined_btc_data.csv')\n",
    "\n",
    "btc_all['Date'] = pd.to_datetime(btc_all['Date'])\n",
    "btc_all['Day'] = btc_all['Date'].dt.day\n",
    "btc_all['Month'] = btc_all['Date'].dt.month\n",
    "btc_all['Year'] = btc_all['Date'].dt.year\n",
    "\n",
    "# Create lag\n",
    "btc_all['Lag_Close_1'] = btc_all['Close'].shift(1)\n",
    "btc_all['Lag_Close_2'] = btc_all['Close'].shift(2)\n",
    "btc_all['Lag_Volume_1'] = btc_all['Volume'].shift(1)\n",
    "btc_all['Lag_Volume_2'] = btc_all['Volume'].shift(2)\n",
    "\n",
    "btc_all.dropna(inplace=True)\n",
    "\n",
    "X = btc_all[['Lag_Close_1', 'Lag_Close_2', 'Lag_Volume_1', 'Lag_Volume_2', 'Day', 'Month', 'Year']]\n",
    "y = btc_all['Close']\n",
    "\n",
    "btc_all.sort_values('Date', inplace=True)\n",
    "\n",
    "split_point = int(len(btc_all) * 0.85) # only newest data for test to prevent leakage\n",
    "\n",
    "X_train = X.iloc[:split_point]\n",
    "X_test = X.iloc[split_point:]\n",
    "y_train = y.iloc[:split_point]\n",
    "y_test = y.iloc[split_point:]\n",
    "\n",
    "# Normalize\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "model = LinearRegression()\n",
    "\n",
    "eval_regression(X_train, X_test, y_train, y_test, model, \"Linear Regression Model:\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### PRIDEDAME TRUSTPILOT REITINGUS"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Linear Regression Model (with added Coinmarketcap rating feature):\n",
      "Mean Squared (MSE): 1601648.70\n",
      "Mean Absolute Error (MAE): 779.05\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.67%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "import pandas as pd\n",
    "from sklearn.preprocessing import StandardScaler\n",
    "from sklearn.linear_model import LinearRegression\n",
    "\n",
    "btc_all = pd.read_csv('combined_btc_data.csv')\n",
    "reviews = pd.read_csv('trustpilot_coinbase_reviews-strip.csv', sep='|')\n",
    "\n",
    "reviews = reviews[reviews['Date'].apply(is_date)]\n",
    "reviews['Date'] = pd.to_datetime(reviews['Date'])\n",
    "\n",
    "reviews['YearMonth'] = reviews['Date'].dt.to_period('M')\n",
    "\n",
    "monthly_mean_rating = reviews.groupby('YearMonth')['Rating'].mean().reset_index()\n",
    "monthly_mean_rating['Date'] = monthly_mean_rating['YearMonth'].dt.to_timestamp()\n",
    "\n",
    "btc_all['Date'] = pd.to_datetime(btc_all['Date'])\n",
    "\n",
    "# date for monthly_mean_rating\n",
    "btc_all['YearMonth'] = btc_all['Date'].dt.to_period('M')\n",
    "\n",
    "btc_all = pd.merge(btc_all, monthly_mean_rating, on='YearMonth', how='left')\n",
    "btc_all['Date'] =  btc_all['Date_x']\n",
    "btc_all = btc_all.drop(columns=['Date_x', 'Date_y'])\n",
    "\n",
    "btc_all['Rating'].fillna(method='ffill', inplace=True)\n",
    "\n",
    "btc_all['Lag_Close_1'] = btc_all['Close'].shift(1)\n",
    "btc_all['Lag_Close_2'] = btc_all['Close'].shift(2)\n",
    "btc_all['Lag_Volume_1'] = btc_all['Volume'].shift(1)\n",
    "btc_all['Lag_Volume_2'] = btc_all['Volume'].shift(2)\n",
    "\n",
    "btc_all.dropna(inplace=True)\n",
    "\n",
    "btc_all['Day'] = btc_all['Date'].dt.day\n",
    "btc_all['Month'] = btc_all['Date'].dt.month\n",
    "btc_all['Year'] = btc_all['Date'].dt.year\n",
    "\n",
    "X = btc_all[['Lag_Close_1', 'Lag_Close_2', 'Lag_Volume_1', 'Lag_Volume_2', 'Day', 'Month', 'Year', 'Rating']]\n",
    "y = btc_all['Close']\n",
    "\n",
    "btc_all.sort_values('Date', inplace=True)\n",
    "\n",
    "split_point = int(len(btc_all) * 0.85) # 15% of most recent data for testing\n",
    "X_train = X.iloc[:split_point]\n",
    "X_test = X.iloc[split_point:]\n",
    "y_train = y.iloc[:split_point]\n",
    "y_test = y.iloc[split_point:]\n",
    "\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "model = LinearRegression()\n",
    "model.fit(X_train, y_train)\n",
    "\n",
    "eval_regression(X_train, X_test, y_train, y_test, model, \"Linear Regression Model (with added Coinmarketcap rating feature):\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# GridSearch paieška / POLYNOMIAL "
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best Model with Grid Search and Polynomial Features\n",
      "Mean Squared (MSE): 1311689.86\n",
      "Mean Absolute Error (MAE): 700.54\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.72%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "import pandas as pd\n",
    "from sklearn.preprocessing import StandardScaler, PolynomialFeatures\n",
    "from sklearn.linear_model import LinearRegression\n",
    "from sklearn.model_selection import GridSearchCV\n",
    "from sklearn.pipeline import Pipeline\n",
    "\n",
    "btc_all = pd.read_csv('combined_btc_data.csv')\n",
    "reviews = pd.read_csv('trustpilot_coinbase_reviews-strip.csv', sep='|')\n",
    "\n",
    "reviews = reviews[reviews['Date'].apply(is_date)]\n",
    "reviews['Date'] = pd.to_datetime(reviews['Date'])\n",
    "\n",
    "reviews['YearMonth'] = reviews['Date'].dt.to_period('M')\n",
    "\n",
    "monthly_mean_rating = reviews.groupby('YearMonth')['Rating'].mean().reset_index()\n",
    "monthly_mean_rating['Date'] = monthly_mean_rating['YearMonth'].dt.to_timestamp()\n",
    "\n",
    "btc_all['Date'] = pd.to_datetime(btc_all['Date'])\n",
    "\n",
    "btc_all['YearMonth'] = btc_all['Date'].dt.to_period('M')\n",
    "\n",
    "btc_all = pd.merge(btc_all, monthly_mean_rating, on='YearMonth', how='left')\n",
    "btc_all['Date'] =  btc_all['Date_x']\n",
    "btc_all = btc_all.drop(columns=['Date_x', 'Date_y'])\n",
    "\n",
    "btc_all['Rating'].fillna(method='ffill', inplace=True)\n",
    "\n",
    "btc_all['Lag_Close_1'] = btc_all['Close'].shift(1)\n",
    "btc_all['Lag_Close_2'] = btc_all['Close'].shift(2)\n",
    "btc_all['Lag_Volume_1'] = btc_all['Volume'].shift(1)\n",
    "btc_all['Lag_Volume_2'] = btc_all['Volume'].shift(2)\n",
    "\n",
    "btc_all.dropna(inplace=True)\n",
    "\n",
    "btc_all['Day'] = btc_all['Date'].dt.day\n",
    "btc_all['Month'] = btc_all['Date'].dt.month\n",
    "btc_all['Year'] = btc_all['Date'].dt.year\n",
    "\n",
    "X = btc_all[['Lag_Close_1', 'Lag_Close_2', 'Lag_Volume_1', 'Lag_Volume_2', 'Day', 'Month', 'Year', 'Rating']]\n",
    "y = btc_all['Close']\n",
    "\n",
    "btc_all.sort_values('Date', inplace=True)\n",
    "\n",
    "split_point = int(len(btc_all) * 0.80)\n",
    "X_train = X.iloc[:split_point]\n",
    "X_test = X.iloc[split_point:]\n",
    "y_train = y.iloc[:split_point]\n",
    "y_test = y.iloc[split_point:]\n",
    "\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "pipeline = Pipeline([\n",
    "    ('scaler', StandardScaler()),\n",
    "    ('poly', PolynomialFeatures()),\n",
    "    ('model', LinearRegression())\n",
    "])\n",
    "\n",
    "param_grid = {\n",
    "    'poly__degree': [1, 2, 3],\n",
    "    'model': [LinearRegression()]\n",
    "}\n",
    "\n",
    "grid_search = GridSearchCV(pipeline, param_grid, cv=5, scoring='neg_mean_squared_error')\n",
    "grid_search.fit(X_train, y_train)\n",
    "\n",
    "best_model = grid_search.best_estimator_\n",
    "\n",
    "eval_regression(X_train, X_test, y_train, y_test, best_model, \"Best Model with Grid Search and Polynomial Features\")\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best Model with Grid Search and Polynomial Features\n",
      "Mean Squared (MSE): 1601648.70\n",
      "Mean Absolute Error (MAE): 779.05\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.67%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "import pandas as pd\n",
    "from sklearn.preprocessing import StandardScaler, PolynomialFeatures\n",
    "from sklearn.linear_model import LinearRegression\n",
    "from sklearn.model_selection import GridSearchCV\n",
    "from sklearn.pipeline import Pipeline\n",
    "\n",
    "btc_all = pd.read_csv('combined_btc_data.csv')\n",
    "reviews = pd.read_csv('trustpilot_coinbase_reviews-strip.csv', sep='|')\n",
    "\n",
    "reviews = reviews[reviews['Date'].apply(is_date)]\n",
    "reviews['Date'] = pd.to_datetime(reviews['Date'])\n",
    "\n",
    "reviews['YearMonth'] = reviews['Date'].dt.to_period('M')\n",
    "\n",
    "monthly_mean_rating = reviews.groupby('YearMonth')['Rating'].mean().reset_index()\n",
    "monthly_mean_rating['Date'] = monthly_mean_rating['YearMonth'].dt.to_timestamp()\n",
    "\n",
    "btc_all['Date'] = pd.to_datetime(btc_all['Date'])\n",
    "\n",
    "btc_all['YearMonth'] = btc_all['Date'].dt.to_period('M')\n",
    "\n",
    "btc_all = pd.merge(btc_all, monthly_mean_rating, on='YearMonth', how='left')\n",
    "btc_all['Date'] =  btc_all['Date_x']\n",
    "btc_all = btc_all.drop(columns=['Date_x', 'Date_y'])\n",
    "\n",
    "btc_all['Rating'].fillna(method='ffill', inplace=True)\n",
    "\n",
    "btc_all['Lag_Close_1'] = btc_all['Close'].shift(1)\n",
    "btc_all['Lag_Close_2'] = btc_all['Close'].shift(2)\n",
    "btc_all['Lag_Volume_1'] = btc_all['Volume'].shift(1)\n",
    "btc_all['Lag_Volume_2'] = btc_all['Volume'].shift(2)\n",
    "\n",
    "btc_all.dropna(inplace=True)\n",
    "\n",
    "btc_all['Day'] = btc_all['Date'].dt.day\n",
    "btc_all['Month'] = btc_all['Date'].dt.month\n",
    "btc_all['Year'] = btc_all['Date'].dt.year\n",
    "\n",
    "X = btc_all[['Lag_Close_1', 'Lag_Close_2', 'Lag_Volume_1', 'Lag_Volume_2', 'Day', 'Month', 'Year', 'Rating']]\n",
    "y = btc_all['Close']\n",
    "\n",
    "btc_all.sort_values('Date', inplace=True)\n",
    "\n",
    "split_point = int(len(btc_all) * 0.85)\n",
    "X_train = X.iloc[:split_point]\n",
    "X_test = X.iloc[split_point:]\n",
    "y_train = y.iloc[:split_point]\n",
    "y_test = y.iloc[split_point:]\n",
    "\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "pipeline = Pipeline([\n",
    "    ('scaler', StandardScaler()),\n",
    "    ('poly', PolynomialFeatures()),\n",
    "    ('model', LinearRegression())\n",
    "])\n",
    "\n",
    "param_grid = {\n",
    "    'poly__degree': [1, 2, 3],\n",
    "    'model': [LinearRegression()]\n",
    "}\n",
    "\n",
    "grid_search = GridSearchCV(pipeline, param_grid, cv=5, scoring='neg_mean_squared_error')\n",
    "grid_search.fit(X_train, y_train)\n",
    "\n",
    "best_model = grid_search.best_estimator_\n",
    "\n",
    "eval_regression(X_train, X_test, y_train, y_test, best_model, \"Best Model with Grid Search and Polynomial Features\")\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Linear Regression Model:\n",
      "Mean Squared (MSE): 1601648.70\n",
      "Mean Absolute Error (MAE): 779.05\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.67%\n",
      "==================================================\n",
      "\n",
      "Polynomial Regression Model:\n",
      "Mean Squared (MSE): 1980812.82\n",
      "Mean Absolute Error (MAE): 893.67\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.92%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "import pandas as pd\n",
    "from sklearn.preprocessing import StandardScaler, PolynomialFeatures\n",
    "from sklearn.linear_model import LinearRegression\n",
    "\n",
    "btc_all = pd.read_csv('combined_btc_data.csv')\n",
    "reviews = pd.read_csv('trustpilot_coinbase_reviews-strip.csv', sep='|')\n",
    "\n",
    "reviews = reviews[reviews['Date'].apply(is_date)]\n",
    "reviews['Date'] = pd.to_datetime(reviews['Date'])\n",
    "\n",
    "reviews['YearMonth'] = reviews['Date'].dt.to_period('M')\n",
    "\n",
    "monthly_mean_rating = reviews.groupby('YearMonth')['Rating'].mean().reset_index()\n",
    "monthly_mean_rating['Date'] = monthly_mean_rating['YearMonth'].dt.to_timestamp()\n",
    "\n",
    "btc_all['Date'] = pd.to_datetime(btc_all['Date'])\n",
    "\n",
    "btc_all['YearMonth'] = btc_all['Date'].dt.to_period('M')\n",
    "\n",
    "btc_all = pd.merge(btc_all, monthly_mean_rating, on='YearMonth', how='left')\n",
    "btc_all['Date'] =  btc_all['Date_x']\n",
    "btc_all = btc_all.drop(columns=['Date_x', 'Date_y'])\n",
    "\n",
    "btc_all['Rating'].fillna(method='ffill', inplace=True)\n",
    "\n",
    "btc_all['Lag_Close_1'] = btc_all['Close'].shift(1)\n",
    "btc_all['Lag_Close_2'] = btc_all['Close'].shift(2)\n",
    "btc_all['Lag_Volume_1'] = btc_all['Volume'].shift(1)\n",
    "btc_all['Lag_Volume_2'] = btc_all['Volume'].shift(2)\n",
    "\n",
    "btc_all.dropna(inplace=True)\n",
    "\n",
    "btc_all['Day'] = btc_all['Date'].dt.day\n",
    "btc_all['Month'] = btc_all['Date'].dt.month\n",
    "btc_all['Year'] = btc_all['Date'].dt.year\n",
    "\n",
    "X = btc_all[['Lag_Close_1', 'Lag_Close_2', 'Lag_Volume_1', 'Lag_Volume_2', 'Day', 'Month', 'Year', 'Rating']]\n",
    "y = btc_all['Close']\n",
    "\n",
    "btc_all.sort_values('Date', inplace=True)\n",
    "\n",
    "split_point = int(len(btc_all) * 0.85)\n",
    "X_train = X.iloc[:split_point]\n",
    "X_test = X.iloc[split_point:]\n",
    "y_train = y.iloc[:split_point]\n",
    "y_test = y.iloc[split_point:]\n",
    "\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "# Linear model\n",
    "linear_model = LinearRegression()\n",
    "linear_model.fit(X_train, y_train)\n",
    "eval_regression(X_train, X_test, y_train, y_test, linear_model, \"Linear Regression Model:\")\n",
    "\n",
    "# Polynomial model\n",
    "poly = PolynomialFeatures(degree=2)\n",
