# visualize error based on 2 factors

I have implemented one algorithm (RLSR) which there are two regularization factor. Based on different value of this two factors my cost function decreases or increase. Right now I visualize my error with `plt.scatter` by passing the error as the color which result :

but the problem here is my values in y-axis are very small so as you can see they overlap and I can not see some part of my results.

alpha_list=[1e-11,1e-10,1e-10,5*1e-10,8*1e-10,1e-8,1e-8,5*1e-8,8*1e-6,1e-6,1e-6,5*1e-6,8*1e-6,1e-4,1e-4,5*1e-4,8*1e-4,1e-3,1e-3,5*1e-3,6*1e-3,8*1e-3]

I tried to decrease the transparency but It didn't help much!

and this is how I implemented it :

``````eigenvalues,alphaa  = np.meshgrid(eigRange,alpha_list )

fig = plt.figure()
DatavmaxTrain = np.max(normCostTrain)
DatavminTrain = np.min(normCostTrain)

DatavmaxTest = np.max(normCostTest)
DatavminTest = np.min(normCostTest)

plt.subplot(211)

plt.scatter(eigenvalues,alphaa,s=130, c=normCostTrain,cmap=cm.PuOr, vmin=DatavminTrain, vmax=DatavmaxTrain, alpha=0.70) #-----for train

cb1=plt.colorbar()
cb1.set_label("normalized square error")

plt.title("Train ")
plt.xlabel("No. of Eigenvalues")
plt.ylabel("Regualrization parameter")
``````

So I am looking for a better way to visualize my data.

Thanks

-

How about plotting the log of the `alpha_list` values?

``````alpha_list = np.log(alpha_list)
``````

There is still some overlap, but at least the values are more evenly spread out:

``````import matplotlib.pyplot as plt
import numpy as np

alpha_list=[1e-11,1e-10,1e-10,5*1e-10,8*1e-10,1e-8,1e-8,5*1e-8,8*1e-6,1e-6,1e-6,5*1e-6,8*1e-6,1e-4,1e-4,5*1e-4,8*1e-4,1e-3,1e-3,5*1e-3,6*1e-3,8*1e-3]
alpha_list = np.log(alpha_list)
eigRange = np.linspace(0,19,20)

eigenvalues,alphaa  = np.meshgrid(eigRange,alpha_list )
normCostTrain = np.random.random((len(alpha_list),len(eigRange)))

fig = plt.figure()
DatavmaxTrain = np.max(normCostTrain)
DatavminTrain = np.min(normCostTrain)

plt.scatter(eigenvalues,alphaa,s = 130, c=normCostTrain,cmap=plt.get_cmap('PuOr'),
vmin=DatavminTrain, vmax=DatavmaxTrain, alpha=0.70) #-----for train

cb1=plt.colorbar()
cb1.set_label("normalized square error")

plt.title("Train ")
plt.xlabel("No. of Eigenvalues")
plt.ylabel("Log(Regularization parameter)")
plt.show()
``````

yields

Here is an example of a 3D scatter plot of the same data, with the z-axis (and the color) are both used to represent the "normalized square error".

``````import matplotlib.pyplot as plt
from mpl_toolkits.mplot3d import Axes3D
import matplotlib.cm as cm
import numpy as np

fig = plt.figure()
ax = fig.add_subplot(111, projection = '3d')

alpha_list = [1e-11, 1e-10, 1e-10, 5*1e-10, 8*1e-10, 1e-8, 1e-8, 5*1e-8, 8*1e-6,
1e-6, 1e-6, 5*1e-6, 8*1e-6, 1e-4, 1e-4, 5*1e-4, 8*1e-4, 1e-3, 1e-3,
5*1e-3, 6*1e-3, 8*1e-3]

alpha_list = np.log(alpha_list)
eigRange = np.linspace(0, 19, 20)

eigenvalues, alphaa  = np.meshgrid(eigRange, alpha_list )
eigenvalues = eigenvalues.ravel()
alphaa = alphaa.ravel()
normCostTrain = np.random.random((len(alpha_list), len(eigRange))).ravel()

DatavmaxTrain = np.max(normCostTrain)
DatavminTrain = np.min(normCostTrain)

PuOr = plt.get_cmap('PuOr')
ax.scatter(eigenvalues, alphaa, normCostTrain,
c = normCostTrain.ravel(),
s = 30,
cmap = PuOr,
vmin = DatavminTrain,
vmax = DatavmaxTrain,
alpha = 0.70
) #-----for train

m = cm.ScalarMappable(cmap = PuOr)
m.set_array(normCostTrain)

cb1 = plt.colorbar(m)
cb1.set_label("normalized square error")

plt.title("Train ")
ax.set_xlabel("No. of Eigenvalues")
ax.set_ylabel("Log(Regularization parameter)")
ax.set_zlabel("normalized square error")
plt.show()
``````

I'm not sure if this is an improvement. The points are a bit jumbled together, but are distinguishable if you drag the mouse to rotate the plot.

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Thanks! I've should try it sooner! But is there any better alternative plot style to which fit my problem better? –  Moj Nov 30 '12 at 11:03
@Moj: You might try using a 3D scatter plot. –  HappyLeapSecond Nov 30 '12 at 14:04
I tried it once but couldn't figured out how to use it or my purpose.can you give me some hint! I put ax.scatter(eigenvalues, alphas,c=normCostTrain, marker="o") but getting the following error:' File "/usr/lib/pymodules/python2.7/mpl_toolkits/mplot3d/proj3d.py", line 184, in vec_pad_ones vec = np.array([xs,ys,zs,np.ones((len(xs)))]) ValueError: setting an array element with a sequence.', –  Moj Nov 30 '12 at 14:46