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CRC ANSI X3.66
- 32位CRC循环冗余源代码 符合ANSI X3.66标准,运用于CCITT s X.25协议-32 Cyclic Redundancy source code conforms to the ANSI X3.66 standard, used CCITT s X.25
ccitt
- 能够对十六进制的数据进行CRC校验,校验码为ccitt码。
tt
- 计算xk+1除CRC-CCITT后的余式,k从1到32768
crc_table_init
- 根据不同的生成多项,生成CRC的初始表值,包括CRC16,CRC-CCITT,CRC32
1crc
- 计算CRC16/CRC8/CRC32的程序,可获得CRC-CCITT/CRC-16/CRC-8/CRC-32的计算结果。 提供Delphi源代码和MCS51单片机的汇编源代码,分别采用两至三种不同算法实现。有比较详细的调用和使用说明。 更新历史: 2003/05/04 新增CRC-8算法的实现。 2004/02/02 修改CRC-8算法,新增CRC-32算法,增加比较详细的调用和使用说明。-CRC16/CRC8/CRC32 calculation procedures available CRC
CCITT_CRC
- CCITT的CRC检验代码。不是很难,但也是心血所结-CCITT The CRC check code. Is not difficult, but also efforts by the knot! ! !
CCITT_CRC16
- CCITT的CRC16代码,自己编写的已通过验证,注意和Matlab的CRC函数有所不同。-This scr ipt calculates the 16-bit ITU-T CRC. The generator polynomial is G(x)=1+ X^5+ X^12+ X^16
0626C2
- 计算xk+1除CRC-CCITT后的余式,k从1到32768-Xk+1 In addition to calculating the CRC-CCITT after more than style, k from 1-32768
CRC_bit_arithmetic
- CRC采用比特型算法,生成多项式为CCITT 0x1021,无需查表,节省内存空间。-CRC-bit-based algorithm used to generate a polynomial for the CCITT 0x1021, no look-up table to save memory space.
crc_high
- 用c语言实现crc算法,采用ccitt标准多项式,查找表方法实现,高位先处理,接收校验成功标志为1d0f.-Checksum crc algorithm to achieve the standard which use ccitt polynomial, using look-up table method to achieve, high bit to deal with first, mark of success receiving check is 1d0f.
crc8
- for microcontroller Calculate CRC-8 Values. Uses The CCITT-8 Polynomial, Expressed As X^8 + X^5 + X^4 + 1-for microcontroller Calculate CRC-8 Values. Uses The CCITT-8 Polynomial, Expressed As X^8+ X^5+ X^4+ 1
crc16
- Calculate CRC-8 Values. Uses The CCITT-8 Polynomial, Expressed As X^8 + X^5 + X^4 + 1 -Calculate CRC-8 Values. Uses The CCITT-8 Polynomial, Expressed As X^8+ X^5+ X^4+ 1
crc_peripheral
- -- crc.vhd -- Used for calculation of CRC16-CCITT -- Intended use is as custom peripheral for Nios processor -- When address is logic 0 => -- Internal CRC register is initialised with write_data value -- When address is logic 1 =>
CRC16_2
- IAR Asm for MSP430. Calculate the CCITT/ITU/CRC-16 parameters for this CRC are: Polynomial: x^16 + x^12 + x^5 + 1 (0x1021) Start value 0xFFFF Data receives from USART Checksum in R11.-IAR Asm for MSP430. Calculate the CCITT/ITU/CRC-
MYCRC
- 由于altera公司的CRC生成和校验模块不支持本系统使用的Cyclone IV E系列FPGA,因此本文独立设计了CRC模块。该模块的接口与altera公司的CRC模块接口基本一致,能够对16位输入的数据流进行CRC校验码生成和校验。本文采用CRC-CCITT生成项,其表达式为:X16+X12+X5+X0。本模块需要startp信号及endp信号指示数据传输的起始及结束。本模块采用状态机设计,对于数据头和数据尾分别由不同的状态来处理。在本模块中,使用了for循环,这会消耗较多的FPGA资源,但
QCRC
- qt下CRC-CCITT生成算法,可以选择文件进行计算CRC的值.-the CRC-CCITT algorithm under qt,it can select a file to calculate the CRC value.
xmodemCRC16.c
- 本人根据XMODEM协议的16位CRC校验方式CRC--CCITT(X^16 + X^12 + X^5 + 1),根据其理论思路一步一步编写的源代码,按照程序思路,会比较容易理解CRC16较验方式的来龙去脉。 -I according to the XMODEM protocol 16 of the CRC method CRC- CCITT (X ^ 16+ X ^ 12+ X ^ 5+ 1), according to their theoretical ideas step by st
crc-ccitt
- This mysterious table is just the CRC of each possible byte.
ERROR-detecting-code-using-CRC-CCITT
- The idea behind CRC calculation is to look at the data as one largebinary number. This number is divided by a certain value and the remainder ofthe calculation is called the CRC. Dividing in the CRC calculation at firstlooks to cost a lot of computin
crc16-ccitt (xFFFF) LV2012 NIVerified.zip
- LABVIEW开发的用来做CRC校验的工具, 结果运算正确,分享给大家,请大家下载使用。 谢谢!(That is the demo for CRC calculation, developed by labview, you can download to use)