    "X_train_poly = poly.fit_transform(X_train)\n",
    "X_test_poly = poly.transform(X_test)\n",
    "\n",
    "poly_model = LinearRegression()\n",
    "poly_model.fit(X_train_poly, y_train)\n",
    "eval_regression(X_train_poly, X_test_poly, y_train, y_test, poly_model, \"Polynomial Regression Model:\")\n",
    "\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "{'model': LinearRegression(), 'poly__degree': 1}"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "grid_search.best_params_ "
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Degree 1 = NoPoly"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Pridedame daugiau parametrų:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Fitting 5 folds for each of 28 candidates, totalling 140 fits\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=2; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=2; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=2; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=2; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=2; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=3; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=3; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=3; total time=   0.1s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=3; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=3; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=4; total time=   0.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=4; total time=   0.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=4; total time=   0.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=4; total time=   0.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=4; total time=   0.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=5; total time=   2.4s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=5; total time=   2.4s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=5; total time=   2.4s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=5; total time=   2.5s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=5; total time=   2.4s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=6; total time=   5.5s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=6; total time=   5.4s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=6; total time=   5.5s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=6; total time=   5.9s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=6; total time=   5.6s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=7; total time=   7.2s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=7; total time=   7.2s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=7; total time=   7.5s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=7; total time=   7.1s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=7; total time=   7.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=8; total time=  10.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=8; total time=  10.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=8; total time=  10.2s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=8; total time=  10.2s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=8; total time=  10.2s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=9; total time=  15.4s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=9; total time=  15.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=9; total time=  15.2s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=9; total time=  16.3s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=9; total time=  16.4s\n",
      "[CV] END ..........model=LinearRegression(), poly__degree=10; total time=  30.1s\n",
      "[CV] END ..........model=LinearRegression(), poly__degree=10; total time=  27.3s\n",
      "[CV] END ..........model=LinearRegression(), poly__degree=10; total time=  27.8s\n",
      "[CV] END ..........model=LinearRegression(), poly__degree=10; total time=  28.6s\n",
      "[CV] END ..........model=LinearRegression(), poly__degree=10; total time=  29.5s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=2; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=2; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=2; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=2; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=2; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=3; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=3; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=3; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=3; total time=   0.0s\n",
      "[CV] END ......model=Ridge(), model__alpha=1, poly__degree=3; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=3; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=3; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=3; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=3; total time=   0.0s\n",
      "[CV] END .....model=Ridge(), model__alpha=10, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Ridge(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=1; total time=   0.1s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=2; total time=   0.1s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=2; total time=   0.1s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=2; total time=   0.1s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=2; total time=   0.0s\n",
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=2; total time=   0.1s\n"
     ]
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "c:\\Documents\\PythonMokymai repo\\PythonMokymai0\\mokymai\\lib\\site-packages\\sklearn\\linear_model\\_coordinate_descent.py:628: ConvergenceWarning: Objective did not converge. You might want to increase the number of iterations, check the scale of the features or consider increasing regularisation. Duality gap: 8.100e+08, tolerance: 5.000e+07\n",
      "  model = cd_fast.enet_coordinate_descent(\n"
     ]
    },
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=3; total time=   0.4s\n"
     ]
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "c:\\Documents\\PythonMokymai repo\\PythonMokymai0\\mokymai\\lib\\site-packages\\sklearn\\linear_model\\_coordinate_descent.py:628: ConvergenceWarning: Objective did not converge. You might want to increase the number of iterations, check the scale of the features or consider increasing regularisation. Duality gap: 8.623e+08, tolerance: 5.001e+07\n",
      "  model = cd_fast.enet_coordinate_descent(\n"
     ]
    },
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=3; total time=   0.5s\n"
     ]
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "c:\\Documents\\PythonMokymai repo\\PythonMokymai0\\mokymai\\lib\\site-packages\\sklearn\\linear_model\\_coordinate_descent.py:628: ConvergenceWarning: Objective did not converge. You might want to increase the number of iterations, check the scale of the features or consider increasing regularisation. Duality gap: 8.845e+08, tolerance: 5.368e+07\n",
      "  model = cd_fast.enet_coordinate_descent(\n"
     ]
    },
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=3; total time=   0.4s\n"
     ]
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "c:\\Documents\\PythonMokymai repo\\PythonMokymai0\\mokymai\\lib\\site-packages\\sklearn\\linear_model\\_coordinate_descent.py:628: ConvergenceWarning: Objective did not converge. You might want to increase the number of iterations, check the scale of the features or consider increasing regularisation. Duality gap: 6.839e+07, tolerance: 1.476e+07\n",
      "  model = cd_fast.enet_coordinate_descent(\n"
     ]
    },
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=3; total time=   0.4s\n"
     ]
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "c:\\Documents\\PythonMokymai repo\\PythonMokymai0\\mokymai\\lib\\site-packages\\sklearn\\linear_model\\_coordinate_descent.py:628: ConvergenceWarning: Objective did not converge. You might want to increase the number of iterations, check the scale of the features or consider increasing regularisation. Duality gap: 7.514e+08, tolerance: 5.331e+07\n",
      "  model = cd_fast.enet_coordinate_descent(\n"
     ]
    },
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[CV] END ......model=Lasso(), model__alpha=1, poly__degree=3; total time=   0.5s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=2; total time=   0.0s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=3; total time=   0.3s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=3; total time=   0.1s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=3; total time=   0.3s\n",
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=3; total time=   0.0s\n"
     ]
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "c:\\Documents\\PythonMokymai repo\\PythonMokymai0\\mokymai\\lib\\site-packages\\sklearn\\linear_model\\_coordinate_descent.py:628: ConvergenceWarning: Objective did not converge. You might want to increase the number of iterations, check the scale of the features or consider increasing regularisation. Duality gap: 2.084e+08, tolerance: 5.331e+07\n",
      "  model = cd_fast.enet_coordinate_descent(\n"
     ]
    },
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[CV] END .....model=Lasso(), model__alpha=10, poly__degree=3; total time=   0.3s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=1; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=2; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "[CV] END ....model=Lasso(), model__alpha=100, poly__degree=3; total time=   0.0s\n",
      "Best Model with Grid Search and Poly, ext parameters:\n",
      "Mean Squared (MSE): 1616735.66\n",
      "Mean Absolute Error (MAE): 784.50\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.68%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "from sklearn.linear_model import LinearRegression, Ridge, Lasso\n",
    "from sklearn.model_selection import GridSearchCV\n",
    "from sklearn.pipeline import Pipeline\n",
    "\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "pipeline = Pipeline([\n",
    "    ('scaler', StandardScaler()),\n",
    "    ('poly', PolynomialFeatures()),\n",
    "    ('model', LinearRegression())\n",
    "])\n",
    "\n",
    "param_grid = [\n",
    "    {\n",
    "        'poly__degree': [i for i in range(1, 11)],\n",
    "        'model': [LinearRegression(random_state=seed) for seed in range(5)] \n",
    "    },\n",
    "    {\n",
    "        'poly__degree': [i for i in range(1, 4)],\n",
    "        'model': [Ridge()],\n",
    "        'model__alpha': [1, 10, 100]\n",
    "    },\n",
    "    {\n",
    "        'poly__degree': [i for i in range(1, 4)],\n",
    "        'model': [Lasso()],\n",
    "        'model__alpha': [1, 10, 100]\n",
    "    }\n",
    "]\n",
    "\n",
    "\n",
    "grid_search = GridSearchCV(pipeline, param_grid, cv=5, scoring='neg_mean_squared_error', verbose=2)\n",
    "grid_search.fit(X_train, y_train)\n",
    "\n",
    "best_model = grid_search.best_estimator_\n",
    "\n",
    "eval_regression(X_train, X_test, y_train, y_test, best_model, \"Best Model with Grid Search and Poly, ext parameters + seed search:\")"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Model 0: || Rank: 3 || Parameters: {'model': LinearRegression(), 'poly__degree': 1} || Mean Test Score(best=0): -922988.670489825\n",
      "================================================================================================================================================================\n",
      "Model 1: || Rank: 13 || Parameters: {'model': LinearRegression(), 'poly__degree': 2} || Mean Test Score(best=0): -3040558.790308443\n",
      "================================================================================================================================================================\n",
      "Model 2: || Rank: 20 || Parameters: {'model': LinearRegression(), 'poly__degree': 3} || Mean Test Score(best=0): -257448251.76484418\n",
      "================================================================================================================================================================\n",
      "Model 3: || Rank: 22 || Parameters: {'model': LinearRegression(), 'poly__degree': 4} || Mean Test Score(best=0): -46139966668.20374\n",
      "================================================================================================================================================================\n",
      "Model 4: || Rank: 23 || Parameters: {'model': LinearRegression(), 'poly__degree': 5} || Mean Test Score(best=0): -8.761141605548803e+16\n",
      "================================================================================================================================================================\n",
      "Model 5: || Rank: 24 || Parameters: {'model': LinearRegression(), 'poly__degree': 6} || Mean Test Score(best=0): -4.7987076821791664e+20\n",
      "================================================================================================================================================================\n",
      "Model 6: || Rank: 25 || Parameters: {'model': LinearRegression(), 'poly__degree': 7} || Mean Test Score(best=0): -3.97895441926736e+21\n",
