move sliced dataset testing script

src/single-core-regen/sliced_dataset_test.py

@@ -0,0 +1,88 @@
+# move into dir single-core-regen before running
+
+from util.datasets import FiberRegenerationDataset
+from torch.utils.data import DataLoader
+from matplotlib import pyplot as plt
+import numpy as np
+
+# def eye_dataset(dataset, no_symbols=None, offset=False, show=True):
+#     if no_symbols is None:
+#         no_symbols = len(dataset)
+#     _, axs = plt.subplots(2,2, sharex=True, sharey=True)
+
+#     xaxis = np.linspace(0,dataset.symbols_per_slice,dataset.samples_per_slice)
+#     roll = dataset.samples_per_symbol//2 if offset else 0
+#     for E_out, E_in in dataset[roll:dataset.samples_per_symbol*no_symbols+roll:dataset.samples_per_symbol]:
+#         E_in_x, E_in_y, E_out_x, E_out_y = E_in[0], E_in[1], E_out[0], E_out[1]
+#         axs[0,0].plot(xaxis, np.abs( E_in_x.numpy())**2, alpha=0.05, color='C0')
+#         axs[1,0].plot(xaxis, np.abs( E_in_y.numpy())**2, alpha=0.05, color='C0')
+#         axs[0,1].plot(xaxis, np.abs(E_out_x.numpy())**2, alpha=0.05, color='C0')
+#         axs[1,1].plot(xaxis, np.abs(E_out_y.numpy())**2, alpha=0.05, color='C0')
+
+#     if show:
+#         plt.show()
+
+# # def plt_dataloader(dataloader, show=True):
+# #     _, axs = plt.subplots(2,2, sharex=True, sharey=True)
+
+# #     E_outs, E_ins = next(iter(dataloader))
+# #     for i, (E_out, E_in) in enumerate(zip(E_outs, E_ins)):
+# #         xaxis = np.linspace(dataset.symbols_per_slice*i,dataset.symbols_per_slice+dataset.symbols_per_slice*i,dataset.samples_per_slice)
+# #         E_in_x, E_in_y, E_out_x, E_out_y = E_in[0], E_in[1], E_out[0], E_out[1]
+# #         axs[0,0].plot(xaxis, np.abs(E_in_x.numpy())**2)
+# #         axs[1,0].plot(xaxis, np.abs(E_in_y.numpy())**2)
+# #         axs[0,1].plot(xaxis, np.abs(E_out_x.numpy())**2)
+# #         axs[1,1].plot(xaxis, np.abs(E_out_y.numpy())**2)
+
+# #     if show:
+# #         plt.show()
+
+if __name__ == "__main__":
+
+    dataset = FiberRegenerationDataset("data/20241115-175517-128-16384-10000-0-0-17-0-PAM4-0.ini", symbols=13, drop_first=100, output_dim=26, num_symbols=100)
+
+    loader = DataLoader(dataset, batch_size=10, shuffle=True)
+    
+    x = []
+    y_fiber_in = []
+    y_fiber_out = []
+
+    for i, batch in enumerate(loader):
+        # if i > 128:
+        #     break
+        
+        fiber_in, fiber_out, timestamp = batch
+
+        fiber_out = fiber_out.reshape(fiber_out.shape[0], -1, 2)
+        fiber_out = fiber_out[:,fiber_out.shape[1]//2, :]
+
+        # input_data = input_data.reshape(-1,2)
+        # target = target.reshape(-1,2).squeeze()
+        # timestamp = timestamp.reshape(-1,1).squeeze()
+
+        x.append(timestamp.detach().numpy())
+        y_fiber_in.append(fiber_in.abs().square().detach().numpy())
+        y_fiber_out.append(fiber_out.abs().square().detach().numpy())
+
+    x = np.concat(x)
+    y_fiber_in = np.concat(y_fiber_in)
+    y_fiber_out = np.concat(y_fiber_out)
+
+    # order = np.argsort(x)
+    # x = x[order]
+    # y = y[order]
+
+    fig, axs = plt.subplots(2,2, sharex=True, sharey=True)
+    axs[0,0].scatter((x/dataset.samples_per_symbol)%2, y_fiber_in[:,0], s=1, alpha=0.1)
+    axs[1,0].scatter((x/dataset.samples_per_symbol)%2, y_fiber_in[:,1], s=1, alpha=0.1)
+    axs[0,1].scatter((x/dataset.samples_per_symbol)%2, y_fiber_out[:,0], s=1, alpha=0.1)
+    axs[1,1].scatter((x/dataset.samples_per_symbol)%2, y_fiber_out[:,1], s=1, alpha=0.1)
+    plt.show()
+
+    # eye_dataset(dataset, 1000, offset=True, show=False)
+
+    # train_loader = DataLoader(dataset, batch_size=10, shuffle=False)
+
+    # plt_dataloader(train_loader, show=False)
+
+    # plt.show()

