• 设为首页
  • 点击收藏
  • 手机版
    手机扫一扫访问
    迪恩网络手机版
  • 关注官方公众号
    微信扫一扫关注
    公众号

(原创)用MATLAB完成二进制,十进制,十六进制之间的转换,对滤波器的抽头系数处理非 ...

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

(原创)用MATLAB完成二进制,十进制,十六进制之间的转换,对滤波器的抽头系数处理非常有效(MATLAB)

虽然这些都是在帮助上找到的(如help num2hex),但有些人不懂MATLAB会有这些功能,而不懂得充分利用,所以贴出来共享,对于用FPGA做数字信号处理非常有效!

 

 BIN2NUM Binary string to numeric array conversion
    X = BIN2NUM(Q,B) converts binary string B to numeric matrix X.  The
    attributes of the number are specified by quantizer object Q.  If B is a
    cell array containing binary strings, then X will be a cell array of the
    same dimension containing numeric matrices.  The fixed-point binary
    representation is two\'s complement.  The floating-point binary
    representation is IEEE style.
 
    If there are fewer binary digits than are necessary to represent the number,
    then fixed-point zero-pads on the left, and floating-point zero-pads on the
    right.
 
    [X1,X2,...] = BIN2NUM(Q,B1,B2,...) converts binary strings B1, B2,... to
    numeric matrices X1, X2, ....
 
    BIN2NUM and NUM2BIN are inverses of each other, except that NUM2BIN
    always returns a column.
 
    For example, all of the 3-bit fixed-point two\'s-complement numbers in
    fractional form are given by:
      q = quantizer([3 2]);
      b = [\'011  111\'
           \'010  110\'
           \'001  101\'
           \'000  100\'];
      x = bin2num(q,b)

x =

    0.7500   -0.2500
    0.5000   -0.5000
    0.2500   -0.7500
         0   -1.0000

///////////////////////////////////////////////////////////////////////////

 NUM2BIN Number to binary string
    B = NUM2BIN(Q,X) converts numeric matrix X to binary string B.  The
    attributes of the number are specified by quantizer object Q.  If X
    is a cell array containing numeric matrices, then B will be a cell
    array of the same dimension containing binary strings.  The
    fixed-point binary representation is two\'s complement.  The
    floating-point binary representation is IEEE style.
 
    [B1,B2,...] = NUM2BIN(Q,X1,X2,...) converts numeric matrices X1, X2,
    ... to binary strings B1, B2, ....
 
    NUM2BIN and BIN2NUM are inverses of each other, except that NUM2BIN
    always returns a column.
 
    For example, all of the 3-bit fixed-point two\'s complement numbers in
    fractional form are given by:
      q = quantizer([3 2]);
      x = [0.75   -0.25
           0.50   -0.50
           0.25   -0.75
           0      -1   ];
      b = num2bin(q,x)

b =

011
010
001
000
111
110
101
100

///////////////////////////////////////////////////////////////////

HEX2BIN Convert hexadecimal strings to binary strings
 
    B = HEX2BIN(Q,H) converts hexadecimal strings vectorized in a column H to
    binary strings B.  The wordlength is derived from quantizer Q.  This is a
    private function that is used by NUM2BIN.
 
    Example:
      q = quantizer(\'fixed\',[8 7]);
      h = [\'ff\'; \'fe\'];
      b = hex2bin(q,h)

b =

11111111
11111110

////////////////////////////////////////////////////////////////////////

 NUM2HEX Number to hexadecimal string
    H = NUM2HEX(Q,X) converts numeric matrix X to hexadecimal string H.
    The attributes of the number are specified by Quantizer object Q.
    If X is a cell array containing numeric matrices, then H will be a
    cell array of the same dimension containing hexadecimal strings.
    The fixed-point hexadecimal representation is two\'s complement.  The
    floating-point hexadecimal representation is IEEE style.
 
    [H1,H2,...] = NUM2HEX(Q,X1,X2,...) converts numeric matrices X1, X2,
    ... to hexadecimal strings H1, H2, ....
 
    NUM2HEX and HEX2NUM are inverses of each other, except that NUM2HEX
    always returns a column.
 
    For example, all of the 4-bit fixed-point two\'s complement numbers in
    fractional form are given by:
      q = quantizer([4 3]);
      x = [0.875    0.375   -0.125   -0.625
           0.750    0.250   -0.250   -0.750
           0.625    0.125   -0.375   -0.875
           0.500        0   -0.500   -1.000];
      h = num2hex(q,x)

h =

7
6
5
4
3
2
1
0
f
e
d
c
b
a
9
8

//////////////////////////////////////////////////////////////////

 HEX2NUM Hexadecimal string to numeric array conversion
    X = HEX2NUM(Q,H) converts hexadecimal string H to numeric matrix X.
    The attributes of the number are specified by quantizer object Q.
    If H is a cell array containing hexadecimal strings, then X will be
    a cell array of the same dimension containing numeric matrices.
    The fixed-point hexadecimal representation is two\'s complement.  The
    floating-point hexadecimal representation is IEEE style.
 