      "================================================================================================================================================================\n",
      "Model 7: || Rank: 26 || Parameters: {'model': LinearRegression(), 'poly__degree': 8} || Mean Test Score(best=0): -2.239047370961113e+23\n",
      "================================================================================================================================================================\n",
      "Model 8: || Rank: 27 || Parameters: {'model': LinearRegression(), 'poly__degree': 9} || Mean Test Score(best=0): -1.1102195736332362e+25\n",
      "================================================================================================================================================================\n",
      "Model 9: || Rank: 28 || Parameters: {'model': LinearRegression(), 'poly__degree': 10} || Mean Test Score(best=0): -7.49236651207744e+25\n",
      "================================================================================================================================================================\n",
      "Model 10: || Rank: 5 || Parameters: {'model': Ridge(), 'model__alpha': 1, 'poly__degree': 1} || Mean Test Score(best=0): -939723.896123863\n",
      "================================================================================================================================================================\n",
      "Model 11: || Rank: 10 || Parameters: {'model': Ridge(), 'model__alpha': 1, 'poly__degree': 2} || Mean Test Score(best=0): -2555589.732520643\n",
      "================================================================================================================================================================\n",
      "Model 12: || Rank: 18 || Parameters: {'model': Ridge(), 'model__alpha': 1, 'poly__degree': 3} || Mean Test Score(best=0): -165117579.6495946\n",
      "================================================================================================================================================================\n",
      "Model 13: || Rank: 7 || Parameters: {'model': Ridge(), 'model__alpha': 10, 'poly__degree': 1} || Mean Test Score(best=0): -1102657.792390321\n",
      "================================================================================================================================================================\n",
      "Model 14: || Rank: 12 || Parameters: {'model': Ridge(), 'model__alpha': 10, 'poly__degree': 2} || Mean Test Score(best=0): -2870451.2741696965\n",
      "================================================================================================================================================================\n",
      "Model 15: || Rank: 19 || Parameters: {'model': Ridge(), 'model__alpha': 10, 'poly__degree': 3} || Mean Test Score(best=0): -213217639.25159657\n",
      "================================================================================================================================================================\n",
      "Model 16: || Rank: 11 || Parameters: {'model': Ridge(), 'model__alpha': 100, 'poly__degree': 1} || Mean Test Score(best=0): -2791623.1898638974\n",
      "================================================================================================================================================================\n",
      "Model 17: || Rank: 16 || Parameters: {'model': Ridge(), 'model__alpha': 100, 'poly__degree': 2} || Mean Test Score(best=0): -11153033.191843534\n",
      "================================================================================================================================================================\n",
      "Model 18: || Rank: 21 || Parameters: {'model': Ridge(), 'model__alpha': 100, 'poly__degree': 3} || Mean Test Score(best=0): -750937892.704158\n",
      "================================================================================================================================================================\n",
      "Model 19: || Rank: 2 || Parameters: {'model': Lasso(), 'model__alpha': 1, 'poly__degree': 1} || Mean Test Score(best=0): -920337.2255042918\n",
      "================================================================================================================================================================\n",
      "Model 20: || Rank: 9 || Parameters: {'model': Lasso(), 'model__alpha': 1, 'poly__degree': 2} || Mean Test Score(best=0): -2043422.844029424\n",
      "================================================================================================================================================================\n",
      "Model 21: || Rank: 17 || Parameters: {'model': Lasso(), 'model__alpha': 1, 'poly__degree': 3} || Mean Test Score(best=0): -112619768.06876549\n",
      "================================================================================================================================================================\n",
      "Model 22: || Rank: 1 || Parameters: {'model': Lasso(), 'model__alpha': 10, 'poly__degree': 1} || Mean Test Score(best=0): -909051.9193474293\n",
      "================================================================================================================================================================\n",
      "Model 23: || Rank: 8 || Parameters: {'model': Lasso(), 'model__alpha': 10, 'poly__degree': 2} || Mean Test Score(best=0): -1187192.4756851317\n",
      "================================================================================================================================================================\n",
      "Model 24: || Rank: 15 || Parameters: {'model': Lasso(), 'model__alpha': 10, 'poly__degree': 3} || Mean Test Score(best=0): -6123848.786681439\n",
      "================================================================================================================================================================\n",
      "Model 25: || Rank: 6 || Parameters: {'model': Lasso(), 'model__alpha': 100, 'poly__degree': 1} || Mean Test Score(best=0): -947106.7373970256\n",
      "================================================================================================================================================================\n",
      "Model 26: || Rank: 4 || Parameters: {'model': Lasso(), 'model__alpha': 100, 'poly__degree': 2} || Mean Test Score(best=0): -927324.8669255708\n",
      "================================================================================================================================================================\n",
      "Model 27: || Rank: 14 || Parameters: {'model': Lasso(), 'model__alpha': 100, 'poly__degree': 3} || Mean Test Score(best=0): -5066692.257320166\n",
      "================================================================================================================================================================\n"
     ]
    }
   ],
   "source": [
    "import shutil\n",
    "\n",
    "def print_all_models(results):\n",
    "    terminal_width = shutil.get_terminal_size().columns\n",
    "    terminal_width *= 2 if terminal_width == 80 else terminal_width\n",
    "    for i in range(len(results['params'])):\n",
    "        print(f\"Model {i}: || Rank: {results['rank_test_score'][i]} || Parameters: {results['params'][i]} || Mean Test Score(best=0): {results['mean_test_score'][i]}\")\n",
    "        print('='*terminal_width)\n",
    "\n",
    "print_all_models(grid_search.cv_results_)\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<style>#sk-container-id-1 {color: black;}#sk-container-id-1 pre{padding: 0;}#sk-container-id-1 div.sk-toggleable {background-color: white;}#sk-container-id-1 label.sk-toggleable__label {cursor: pointer;display: block;width: 100%;margin-bottom: 0;padding: 0.3em;box-sizing: border-box;text-align: center;}#sk-container-id-1 label.sk-toggleable__label-arrow:before {content: \"▸\";float: left;margin-right: 0.25em;color: #696969;}#sk-container-id-1 label.sk-toggleable__label-arrow:hover:before {color: black;}#sk-container-id-1 div.sk-estimator:hover label.sk-toggleable__label-arrow:before {color: black;}#sk-container-id-1 div.sk-toggleable__content {max-height: 0;max-width: 0;overflow: hidden;text-align: left;background-color: #f0f8ff;}#sk-container-id-1 div.sk-toggleable__content pre {margin: 0.2em;color: black;border-radius: 0.25em;background-color: #f0f8ff;}#sk-container-id-1 input.sk-toggleable__control:checked~div.sk-toggleable__content {max-height: 200px;max-width: 100%;overflow: auto;}#sk-container-id-1 input.sk-toggleable__control:checked~label.sk-toggleable__label-arrow:before {content: \"▾\";}#sk-container-id-1 div.sk-estimator input.sk-toggleable__control:checked~label.sk-toggleable__label {background-color: #d4ebff;}#sk-container-id-1 div.sk-label input.sk-toggleable__control:checked~label.sk-toggleable__label {background-color: #d4ebff;}#sk-container-id-1 input.sk-hidden--visually {border: 0;clip: rect(1px 1px 1px 1px);clip: rect(1px, 1px, 1px, 1px);height: 1px;margin: -1px;overflow: hidden;padding: 0;position: absolute;width: 1px;}#sk-container-id-1 div.sk-estimator {font-family: monospace;background-color: #f0f8ff;border: 1px dotted black;border-radius: 0.25em;box-sizing: border-box;margin-bottom: 0.5em;}#sk-container-id-1 div.sk-estimator:hover {background-color: #d4ebff;}#sk-container-id-1 div.sk-parallel-item::after {content: \"\";width: 100%;border-bottom: 1px solid gray;flex-grow: 1;}#sk-container-id-1 div.sk-label:hover label.sk-toggleable__label {background-color: #d4ebff;}#sk-container-id-1 div.sk-serial::before {content: \"\";position: absolute;border-left: 1px solid gray;box-sizing: border-box;top: 0;bottom: 0;left: 50%;z-index: 0;}#sk-container-id-1 div.sk-serial {display: flex;flex-direction: column;align-items: center;background-color: white;padding-right: 0.2em;padding-left: 0.2em;position: relative;}#sk-container-id-1 div.sk-item {position: relative;z-index: 1;}#sk-container-id-1 div.sk-parallel {display: flex;align-items: stretch;justify-content: center;background-color: white;position: relative;}#sk-container-id-1 div.sk-item::before, #sk-container-id-1 div.sk-parallel-item::before {content: \"\";position: absolute;border-left: 1px solid gray;box-sizing: border-box;top: 0;bottom: 0;left: 50%;z-index: -1;}#sk-container-id-1 div.sk-parallel-item {display: flex;flex-direction: column;z-index: 1;position: relative;background-color: white;}#sk-container-id-1 div.sk-parallel-item:first-child::after {align-self: flex-end;width: 50%;}#sk-container-id-1 div.sk-parallel-item:last-child::after {align-self: flex-start;width: 50%;}#sk-container-id-1 div.sk-parallel-item:only-child::after {width: 0;}#sk-container-id-1 div.sk-dashed-wrapped {border: 1px dashed gray;margin: 0 0.4em 0.5em 0.4em;box-sizing: border-box;padding-bottom: 0.4em;background-color: white;}#sk-container-id-1 div.sk-label label {font-family: monospace;font-weight: bold;display: inline-block;line-height: 1.2em;}#sk-container-id-1 div.sk-label-container {text-align: center;}#sk-container-id-1 div.sk-container {/* jupyter's `normalize.less` sets `[hidden] { display: none; }` but bootstrap.min.css set `[hidden] { display: none !important; }` so we also need the `!important` here to be able to override the default hidden behavior on the sphinx rendered scikit-learn.org. See: https://github.com/scikit-learn/scikit-learn/issues/21755 */display: inline-block !important;position: relative;}#sk-container-id-1 div.sk-text-repr-fallback {display: none;}</style><div id=\"sk-container-id-1\" class=\"sk-top-container\"><div class=\"sk-text-repr-fallback\"><pre>Pipeline(steps=[(&#x27;scaler&#x27;, StandardScaler()),\n",
       "                (&#x27;poly&#x27;, PolynomialFeatures(degree=1)),\n",
       "                (&#x27;model&#x27;, Lasso(alpha=10))])</pre><b>In a Jupyter environment, please rerun this cell to show the HTML representation or trust the notebook. <br />On GitHub, the HTML representation is unable to render, please try loading this page with nbviewer.org.</b></div><div class=\"sk-container\" hidden><div class=\"sk-item sk-dashed-wrapped\"><div class=\"sk-label-container\"><div class=\"sk-label sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-1\" type=\"checkbox\" ><label for=\"sk-estimator-id-1\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">Pipeline</label><div class=\"sk-toggleable__content\"><pre>Pipeline(steps=[(&#x27;scaler&#x27;, StandardScaler()),\n",
       "                (&#x27;poly&#x27;, PolynomialFeatures(degree=1)),\n",
       "                (&#x27;model&#x27;, Lasso(alpha=10))])</pre></div></div></div><div class=\"sk-serial\"><div class=\"sk-item\"><div class=\"sk-estimator sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-2\" type=\"checkbox\" ><label for=\"sk-estimator-id-2\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">StandardScaler</label><div class=\"sk-toggleable__content\"><pre>StandardScaler()</pre></div></div></div><div class=\"sk-item\"><div class=\"sk-estimator sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-3\" type=\"checkbox\" ><label for=\"sk-estimator-id-3\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">PolynomialFeatures</label><div class=\"sk-toggleable__content\"><pre>PolynomialFeatures(degree=1)</pre></div></div></div><div class=\"sk-item\"><div class=\"sk-estimator sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-4\" type=\"checkbox\" ><label for=\"sk-estimator-id-4\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">Lasso</label><div class=\"sk-toggleable__content\"><pre>Lasso(alpha=10)</pre></div></div></div></div></div></div></div>"