src/single-core-regen/testing/sliced_dataset_test.py

@@ -1,51 +0,0 @@
-# move into dir single-core-regen before running
-
-from util.dataset import SlicedDataset
-from torch.utils.data import DataLoader
-from matplotlib import pyplot as plt
-import numpy as np
-
-def eye_dataset(dataset, no_symbols=None, offset=False, show=True):
-    if no_symbols is None:
-        no_symbols = len(dataset)
-    _, axs = plt.subplots(2,2, sharex=True, sharey=True)
-
-    xaxis = np.linspace(0,dataset.symbols_per_slice,dataset.samples_per_slice)
-    roll = dataset.samples_per_symbol//2 if offset else 0
-    for E_out, E_in in dataset[roll:dataset.samples_per_symbol*no_symbols+roll:dataset.samples_per_symbol]:
-        E_in_x, E_in_y, E_out_x, E_out_y = E_in[0], E_in[1], E_out[0], E_out[1]
-        axs[0,0].plot(xaxis, np.abs( E_in_x.numpy())**2, alpha=0.05, color='C0')
-        axs[1,0].plot(xaxis, np.abs( E_in_y.numpy())**2, alpha=0.05, color='C0')
-        axs[0,1].plot(xaxis, np.abs(E_out_x.numpy())**2, alpha=0.05, color='C0')
-        axs[1,1].plot(xaxis, np.abs(E_out_y.numpy())**2, alpha=0.05, color='C0')
-
-    if show:
-        plt.show()
-
-# def plt_dataloader(dataloader, show=True):
-#     _, axs = plt.subplots(2,2, sharex=True, sharey=True)
-
-#     E_outs, E_ins = next(iter(dataloader))
-#     for i, (E_out, E_in) in enumerate(zip(E_outs, E_ins)):
-#         xaxis = np.linspace(dataset.symbols_per_slice*i,dataset.symbols_per_slice+dataset.symbols_per_slice*i,dataset.samples_per_slice)
-#         E_in_x, E_in_y, E_out_x, E_out_y = E_in[0], E_in[1], E_out[0], E_out[1]
-#         axs[0,0].plot(xaxis, np.abs(E_in_x.numpy())**2)
-#         axs[1,0].plot(xaxis, np.abs(E_in_y.numpy())**2)
-#         axs[0,1].plot(xaxis, np.abs(E_out_x.numpy())**2)
-#         axs[1,1].plot(xaxis, np.abs(E_out_y.numpy())**2)
-
-#     if show:
-#         plt.show()
-
-if __name__ == "__main__":
-
-    dataset = SlicedDataset("data/20241115-175517-128-16384-10000-0-0-17-0-PAM4-0.ini", symbols=1, drop_first=100)
-    print(dataset[0][0].shape)
-
-    eye_dataset(dataset, 1000, offset=True, show=False)
-
-    train_loader = DataLoader(dataset, batch_size=10, shuffle=False)
-
-    # plt_dataloader(train_loader, show=False)
-
-    plt.show()