    If there are fewer hex digits than are necessary to represent the
    number, then fixed-point zero-pads on the left, and floating-point
    zero-pads on the right.
 
    [X1,X2,...] = HEX2NUM(Q,H1,H2,...) converts hexadecimal strings H1,
    H2, ... to numeric matrices X1, X2, ....
 
    HEX2NUM and NUM2HEX are inverses of each other, except that NUM2HEX
    always returns a column.
 
    For example, all of the 4-bit fixed-point two\'s complement numbers in
    fractional form are given by:
      q = quantizer([4 3]);
      h = [\'7  3  F  B\'
           \'6  2  E  A\'
           \'5  1  D  9\'
           \'4  0  C  8\'];
      x = hex2num(q,h)

x =

    0.8750    0.3750   -0.1250   -0.6250
    0.7500    0.2500   -0.2500   -0.7500
    0.6250    0.1250   -0.3750   -0.8750
    0.5000         0   -0.5000   -1.0000

///////////////////////////////////////////////////////////////////////////////////

 HEX2NUM Convert IEEE hexadecimal string to double precision number.
    HEX2NUM(S), where S is a 16 character string containing
    a hexadecimal number, returns the IEEE double precision
    floating point number it represents.  Fewer than 16
    characters are padded on the right with zeros.
 
    If S is a character array, each row is interpreted as a double
    precision number.
 
    NaNs, infinities and denorms are handled correctly.
 
    Example:
        hex2num(\'400921fb54442d18\') returns Pi.
        hex2num(\'bff\') returns -1.

////////////////////////////////////////////////////////////////////

 NUM2HEX Convert singles and doubles to IEEE hexadecimal strings.
    If X is a single or double precision array with n elements,
    NUM2HEX(X) is an n-by-8 or n-by-16 char array of the hexadecimal
    floating point representation.  The same representation is printed
    with FORMAT HEX.
 
    Examples:
 
       num2hex([1 0 0.1 -pi Inf NaN]) is
       3ff0000000000000
       0000000000000000
       3fb999999999999a
       c00921fb54442d18
       7ff0000000000000
       fff8000000000000
 
       num2hex(single([1 0 0.1 -pi Inf NaN])) is
       3f800000
       00000000
       3dcccccd
       c0490fdb
       7f800000
       ffc00000

////////////////////////////////////////////////////////////

 DEC2HEX Convert decimal integer to hexadecimal string.
    DEC2HEX(D) returns a 2-D string array where each row is the
    hexadecimal representation of each decimal integer in D.
    D must contain non-negative integers smaller than 2^52.
 
    DEC2HEX(D,N) produces a 2-D string array where each
    row contains an N digit hexadecimal number.
 
    Example
        dec2hex(2748) returns \'ABC\'.

/////////////////////////////////////////////////////////////////

 HEX2DEC Convert hexadecimal string to decimal integer.
    D = HEX2DEC(H) interprets the hexadecimal string H and returns in D the
    equivalent decimal number. 
  
    If H is a character array or cell array of strings, each row is interpreted
    as a hexadecimal string.
 
    EXAMPLES:
        hex2dec(\'12B\') and hex2dec(\'12b\') both return 299

///////////////////////////////////////////////////////////////////////////

 BIN2DEC Convert binary string to decimal integer.
    X = BIN2DEC(B) interprets the binary string B and returns in X the
    equivalent decimal number. 
 
    If B is a character array, or a cell array of strings, each row is
    interpreted as a binary string.
    Embedded, significant spaces are removed. Leading spaces are converted to
    zeros.
 
    Example
        bin2dec(\'010111\') returns 23
        bin2dec(\'010 111\') also returns 23
        bin2dec(\' 010111\') also returns 23

///////////////////////////////////////////////////////////////////////////

 DEC2BIN Convert decimal integer to a binary string.
    DEC2BIN(D) returns the binary representation of D as a string.
    D must be a non-negative integer smaller than 2^52.
 
    DEC2BIN(D,N) produces a binary representation with at least
    N bits.
 
    Example
       dec2bin(23) returns \'10111\'

/////////////////////////////////////////////////////////////////////////

 


鲜花

握手

雷人

路过

鸡蛋
该文章已有0人参与评论

请发表评论

全部评论

专题导读
上一篇:
Delphi之第四讲自定义数据类型发布时间:2022-07-18
下一篇:
Delphi7时钟(使用了多个自定义组件)发布时间:2022-07-18
热门推荐
阅读排行榜

扫描微信二维码

查看手机版网站

随时了解更新最新资讯

139-2527-9053

在线客服(服务时间 9:00~18:00)

在线QQ客服
地址:深圳市南山区西丽大学城创智工业园
电邮:jeky_zhao#qq.com
移动电话:139-2527-9053

Powered by 互联科技 X3.4© 2001-2213 极客世界.|Sitemap