      ],
      "text/plain": [
       "Pipeline(steps=[('scaler', StandardScaler()),\n",
       "                ('poly', PolynomialFeatures(degree=1)),\n",
       "                ('model', Lasso(alpha=10))])"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "grid_search.best_estimator_"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Fitting 5 folds for each of 1001 candidates, totalling 5005 fits\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END ...........model=LinearRegression(), poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=6), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=7), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=8), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=9), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=10), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=14), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=15), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=16), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=22), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=23), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=24), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=30), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=31), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=34), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=35), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=38), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=39), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=40), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=41), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=42), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=43), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=44), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=45), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=46), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=47), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=48), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=49), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=50), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=51), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=52), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=53), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=54), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=55), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=56), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=57), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=58), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=59), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=60), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=61), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=62), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=63), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=64), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=65), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=66), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=67), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=68), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=69), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=70), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=71), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=72), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=73), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=74), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=75), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=76), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=77), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=78), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=79), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=80), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=81), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=82), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=83), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=84), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=85), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=86), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=87), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=88), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=89), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=90), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=91), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=92), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=93), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=94), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=95), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=96), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Ridge(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=0), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=1), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=2), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=3), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=4), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=5), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=6), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=6), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=6), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=7), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=7), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=7), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=7), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=8), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=8), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=8), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=8), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=9), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=9), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=9), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=9), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=9), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=10), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=10), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=10), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=10), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=10), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=11), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=11), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=11), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=11), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=11), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=12), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=12), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=13), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=14), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=14), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=14), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=14), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=15), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=15), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=15), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=15), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=16), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=16), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=16), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=16), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=16), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=16), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=17), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=17), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=17), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=17), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=17), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=18), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=18), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=18), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=18), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=18), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=19), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=19), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=19), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=19), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=19), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=19), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=19), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=19), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=20), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=20), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=20), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=20), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=21), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=21), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=22), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=22), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=22), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=22), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=23), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=23), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=23), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=23), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=23), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=24), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=24), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=24), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=25), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=25), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=25), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=26), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=26), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=26), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=26), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=27), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=27), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=27), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=27), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=27), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=27), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=27), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=27), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=28), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=28), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=28), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=28), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=28), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=28), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=28), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=29), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=29), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=29), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=29), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=30), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=30), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=30), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=30), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=31), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=31), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=31), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=31), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=31), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=32), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=32), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=32), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=32), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=32), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=33), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=33), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=33), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=33), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=33), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=33), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=34), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=34), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=34), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=34), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=34), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=35), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=35), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=35), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=35), