Variational이라는 단어로는 아무것도 안떠오릅니다.
그래서, '꿩 대신 닭'이라고 표현해 봤습니다.
초반 독자적인 그림을 통해 개념잡기가 쉬워요.
설명부분은 초록색으로 표시했습니다.
확률변수(random variable)부터 막히면, 아래 블로그 글을 읽어 보세요.
https://blog.naver.com/nonezerok/221428251262
This document describes an implementation of backpropagation algorithm in C code to understand the backpropagation algorithm through programming. It also explains how it can be applied to a real-world case of handwritten digit recognition using TensorFlow code. The neural network code can be used to gain experience by adjusting values and observing their effects on the network.
To install Python and TensorFlow, download Python version 3.5.2 from the Python website and TensorFlow from the TensorFlow website. Python 3.5.2 must be installed before installing TensorFlow. Once Python is installed, add it to the system PATH and install pip. Then use pip to install various Python packages like iPython, PyQt5, Matplotlib, OpenCV, and Spyder for data science and machine learning.
Variational이라는 단어로는 아무것도 안떠오릅니다.
그래서, '꿩 대신 닭'이라고 표현해 봤습니다.
초반 독자적인 그림을 통해 개념잡기가 쉬워요.
설명부분은 초록색으로 표시했습니다.
확률변수(random variable)부터 막히면, 아래 블로그 글을 읽어 보세요.
https://blog.naver.com/nonezerok/221428251262
This document describes an implementation of backpropagation algorithm in C code to understand the backpropagation algorithm through programming. It also explains how it can be applied to a real-world case of handwritten digit recognition using TensorFlow code. The neural network code can be used to gain experience by adjusting values and observing their effects on the network.
To install Python and TensorFlow, download Python version 3.5.2 from the Python website and TensorFlow from the TensorFlow website. Python 3.5.2 must be installed before installing TensorFlow. Once Python is installed, add it to the system PATH and install pip. Then use pip to install various Python packages like iPython, PyQt5, Matplotlib, OpenCV, and Spyder for data science and machine learning.
18. a = 1;
b = ++a;
printf(“%d”, a);
printf(“%d”, b);
2
2
a=a+1;
변수 a는 1 증가된다
18
19. a = 1;
b = a++;
printf(“%d”, a);
printf(“%d”, b);
2
1
a=a+1;
변수 a는 1 증가된다
19
20. a = 1;
b = ++a;
b = (a=a+1);
b = (a=1+1);
b = (a=2);
b = 2;
2
a = 1;
b = a++;
b = (a=a+1);
b = (a=1+1);
b = (a=2);
b = 1;
1
a 가 계산되기 전
의 값 남긴다
a 가 계산된 후의
값 남긴다
20