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=35), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=36), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=36), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=36), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=36), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=36), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=37), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=37), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=37), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=37), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=37), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=37), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=37), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=38), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=38), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=38), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=39), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=39), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=39), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=39), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=40), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=41), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=42), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=43), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=43), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=44), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=45), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=45), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=45), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=45), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=48), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=49), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=51), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=52), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=53), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=53), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=55), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=56), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=57), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=58), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=59), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=60), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=60), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=61), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=61), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=61), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=61), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=62), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=62), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=62), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=62), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=63), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=63), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=63), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=63), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=64), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=65), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=65), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=66), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=67), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=67), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=67), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=68), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=68), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=68), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=68), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=68), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=68), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=69), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=69), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=69), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=69), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=70), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=70), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=71), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=71), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=72), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=73), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=74), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=76), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=77), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=77), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=78), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=78), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=79), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=81), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=82), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=84), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=84), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=85), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=85), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=85), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=93), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=93), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=93), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=93), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=93), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=94), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=94), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=94), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=94), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=94), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=94), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=94), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=95), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=96), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=96), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=96), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=96), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=96), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=1, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=97), model__alpha=10, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=97), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=50, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=97), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=97), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
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      "[CV] END model=Lasso(random_state=98), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=98), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=1, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=10, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=25, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=50, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "[CV] END model=Lasso(random_state=99), model__alpha=75, poly__degree=1; total time=   0.0s\n",
      "Best Model with Grid Search - seed search:\n",
      "Mean Squared (MSE): 1616735.66\n",
      "Mean Absolute Error (MAE): 784.50\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.68%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "param_grid = [\n",
    "    {\n",
    "        'poly__degree': [1],\n",
    "        'model': [LinearRegression()]\n",
    "    },\n",
    "    {\n",
    "        'poly__degree': [1],\n",
    "        'model': [Ridge(random_state=seed) for seed in range(100)],\n",
    "        'model__alpha': [1, 10, 25, 50, 75]\n",
    "    },\n",
    "    {\n",
    "        'poly__degree': [1],\n",
    "        'model': [Lasso(random_state=seed) for seed in range(100)],\n",
    "        'model__alpha': [1, 10, 25, 50, 75]\n",
    "    }\n",
    "]\n",
    "\n",
    "grid_search = GridSearchCV(pipeline, param_grid, cv=5, scoring='neg_mean_squared_error', verbose=2)\n",
    "grid_search.fit(X_train, y_train)\n",
    "\n",
    "best_model = grid_search.best_estimator_\n",
    "\n",
    "eval_regression(X_train, X_test, y_train, y_test, best_model, \"Best Model with Grid Search - seed search:\")"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<style>#sk-container-id-2 {color: black;}#sk-container-id-2 pre{padding: 0;}#sk-container-id-2 div.sk-toggleable {background-color: white;}#sk-container-id-2 label.sk-toggleable__label {cursor: pointer;display: block;width: 100%;margin-bottom: 0;padding: 0.3em;box-sizing: border-box;text-align: center;}#sk-container-id-2 label.sk-toggleable__label-arrow:before {content: \"▸\";float: left;margin-right: 0.25em;color: #696969;}#sk-container-id-2 label.sk-toggleable__label-arrow:hover:before {color: black;}#sk-container-id-2 div.sk-estimator:hover label.sk-toggleable__label-arrow:before {color: black;}#sk-container-id-2 div.sk-toggleable__content {max-height: 0;max-width: 0;overflow: hidden;text-align: left;background-color: #f0f8ff;}#sk-container-id-2 div.sk-toggleable__content pre {margin: 0.2em;color: black;border-radius: 0.25em;background-color: #f0f8ff;}#sk-container-id-2 input.sk-toggleable__control:checked~div.sk-toggleable__content {max-height: 200px;max-width: 100%;overflow: auto;}#sk-container-id-2 input.sk-toggleable__control:checked~label.sk-toggleable__label-arrow:before {content: \"▾\";}#sk-container-id-2 div.sk-estimator input.sk-toggleable__control:checked~label.sk-toggleable__label {background-color: #d4ebff;}#sk-container-id-2 div.sk-label input.sk-toggleable__control:checked~label.sk-toggleable__label {background-color: #d4ebff;}#sk-container-id-2 input.sk-hidden--visually {border: 0;clip: rect(1px 1px 1px 1px);clip: rect(1px, 1px, 1px, 1px);height: 1px;margin: -1px;overflow: hidden;padding: 0;position: absolute;width: 1px;}#sk-container-id-2 div.sk-estimator {font-family: monospace;background-color: #f0f8ff;border: 1px dotted black;border-radius: 0.25em;box-sizing: border-box;margin-bottom: 0.5em;}#sk-container-id-2 div.sk-estimator:hover {background-color: #d4ebff;}#sk-container-id-2 div.sk-parallel-item::after {content: \"\";width: 100%;border-bottom: 1px solid gray;flex-grow: 1;}#sk-container-id-2 div.sk-label:hover label.sk-toggleable__label {background-color: #d4ebff;}#sk-container-id-2 div.sk-serial::before {content: \"\";position: absolute;border-left: 1px solid gray;box-sizing: border-box;top: 0;bottom: 0;left: 50%;z-index: 0;}#sk-container-id-2 div.sk-serial {display: flex;flex-direction: column;align-items: center;background-color: white;padding-right: 0.2em;padding-left: 0.2em;position: relative;}#sk-container-id-2 div.sk-item {position: relative;z-index: 1;}#sk-container-id-2 div.sk-parallel {display: flex;align-items: stretch;justify-content: center;background-color: white;position: relative;}#sk-container-id-2 div.sk-item::before, #sk-container-id-2 div.sk-parallel-item::before {content: \"\";position: absolute;border-left: 1px solid gray;box-sizing: border-box;top: 0;bottom: 0;left: 50%;z-index: -1;}#sk-container-id-2 div.sk-parallel-item {display: flex;flex-direction: column;z-index: 1;position: relative;background-color: white;}#sk-container-id-2 div.sk-parallel-item:first-child::after {align-self: flex-end;width: 50%;}#sk-container-id-2 div.sk-parallel-item:last-child::after {align-self: flex-start;width: 50%;}#sk-container-id-2 div.sk-parallel-item:only-child::after {width: 0;}#sk-container-id-2 div.sk-dashed-wrapped {border: 1px dashed gray;margin: 0 0.4em 0.5em 0.4em;box-sizing: border-box;padding-bottom: 0.4em;background-color: white;}#sk-container-id-2 div.sk-label label {font-family: monospace;font-weight: bold;display: inline-block;line-height: 1.2em;}#sk-container-id-2 div.sk-label-container {text-align: center;}#sk-container-id-2 div.sk-container {/* jupyter's `normalize.less` sets `[hidden] { display: none; }` but bootstrap.min.css set `[hidden] { display: none !important; }` so we also need the `!important` here to be able to override the default hidden behavior on the sphinx rendered scikit-learn.org. See: https://github.com/scikit-learn/scikit-learn/issues/21755 */display: inline-block !important;position: relative;}#sk-container-id-2 div.sk-text-repr-fallback {display: none;}</style><div id=\"sk-container-id-2\" class=\"sk-top-container\"><div class=\"sk-text-repr-fallback\"><pre>Pipeline(steps=[(&#x27;scaler&#x27;, StandardScaler()),\n",
       "                (&#x27;poly&#x27;, PolynomialFeatures(degree=1)),\n",
       "                (&#x27;model&#x27;, Lasso(alpha=10, random_state=0))])</pre><b>In a Jupyter environment, please rerun this cell to show the HTML representation or trust the notebook. <br />On GitHub, the HTML representation is unable to render, please try loading this page with nbviewer.org.</b></div><div class=\"sk-container\" hidden><div class=\"sk-item sk-dashed-wrapped\"><div class=\"sk-label-container\"><div class=\"sk-label sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-5\" type=\"checkbox\" ><label for=\"sk-estimator-id-5\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">Pipeline</label><div class=\"sk-toggleable__content\"><pre>Pipeline(steps=[(&#x27;scaler&#x27;, StandardScaler()),\n",
       "                (&#x27;poly&#x27;, PolynomialFeatures(degree=1)),\n",
       "                (&#x27;model&#x27;, Lasso(alpha=10, random_state=0))])</pre></div></div></div><div class=\"sk-serial\"><div class=\"sk-item\"><div class=\"sk-estimator sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-6\" type=\"checkbox\" ><label for=\"sk-estimator-id-6\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">StandardScaler</label><div class=\"sk-toggleable__content\"><pre>StandardScaler()</pre></div></div></div><div class=\"sk-item\"><div class=\"sk-estimator sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-7\" type=\"checkbox\" ><label for=\"sk-estimator-id-7\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">PolynomialFeatures</label><div class=\"sk-toggleable__content\"><pre>PolynomialFeatures(degree=1)</pre></div></div></div><div class=\"sk-item\"><div class=\"sk-estimator sk-toggleable\"><input class=\"sk-toggleable__control sk-hidden--visually\" id=\"sk-estimator-id-8\" type=\"checkbox\" ><label for=\"sk-estimator-id-8\" class=\"sk-toggleable__label sk-toggleable__label-arrow\">Lasso</label><div class=\"sk-toggleable__content\"><pre>Lasso(alpha=10, random_state=0)</pre></div></div></div></div></div></div></div>"
      ],
      "text/plain": [
       "Pipeline(steps=[('scaler', StandardScaler()),\n",
       "                ('poly', PolynomialFeatures(degree=1)),\n",
       "                ('model', Lasso(alpha=10, random_state=0))])"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "grid_search.best_estimator_"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Linear Regression Model:\n",
      "Mean Squared (MSE): 1601648.70\n",
      "Mean Absolute Error (MAE): 779.05\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.67%\n",
      "==================================================\n",
      "\n",
      "Best Model with Grid Search - seed search:\n",
      "Mean Squared (MSE): 1616735.66\n",
      "Mean Absolute Error (MAE): 784.50\n",
      "R^2: 0.99\n",
      "Mean Absolute % (MAPE): 1.68%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "eval_regression(X_train, X_test, y_train, y_test, linear_model, \"Linear Regression Model:\")\n",
    "eval_regression(X_train, X_test, y_train, y_test, best_model, \"Best Model with Grid Search - seed search:\")"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "cross_val Linear Regression:\n",
      "Mean Squared Error (MSE): 1018571.67\n",
      "Mean Absolute Error (MAE): 560.09\n",
      "R^2: 0.99\n",
      "==================================================\n",
      "cross_val Grid Search - seed search, best (Lasso):\n",
      "Mean Squared Error (MSE): 1008962.65\n",
      "Mean Absolute Error (MAE): 557.90\n",
      "R^2: 0.99\n",
      "==================================================\n"
     ]
    }
   ],
   "source": [
    "from sklearn.model_selection import cross_val_score\n",
    "import numpy as np\n",
    "\n",
    "def eval_regression_cv(X, y, model, model_name):\n",
    "    mse_scores = cross_val_score(model, X, y, scoring='neg_mean_squared_error', cv=5)\n",
    "    mae_scores = cross_val_score(model, X, y, scoring='neg_mean_absolute_error', cv=5)\n",
    "    r2_scores = cross_val_score(model, X, y, scoring='r2', cv=5) # cv --> no of equal parts, train on cv-1\n",
    "\n",
    "    print(f\"{model_name}\")\n",
    "    print(f\"Mean Squared Error (MSE): {-np.mean(mse_scores):.2f}\")\n",
    "    print(f\"Mean Absolute Error (MAE): {-np.mean(mae_scores):.2f}\")\n",
    "    print(f\"R^2: {np.mean(r2_scores):.2f}\")\n",
    "    print(\"=\"*50)\n",
    "\n",
    "X = np.concatenate([X_train, X_test])\n",
    "y = np.concatenate([y_train, y_test])\n",
    "\n",
    "linear_model = LinearRegression()\n",
    "eval_regression_cv(X, y, linear_model, \"cross_val Linear Regression:\")\n",
    "\n",
    "best_model = grid_search.best_estimator_ # Lasso (linear + regularization)\n",
    "eval_regression_cv(X, y, best_model, \"cross_val Grid Search - seed search, best (Lasso):\")\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "{'model': Lasso(random_state=0), 'model__alpha': 10, 'poly__degree': 1}"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "grid_search.best_params_"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### RandomForest bandymai:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Fitting 5 folds for each of 108 candidates, totalling 540 fits\n",
      "Mean Squared Error: 4996052.775517814\n",
      "Best Params: {'max_depth': None, 'min_samples_leaf': 2, 'min_samples_split': 2, 'n_estimators': 100}\n"
     ]
    }
   ],
   "source": [
    "import pandas as pd\n",
    "from sklearn.preprocessing import StandardScaler\n",
    "from sklearn.ensemble import RandomForestRegressor\n",
    "from sklearn.metrics import mean_squared_error\n",
    "from sklearn.model_selection import GridSearchCV\n",
    "\n",
    "btc_all = pd.read_csv('combined_btc_data.csv')\n",
    "reviews = pd.read_csv('trustpilot_coinbase_reviews-strip.csv', sep='|')\n",
    "\n",
    "reviews['Date'] = pd.to_datetime(reviews['Date'], errors='coerce')\n",
    "reviews = reviews.dropna(subset=['Date'])\n",
    "reviews['YearMonth'] = reviews['Date'].dt.to_period('M')\n",
    "\n",
    "monthly_mean_rating = reviews.groupby('YearMonth')['Rating'].mean().reset_index()\n",
    "monthly_mean_rating['Date'] = monthly_mean_rating['YearMonth'].dt.to_timestamp()\n",
    "\n",
    "btc_all['Date'] = pd.to_datetime(btc_all['Date'])\n",
    "btc_all['YearMonth'] = btc_all['Date'].dt.to_period('M')\n",
    "\n",
    "btc_all = pd.merge(btc_all, monthly_mean_rating, on='YearMonth', how='left')\n",
    "btc_all['Date'] =  btc_all['Date_x']\n",
    "btc_all = btc_all.drop(columns=['Date_x', 'Date_y'])\n",
    "\n",
    "btc_all['Rating'].fillna(method='ffill', inplace=True)\n",
    "\n",
    "btc_all['Lag_Close_1'] = btc_all['Close'].shift(1)\n",
    "btc_all['Lag_Close_2'] = btc_all['Close'].shift(2)\n",
    "btc_all['Lag_Volume_1'] = btc_all['Volume'].shift(1)\n",
    "btc_all['Lag_Volume_2'] = btc_all['Volume'].shift(2)\n",
    "\n",
    "btc_all.dropna(inplace=True)\n",
    "\n",
    "btc_all['Day'] = btc_all['Date'].dt.day\n",
    "btc_all['Month'] = btc_all['Date'].dt.month\n",
    "btc_all['Year'] = btc_all['Date'].dt.year\n",
    "\n",
    "X = btc_all[['Lag_Close_1', 'Lag_Close_2', 'Lag_Volume_1', 'Lag_Volume_2', 'Day', 'Month', 'Year', 'Rating']]\n",
    "y = btc_all['Close']\n",
    "\n",
    "btc_all.sort_values('Date', inplace=True)\n",
    "\n",
    "split_point = int(len(btc_all) * 0.85)\n",
    "X_train = X.iloc[:split_point]\n",
    "X_test = X.iloc[split_point:]\n",
    "y_train = y.iloc[:split_point]\n",
    "y_test = y.iloc[split_point:]\n",
    "\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "rf = RandomForestRegressor(random_state=0)\n",
    "\n",
    "# Define parameter grid for GridSearchCV\n",
    "param_grid = {\n",
    "    'n_estimators': [100, 200, 300],\n",
    "    'max_depth': [None, 10, 20, 30],\n",
    "    'min_samples_split': [2, 5, 10],\n",
    "    'min_samples_leaf': [1, 2, 4]\n",
    "}\n",
    "\n",
    "\n",
    "grid_search = GridSearchCV(estimator=rf, param_grid=param_grid, cv=5, n_jobs=-1, scoring='neg_mean_squared_error', verbose=2)\n",
    "grid_search.fit(X_train, y_train)\n",
    "\n",
    "best_model = grid_search.best_estimator_\n",
    "\n",
    "y_pred = best_model.predict(X_test)\n",
    "\n",
    "mse = mean_squared_error(y_test, y_pred)\n",
    "\n",
    "print(f'Mean Squared Error: {mse}')\n",
    "print(f'Best Params: {grid_search.best_params_}')\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best random forest:\n",
      "Mean Squared Error (MSE): 1944100.14\n",
      "Mean Absolute Error (MAE): 829.50\n",
      "R^2: 0.98\n",
      "==================================================\n"
     ]
    }
   ],
   "source": [
    "best_model = grid_search.best_estimator_\n",
    "eval_regression_cv(X, y, best_model, \"Best random forest:\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### RandomForest SEED paieška"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Random Seed: 0\n",
      "Mean Squared Error (MSE): 4996052.775517814\n",
      "Mean Absolute Error (MAE): 1501.4247457178783\n",
      "R^2: 0.9794782977603431\n",
      "==================================================\n",
      "Random Seed: 1\n",
      "Mean Squared Error (MSE): 5125072.549682068\n",
      "Mean Absolute Error (MAE): 1533.555984498857\n",
      "R^2: 0.9789483383088735\n",
      "==================================================\n",
      "Random Seed: 2\n",
      "Mean Squared Error (MSE): 5054499.405879303\n",
      "Mean Absolute Error (MAE): 1557.7345543607014\n",
      "R^2: 0.9792382233657996\n",
      "==================================================\n",
      "Random Seed: 3\n",
      "Mean Squared Error (MSE): 4935535.728085683\n",
      "Mean Absolute Error (MAE): 1521.3443166752927\n",
      "R^2: 0.979726876565177\n",
      "==================================================\n",
      "Random Seed: 4\n",
      "Mean Squared Error (MSE): 4973150.644626401\n",
      "Mean Absolute Error (MAE): 1528.3114010362046\n",
      "R^2: 0.9795723701674862\n",
      "==================================================\n",
      "Random Seed: 5\n",
      "Mean Squared Error (MSE): 5052138.78915618\n",
      "Mean Absolute Error (MAE): 1519.7293451808173\n",
      "R^2: 0.9792479197952951\n",
      "==================================================\n",
      "Random Seed: 6\n",
      "Mean Squared Error (MSE): 5020800.998398905\n",
      "Mean Absolute Error (MAE): 1509.4070503462258\n",
      "R^2: 0.9793766423768341\n",
      "==================================================\n",
      "Random Seed: 7\n",
      "Mean Squared Error (MSE): 4892024.960268405\n",
      "Mean Absolute Error (MAE): 1507.0097843147093\n",
      "R^2: 0.9799056006622764\n",
      "==================================================\n",
      "Random Seed: 8\n",
      "Mean Squared Error (MSE): 5231522.949505469\n",
      "Mean Absolute Error (MAE): 1544.130965100389\n",
      "R^2: 0.9785110844393441\n",
      "==================================================\n",
      "Random Seed: 9\n",
      "Mean Squared Error (MSE): 5002508.923758711\n",
      "Mean Absolute Error (MAE): 1529.433460764412\n",
      "R^2: 0.97945177859456\n",
      "==================================================\n",
      "Random Seed: 10\n",
      "Mean Squared Error (MSE): 5075199.248169787\n",
      "Mean Absolute Error (MAE): 1525.3188965683055\n",
      "R^2: 0.9791531970422238\n",
      "==================================================\n",
      "Random Seed: 11\n",
      "Mean Squared Error (MSE): 5327002.065051401\n",
      "Mean Absolute Error (MAE): 1584.2800178064278\n",
      "R^2: 0.9781188960323398\n",
      "==================================================\n",
      "Random Seed: 12\n",
      "Mean Squared Error (MSE): 5129547.761483399\n",
      "Mean Absolute Error (MAE): 1550.184723365976\n",
      "R^2: 0.9789299560042477\n",
      "==================================================\n",
      "Random Seed: 13\n",
      "Mean Squared Error (MSE): 5064349.016507703\n",
      "Mean Absolute Error (MAE): 1547.4626744340108\n",
      "R^2: 0.9791977652710647\n",
      "==================================================\n",
      "Random Seed: 14\n",
      "Mean Squared Error (MSE): 5204090.049394786\n",
      "Mean Absolute Error (MAE): 1565.0383482289453\n",
      "R^2: 0.9786237673578273\n",
      "==================================================\n",
      "Random Seed: 15\n",
      "Mean Squared Error (MSE): 5070361.725738939\n",
      "Mean Absolute Error (MAE): 1558.9033720106063\n",
      "R^2: 0.9791730675678896\n",
      "==================================================\n",
      "Random Seed: 16\n",
      "Mean Squared Error (MSE): 5032938.550580555\n",
      "Mean Absolute Error (MAE): 1551.339169001925\n",
      "R^2: 0.9793267863719074\n",
      "==================================================\n",
      "Random Seed: 17\n",
      "Mean Squared Error (MSE): 5028409.259024837\n",
      "Mean Absolute Error (MAE): 1512.4673470822152\n",
      "R^2: 0.9793453908136216\n",
      "==================================================\n",
      "Random Seed: 18\n",
      "Mean Squared Error (MSE): 4899769.262338367\n",
      "Mean Absolute Error (MAE): 1487.371258375203\n",
      "R^2: 0.9798737902975195\n",
      "==================================================\n",
      "Random Seed: 19\n",
      "Mean Squared Error (MSE): 5160332.901042478\n",
      "Mean Absolute Error (MAE): 1511.2134005778578\n",
      "R^2: 0.9788035034834629\n",
      "==================================================\n",
      "Random Seed: 20\n",
      "Mean Squared Error (MSE): 4881337.741471195\n",
      "Mean Absolute Error (MAE): 1489.414236862718\n",
      "R^2: 0.9799494993022189\n",
      "==================================================\n",
      "Random Seed: 21\n",
      "Mean Squared Error (MSE): 5047450.869555085\n",
      "Mean Absolute Error (MAE): 1541.590532018119\n",
      "R^2: 0.979267175814897\n",
      "==================================================\n",
      "Random Seed: 22\n",
      "Mean Squared Error (MSE): 4924503.667756411\n",
      "Mean Absolute Error (MAE): 1499.8757843043902\n",
      "R^2: 0.979772191670389\n",
      "==================================================\n",
      "Random Seed: 23\n",
      "Mean Squared Error (MSE): 5165653.504908559\n",
      "Mean Absolute Error (MAE): 1558.9701342654969\n",
      "R^2: 0.9787816486606297\n",
      "==================================================\n",
      "Random Seed: 24\n",
      "Mean Squared Error (MSE): 4942393.895788298\n",
      "Mean Absolute Error (MAE): 1480.32878712579\n",
      "R^2: 0.9796987060710236\n",
      "==================================================\n",
      "Random Seed: 25\n",
      "Mean Squared Error (MSE): 5030513.647057608\n",
      "Mean Absolute Error (MAE): 1525.475285649701\n",
      "R^2: 0.9793367468647792\n",
      "==================================================\n",
      "Random Seed: 26\n",
      "Mean Squared Error (MSE): 5245682.245754691\n",
      "Mean Absolute Error (MAE): 1575.3145721546407\n",
      "R^2: 0.9784529239525347\n",
      "==================================================\n",
      "Random Seed: 27\n",
      "Mean Squared Error (MSE): 4884480.408077386\n",
      "Mean Absolute Error (MAE): 1495.2336719342766\n",
      "R^2: 0.9799365905377946\n",
      "==================================================\n",
      "Random Seed: 28\n",
      "Mean Squared Error (MSE): 4894975.225370246\n",
      "Mean Absolute Error (MAE): 1492.0707952449852\n",
      "R^2: 0.979893482203031\n",
      "==================================================\n",
      "Random Seed: 29\n",
      "Mean Squared Error (MSE): 5116221.532427124\n",
      "Mean Absolute Error (MAE): 1538.8658206233615\n",
      "R^2: 0.9789846945982854\n",
      "==================================================\n",
      "Random Seed: 30\n",
      "Mean Squared Error (MSE): 5219911.031001044\n",
      "Mean Absolute Error (MAE): 1557.9493721533024\n",
      "R^2: 0.9785587813602307\n",
      "==================================================\n",
      "Random Seed: 31\n",
      "Mean Squared Error (MSE): 5055088.953438469\n",
      "Mean Absolute Error (MAE): 1521.3648639990936\n",
      "R^2: 0.9792358017501744\n",
      "==================================================\n",
      "Random Seed: 32\n",
      "Mean Squared Error (MSE): 4882899.112355755\n",
      "Mean Absolute Error (MAE): 1517.8106345797023\n",
      "R^2: 0.9799430858414693\n",
      "==================================================\n",
      "Random Seed: 33\n",
      "Mean Squared Error (MSE): 4852301.474712267\n",
      "Mean Absolute Error (MAE): 1490.630517560756\n",
      "R^2: 0.9800687681825434\n",
      "==================================================\n",
      "Random Seed: 34\n",
      "Mean Squared Error (MSE): 5143777.915562762\n",
      "Mean Absolute Error (MAE): 1561.1644469435291\n",
      "R^2: 0.9788715044630085\n",
      "==================================================\n",
      "Random Seed: 35\n",
      "Mean Squared Error (MSE): 4936530.043809468\n",
      "Mean Absolute Error (MAE): 1473.3140926559777\n",
      "R^2: 0.9797227923306557\n",
      "==================================================\n",
      "Random Seed: 36\n",
      "Mean Squared Error (MSE): 4836851.64882843\n",
      "Mean Absolute Error (MAE): 1442.508769284698\n",
      "R^2: 0.9801322296271454\n",
      "==================================================\n",
      "Random Seed: 37\n",
      "Mean Squared Error (MSE): 4990596.513926916\n",
      "Mean Absolute Error (MAE): 1525.390818972996\n",
      "R^2: 0.9795007098085622\n",
      "==================================================\n",
      "Random Seed: 38\n",
      "Mean Squared Error (MSE): 5354162.908508875\n",
      "Mean Absolute Error (MAE): 1581.520758170296\n",
      "R^2: 0.9780073306091834\n",
      "==================================================\n",
      "Random Seed: 39\n",
      "Mean Squared Error (MSE): 5035249.002510776\n",
      "Mean Absolute Error (MAE): 1529.4617207198212\n",
      "R^2: 0.9793172959984704\n",
      "==================================================\n",
      "Random Seed: 40\n",
      "Mean Squared Error (MSE): 5153041.633966585\n",
      "Mean Absolute Error (MAE): 1576.8730246473606\n",
      "R^2: 0.9788334529693079\n",
      "==================================================\n",
      "Random Seed: 41\n",
      "Mean Squared Error (MSE): 5181336.171924428\n",
      "Mean Absolute Error (MAE): 1578.1630915072678\n",
      "R^2: 0.978717230801715\n",
      "==================================================\n",
      "Random Seed: 42\n",
      "Mean Squared Error (MSE): 5082093.490704729\n",
      "Mean Absolute Error (MAE): 1541.3602897431633\n",
      "R^2: 0.9791248783676967\n",
      "==================================================\n",
      "Random Seed: 43\n",
      "Mean Squared Error (MSE): 5036837.956558262\n",
      "Mean Absolute Error (MAE): 1553.7713113980353\n",
      "R^2: 0.9793107692375853\n",
      "==================================================\n",
      "Random Seed: 44\n",
      "Mean Squared Error (MSE): 5041537.824563743\n",
      "Mean Absolute Error (MAE): 1501.9150236682808\n",
      "R^2: 0.9792914641389189\n",
      "==================================================\n",
      "Random Seed: 45\n",
      "Mean Squared Error (MSE): 4832789.903015444\n",
      "Mean Absolute Error (MAE): 1479.0707273600422\n",
      "R^2: 0.980148913585841\n",
      "==================================================\n",
      "Random Seed: 46\n",
      "Mean Squared Error (MSE): 5038835.595997295\n",
      "Mean Absolute Error (MAE): 1526.546807294775\n",
      "R^2: 0.9793025637674687\n",
      "==================================================\n",
      "Random Seed: 47\n",
      "Mean Squared Error (MSE): 4900110.243797848\n",
      "Mean Absolute Error (MAE): 1489.1477755900016\n",
      "R^2: 0.9798723896878192\n",
      "==================================================\n",
      "Random Seed: 48\n",
      "Mean Squared Error (MSE): 4878882.7936019115\n",
      "Mean Absolute Error (MAE): 1512.1292774395874\n",
      "R^2: 0.9799595832047417\n",
      "==================================================\n",
      "Random Seed: 49\n",
      "Mean Squared Error (MSE): 4944756.725469218\n",
      "Mean Absolute Error (MAE): 1516.6677066154225\n",
      "R^2: 0.9796890005516199\n",
      "==================================================\n",
      "Random Seed: 50\n",
      "Mean Squared Error (MSE): 4884124.364671988\n",
      "Mean Absolute Error (MAE): 1491.0363808401864\n",
      "R^2: 0.9799380530156903\n",
      "==================================================\n",
      "Random Seed: 51\n",
      "Mean Squared Error (MSE): 5088799.974360001\n",
      "Mean Absolute Error (MAE): 1540.7020477233496\n",
      "R^2: 0.9790973309283816\n",
      "==================================================\n",
      "Random Seed: 52\n",
      "Mean Squared Error (MSE): 5094732.724666868\n",
      "Mean Absolute Error (MAE): 1536.280245321759\n",
      "R^2: 0.9790729616631375\n",
      "==================================================\n",
      "Random Seed: 53\n",
      "Mean Squared Error (MSE): 5072032.670115131\n",
      "Mean Absolute Error (MAE): 1528.4275352612244\n",
      "R^2: 0.9791662040249111\n",
      "==================================================\n",
      "Random Seed: 54\n",
      "Mean Squared Error (MSE): 5106477.358884996\n",
      "Mean Absolute Error (MAE): 1550.5073866559203\n",
      "R^2: 0.9790247196014205\n",
      "==================================================\n",
      "Random Seed: 55\n",
      "Mean Squared Error (MSE): 5155517.748625781\n",
      "Mean Absolute Error (MAE): 1526.5272978415223\n",
      "R^2: 0.9788232821224353\n",
      "==================================================\n",
      "Random Seed: 56\n",
      "Mean Squared Error (MSE): 5225642.893515378\n",
      "Mean Absolute Error (MAE): 1545.9093766253407\n",
      "R^2: 0.9785352372582999\n",
      "==================================================\n",
      "Random Seed: 57\n",
      "Mean Squared Error (MSE): 5155877.991429296\n",
      "Mean Absolute Error (MAE): 1544.0122046450124\n",
      "R^2: 0.9788218023951627\n",
      "==================================================\n",
      "Random Seed: 58\n",
      "Mean Squared Error (MSE): 5586133.094175109\n",
      "Mean Absolute Error (MAE): 1647.0111034647227\n",
      "R^2: 0.9770544937812685\n",
      "==================================================\n",
      "Random Seed: 59\n",
      "Mean Squared Error (MSE): 4986139.598035017\n",
      "Mean Absolute Error (MAE): 1526.2033962971482\n",
      "R^2: 0.9795190169612186\n",
      "==================================================\n",
      "Random Seed: 60\n",
      "Mean Squared Error (MSE): 5010887.94353227\n",
      "Mean Absolute Error (MAE): 1511.7316991821747\n",
      "R^2: 0.9794173610740535\n",
      "==================================================\n",
      "Random Seed: 61\n",
      "Mean Squared Error (MSE): 5089101.069076077\n",
      "Mean Absolute Error (MAE): 1548.7157393467103\n",
      "R^2: 0.9790960941567967\n",
      "==================================================\n",
      "Random Seed: 62\n",
      "Mean Squared Error (MSE): 4842849.996551496\n",
      "Mean Absolute Error (MAE): 1512.5262911604484\n",
      "R^2: 0.9801075909150594\n",
      "==================================================\n",
      "Random Seed: 63\n",
      "Mean Squared Error (MSE): 4886317.680594506\n",
      "Mean Absolute Error (MAE): 1491.7471273630524\n",
      "R^2: 0.9799290437881456\n",
      "==================================================\n",
      "Random Seed: 64\n",
      "Mean Squared Error (MSE): 5190463.241374699\n",
      "Mean Absolute Error (MAE): 1544.9776545234156\n",
      "R^2: 0.9786797406049547\n",
      "==================================================\n",
      "Random Seed: 65\n",
      "Mean Squared Error (MSE): 5336497.608364749\n",
      "Mean Absolute Error (MAE): 1560.2265114883173\n",
      "R^2: 0.9780798922985452\n",
      "==================================================\n",
      "Random Seed: 66\n",
      "Mean Squared Error (MSE): 5117403.451612183\n",
      "Mean Absolute Error (MAE): 1554.5079128613224\n",
      "R^2: 0.9789798397669461\n",
      "==================================================\n",
      "Random Seed: 67\n",
      "Mean Squared Error (MSE): 5003648.993552195\n",
      "Mean Absolute Error (MAE): 1540.9579727858431\n",
      "R^2: 0.9794470956630769\n",
      "==================================================\n",
      "Random Seed: 68\n",
      "Mean Squared Error (MSE): 5155804.845874008\n",
      "Mean Absolute Error (MAE): 1542.433922405877\n",
      "R^2: 0.9788221028466136\n",
      "==================================================\n",
      "Random Seed: 69\n",
      "Mean Squared Error (MSE): 5166891.650160409\n",
      "Mean Absolute Error (MAE): 1565.7484649996768\n",
      "R^2: 0.9787765628760453\n",
      "==================================================\n",
      "Random Seed: 70\n",
      "Mean Squared Error (MSE): 4881550.699650055\n",
      "Mean Absolute Error (MAE): 1513.0763327329369\n",
      "R^2: 0.97994862455879\n",
      "==================================================\n",
      "Random Seed: 71\n",
      "Mean Squared Error (MSE): 5160105.188025443\n",
      "Mean Absolute Error (MAE): 1551.9087417594546\n",
      "R^2: 0.9788044388336167\n",
      "==================================================\n",
      "Random Seed: 72\n",
      "Mean Squared Error (MSE): 5137333.235666619\n",
      "Mean Absolute Error (MAE): 1548.2014720468492\n",
      "R^2: 0.9788979765216118\n",
      "==================================================\n",
      "Random Seed: 73\n",
      "Mean Squared Error (MSE): 4768115.97634129\n",
      "Mean Absolute Error (MAE): 1483.8083762392123\n",
      "R^2: 0.9804145671178413\n",
      "==================================================\n",
      "Random Seed: 74\n",
      "Mean Squared Error (MSE): 5023008.485818054\n",
      "Mean Absolute Error (MAE): 1521.9031894655316\n",
      "R^2: 0.9793675749386886\n",
      "==================================================\n",
      "Random Seed: 75\n",
      "Mean Squared Error (MSE): 5097266.649951574\n",
      "Mean Absolute Error (MAE): 1546.2731293080378\n",
      "R^2: 0.9790625533543132\n",
      "==================================================\n",
      "Random Seed: 76\n",
      "Mean Squared Error (MSE): 4993552.388476675\n",
      "Mean Absolute Error (MAE): 1510.0524784409095\n",
      "R^2: 0.979488568308043\n",
      "==================================================\n",
      "Random Seed: 77\n",
      "Mean Squared Error (MSE): 4872548.231308048\n",
      "Mean Absolute Error (MAE): 1476.6568609631247\n",
      "R^2: 0.9799856029461365\n",
      "==================================================\n",
      "Random Seed: 78\n",
      "Mean Squared Error (MSE): 5087506.013243095\n",
      "Mean Absolute Error (MAE): 1549.365416915502\n",
      "R^2: 0.9791026459812731\n",
      "==================================================\n",
      "Random Seed: 79\n",
      "Mean Squared Error (MSE): 5059670.811228722\n",
      "Mean Absolute Error (MAE): 1529.2665317477906\n",
      "R^2: 0.9792169813882806\n",
      "==================================================\n",
      "Random Seed: 80\n",
      "Mean Squared Error (MSE): 4925669.526916264\n",
      "Mean Absolute Error (MAE): 1476.967871474277\n",
      "R^2: 0.9797674028069389\n",
      "==================================================\n",
      "Random Seed: 81\n",
      "Mean Squared Error (MSE): 5182126.382862732\n",
      "Mean Absolute Error (MAE): 1561.1292664846378\n",
      "R^2: 0.9787139849445732\n",
      "==================================================\n",
      "Random Seed: 82\n",
      "Mean Squared Error (MSE): 5149601.716364427\n",
      "Mean Absolute Error (MAE): 1523.0675330945655\n",
      "R^2: 0.9788475827169172\n",
      "==================================================\n",
      "Random Seed: 83\n",
      "Mean Squared Error (MSE): 5221542.344806699\n",
      "Mean Absolute Error (MAE): 1553.2458163977553\n",
      "R^2: 0.9785520806031164\n",
      "==================================================\n",
      "Random Seed: 84\n",
      "Mean Squared Error (MSE): 5298452.933056824\n",
      "Mean Absolute Error (MAE): 1610.7965068676817\n",
      "R^2: 0.9782361639661104\n",
      "==================================================\n",
      "Random Seed: 85\n",
      "Mean Squared Error (MSE): 5192756.58345476\n",
      "Mean Absolute Error (MAE): 1565.1730014485624\n",
      "R^2: 0.9786703205116499\n",
      "==================================================\n",
      "Random Seed: 86\n",
      "Mean Squared Error (MSE): 4979128.413230179\n",
      "Mean Absolute Error (MAE): 1547.4548892661837\n",
      "R^2: 0.979547815985844\n",
      "==================================================\n",
      "Random Seed: 87\n",
      "Mean Squared Error (MSE): 4995333.431443561\n",
      "Mean Absolute Error (MAE): 1501.0912248827842\n",
      "R^2: 0.9794812525259476\n",
      "==================================================\n",
      "Random Seed: 88\n",
      "Mean Squared Error (MSE): 4954372.745944623\n",
      "Mean Absolute Error (MAE): 1508.7551970190004\n",
      "R^2: 0.9796495019478634\n",
      "==================================================\n",
      "Random Seed: 89\n",
      "Mean Squared Error (MSE): 5196425.735573604\n",
      "Mean Absolute Error (MAE): 1528.0508657662886\n",
      "R^2: 0.9786552491642007\n",
      "==================================================\n",
      "Random Seed: 90\n",
      "Mean Squared Error (MSE): 4915712.212919695\n",
      "Mean Absolute Error (MAE): 1473.1176265213446\n",
      "R^2: 0.9798083033022149\n",
      "==================================================\n",
      "Random Seed: 91\n",
      "Mean Squared Error (MSE): 4780981.655278671\n",
      "Mean Absolute Error (MAE): 1497.514691352214\n",
      "R^2: 0.9803617202717155\n",
      "==================================================\n",
      "Random Seed: 92\n",
      "Mean Squared Error (MSE): 5055109.728302232\n",
      "Mean Absolute Error (MAE): 1525.6744677913232\n",
      "R^2: 0.979235716415694\n",
      "==================================================\n",
      "Random Seed: 93\n",
      "Mean Squared Error (MSE): 5304119.148499988\n",
      "Mean Absolute Error (MAE): 1594.9860156216166\n",
      "R^2: 0.9782128895149836\n",
      "==================================================\n",
      "Random Seed: 94\n",
      "Mean Squared Error (MSE): 5079296.914582357\n",
      "Mean Absolute Error (MAE): 1524.7130759765387\n",
      "R^2: 0.9791363655366784\n",
      "==================================================\n",
      "Random Seed: 95\n",
      "Mean Squared Error (MSE): 5207832.197105448\n",
      "Mean Absolute Error (MAE): 1577.7686816790904\n",
      "R^2: 0.9786083961749145\n",
      "==================================================\n",
      "Random Seed: 96\n",
      "Mean Squared Error (MSE): 5262963.205168681\n",
      "Mean Absolute Error (MAE): 1574.8502435843855\n",
      "R^2: 0.9783819409746832\n",
      "==================================================\n",
      "Random Seed: 97\n",
      "Mean Squared Error (MSE): 5058405.145946968\n",
      "Mean Absolute Error (MAE): 1508.7756794842323\n",
      "R^2: 0.9792221802136762\n",
      "==================================================\n",
      "Random Seed: 98\n",
      "Mean Squared Error (MSE): 4975929.326361981\n",
      "Mean Absolute Error (MAE): 1510.3945385652708\n",
      "R^2: 0.9795609565011864\n",
      "==================================================\n",
      "Random Seed: 99\n",
      "Mean Squared Error (MSE): 5504875.429337279\n",
      "Mean Absolute Error (MAE): 1602.0557165047603\n",
      "R^2: 0.9773882663968547\n",
      "==================================================\n"
     ]
    }
   ],
   "source": [
    "rf_best_param = grid_search.best_params_\n",
    "\n",
    "results = []\n",
    "for seed in range(100):\n",
    "    rf = RandomForestRegressor(random_state=seed, **rf_best_param)\n",
    "    rf.fit(X_train, y_train)\n",
    "    \n",
    "    y_pred = rf.predict(X_test)\n",
    "    mse = mean_squared_error(y_test, y_pred)\n",
    "    mae = mean_absolute_error(y_test, y_pred)\n",
    "    r2 = r2_score(y_test, y_pred)\n",
    "    \n",
    "    results.append({\n",
    "        'seed': seed,\n",
    "        'mse': mse,\n",
    "        'mae': mae,\n",
    "        'r2': r2\n",
    "    })\n",
    "for result in results:\n",
    "    print(f\"Random Seed: {result['seed']}\")\n",
    "    print(f\"Mean Squared Error (MSE): {result['mse']}\")\n",
    "    print(f\"Mean Absolute Error (MAE): {result['mae']}\")\n",
    "    print(f\"R^2: {result['r2']}\")\n",
    "    print(\"=\"*50)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Best Model based on MSE:\n",
      "Random Seed: 73\n",
      "Mean Squared Error (MSE): 4768115.97634129\n",
      "Mean Absolute Error (MAE): 1483.8083762392123\n",
      "R^2: 0.9804145671178413\n",
      "==================================================\n"
     ]
    }
   ],
   "source": [
    "best_rf_seed = min(results, key=lambda x: x['mse'])\n",
    "\n",
    "print(\"Best Model based on MSE:\")\n",
    "print(f\"Random Seed: {best_rf_seed['seed']}\")\n",
    "print(f\"Mean Squared Error (MSE): {best_rf_seed['mse']}\")\n",
    "print(f\"Mean Absolute Error (MAE): {best_rf_seed['mae']}\")\n",
    "print(f\"R^2: {best_rf_seed['r2']}\")\n",
    "print(\"=\"*50)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Fitting 5 folds for each of 48 candidates, totalling 240 fits\n",
      "Mean Squared Error: 420941.00918314257\n",
      "Best Params: {'alpha': 75, 'max_iter': 25000, 'tol': 0.001}\n"
     ]
    }
   ],
   "source": [
    "import pandas as pd\n",
    "from sklearn.preprocessing import StandardScaler\n",
    "from sklearn.linear_model import Lasso\n",
    "from sklearn.model_selection import GridSearchCV\n",
    "from sklearn.metrics import mean_squared_error\n",
    "\n",
    "btc_all = pd.read_csv('combined_btc2_data.csv')\n",
    "reviews = pd.read_csv('trustpilot_coinbase_reviews-strip.csv', sep='|')\n",
    "\n",
    "reviews['Date'] = pd.to_datetime(reviews['Date'], errors='coerce')\n",
    "reviews = reviews.dropna(subset=['Date'])\n",
    "reviews['YearMonth'] = reviews['Date'].dt.to_period('M')\n",
    "monthly_mean_rating = reviews.groupby('YearMonth')['Rating'].mean().reset_index()\n",
    "monthly_mean_rating['Date'] = monthly_mean_rating['YearMonth'].dt.to_timestamp()\n",
    "\n",
    "btc_all['Date'] = pd.to_datetime(btc_all['Date'])\n",
    "btc_all['YearMonth'] = btc_all['Date'].dt.to_period('M')\n",
    "\n",
    "btc_all = pd.merge(btc_all, monthly_mean_rating, on='YearMonth', how='left')\n",
    "btc_all['Date'] = btc_all['Date_x']\n",
    "btc_all = btc_all.drop(columns=['Date_x', 'Date_y'])\n",
    "btc_all['Rating'].fillna(method='ffill', inplace=True)\n",
    "\n",
    "btc_all['Lag_Close_1'] = btc_all['Close'].shift(1)\n",
    "btc_all['Lag_Close_2'] = btc_all['Close'].shift(2)\n",
    "btc_all['Lag_Volume_1'] = btc_all['Volume'].shift(1)\n",
    "btc_all['Lag_Volume_2'] = btc_all['Volume'].shift(2)\n",
    "btc_all['Lag_Open_1'] = btc_all['Open'].shift(1)\n",
    "btc_all['Lag_Open_2'] = btc_all['Open'].shift(2)\n",
    "btc_all['Lag_High_1'] = btc_all['High'].shift(1)\n",
    "btc_all['Lag_High_2'] = btc_all['High'].shift(2)\n",
    "btc_all['Lag_Low_1'] = btc_all['Low'].shift(1)\n",
    "btc_all['Lag_Low_2'] = btc_all['Low'].shift(2)\n",
    "\n",
    "btc_all.dropna(inplace=True)\n",
    "\n",
    "btc_all['Day'] = btc_all['Date'].dt.day\n",
    "btc_all['Month'] = btc_all['Date'].dt.month\n",
    "btc_all['Year'] = btc_all['Date'].dt.year\n",
    "\n",
    "X = btc_all[['Lag_Close_1', 'Lag_Close_2', 'Lag_Volume_1', 'Lag_Volume_2', 'Lag_Open_1', 'Lag_Open_2', 'Lag_High_1', 'Lag_High_2', 'Lag_Low_1', 'Lag_Low_2', 'Open', 'High', 'Low', 'Day', 'Month', 'Year', 'Rating']]\n",
    "y = btc_all['Close']\n",
    "\n",
    "assert len(X) == len(y), \"Feature and target arrays do not have the same length\"\n",
    "\n",
    "split_point = int(len(btc_all) * 0.85)\n",
    "X_train = X.iloc[:split_point].copy()\n",
    "X_test = X.iloc[split_point:].copy()\n",
    "y_train = y.iloc[:split_point].copy()\n",
    "y_test = y.iloc[split_point:].copy()\n",
    "\n",
    "assert len(X_train) == len(y_train), \"Training feature and target arrays do not have the same length\"\n",
    "assert len(X_test) == len(y_test), \"Test feature and target arrays do not have the same length\"\n",
    "\n",
    "scaler = StandardScaler()\n",
    "X_train = scaler.fit_transform(X_train)\n",
    "X_test = scaler.transform(X_test)\n",
    "\n",
    "lasso = Lasso(random_state=0)\n",
    "\n",
    "param_grid = {\n",
    "    'alpha': [75, 100, 130], # 75 is lowest without convergence warning\n",
    "    'max_iter': [25000, 100000, 300000, 500000],\n",
    "    'tol': [0.0001, 0.00001, 0.001, 0.01]\n",
    "}\n",
    "\n",
    "grid_search = GridSearchCV(estimator=lasso, param_grid=param_grid, cv=5, n_jobs=-1, scoring='neg_mean_squared_error', verbose=2)\n",
    "grid_search.fit(X_train, y_train)\n",
    "\n",
    "best_model = grid_search.best_estimator_\n",
    "y_pred = best_model.predict(X_test)\n",
    "mse = mean_squared_error(y_test, y_pred)\n",
    "\n",
    "print(f'Mean Squared Error: {mse}')\n",
    "print(f'Best Params: {grid_search.best_params_}')\n",
    "lasso_params = grid_search.best_params_\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Lasso 0:\n",
      "Mean Squared (MSE): 299080.84\n",
      "Mean Absolute Error (MAE): 370.32\n",
      "R^2: 1.00\n",
      "Mean Absolute % (MAPE): 0.82%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "split_point = int(len(btc_all) * 0.85)\n",
    "X_train = X.iloc[:split_point].copy()\n",
    "X_test = X.iloc[split_point:].copy()\n",
    "y_train = y.iloc[:split_point].copy()\n",
    "y_test = y.iloc[split_point:].copy()\n",
    "\n",
    "lasso = Lasso(**lasso_params, random_state=0)\n",
    "lasso.fit(X_train, y_train)\n",
    "y_pred = lasso.predict(X_test)\n",
    "eval_regression(X_train, X_test, y_train, y_test, best_model, \"Lasso 0:\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Lasso su Convergence perspėjimu (overfitting): <br>\n",
    "- Mean Squared (MSE): 162928.95 \n",
    "- Mean Absolute Error (MAE): 282.09 \n",
    "- Mean Absolute % (MAPE): 0.64% "
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "{'alpha': 75, 'max_iter': 25000, 'tol': 0.001}"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "lasso_params"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Lasso 0:\n",
      "Mean Squared (MSE): 299080.84\n",
      "Mean Absolute Error (MAE): 370.32\n",
      "R^2: 1.00\n",
      "Mean Absolute % (MAPE): 0.82%\n",
      "==================================================\n",
      "\n"
     ]
    }
   ],
   "source": [
    "split_point = int(len(btc_all) * 0.85)\n",
    "X_train = X.iloc[:split_point].copy()\n",
    "X_test = X.iloc[split_point:].copy()\n",
    "y_train = y.iloc[:split_point].copy()\n",
    "y_test = y.iloc[split_point:].copy()\n",
    "\n",
    "lasso = Lasso(**lasso_params, random_state=0) \n",
    "lasso.fit(X_train, y_train)\n",
    "y_pred = lasso.predict(X_test)\n",
    "eval_regression(X_train, X_test, y_train, y_test, best_model, \"Lasso 0:\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### ^ net ir be convergence klaidos (eliminavus \"overfitting\"), Lasso (linear regression + regularization) matome kad susitvarko geriausiai ir rodo geriausius rezultatus, lenkiant RandomForest. Lasso atveju random_state su mūsų duomenimis įtakos nedaro, tad seed paieškos žingsį praleidžiu. "
   ]
  }
 ],
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   "name": "python"
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