Figure 1 shows a data block (for example, a 512 byte sector) with the 8-byte footer attached to the end.
图1显示一个数据块(例如一个512字节的扇区),末尾有8字节的附加部分。
Little-endian means that the least significant byte has the lowest address (the word is stored little-end-first).
而little -endian意味着最低位字节存储在最低地址(按低位优先的顺序存储字)。
Big-endian means that the most significant byte has the lowest address (the word is stored big-end-first).
big -endian意味着最高位字节存储在最低地址(按高位优先的顺序存储字)。
The XML specification practically requires parsers to begin at the first byte of an XML document and continue parsing until the end, and all existing parsers operate like this.
XML规范特别要求解析器从 XML文档的第一个字节开始解析直到最后一个字节,所有现有的解析器都是这样操作的。
However, this new code now assumes that the starting address is 16-byte aligned, and also that it has enough padding on the end that the next data element in memory is also 16-byte aligned.
然而,这段新代码假定起始地址是按照16字节对齐的,并且末尾也有足够的填充位,因此内存中下一个数据元素也是16字节对齐的。
At the end of this, register 4 has the final value, with the byte shifted into the preferred slot.
最后,寄存器4将拥有最终值,并且字节会移位进首选槽。
A check bit is an extra bit attached to the end of a byte for purposes of checking for accuracy.
校验位是附在字节最后的一个额外的位,其目的是为了检验其精确性。
You will end up with a single 8-byte block as the final end result of all exclusive OR operations.
所有exclusiveOR操作的最后结果是一个8字节长的块。
Adds a byte range header to a request for a specific range from the beginning or end of the requested data.
向请求添加从请求数据的开始处或结束处的特定范围的字节范围标头。
Signs a byte array from the specified start point to the specified end point.
从指定的起始点到指定的端点签署位元组阵列。
End of file is reached at last byte of the file.
最后一个字符就是文件的结束。
Importantly, each layer USES a single, interleaved parity byte to provide error monitoring across a particular segment, along the end-to-end SONET path.
更重要的是,每一层都使用一个单一的,交错的校验字节提供一个特定的市场上的错误监测以及终端到终端的SONET路径。
Importantly, each layer USES a single, interleaved parity byte to provide error monitoring across a particular segment, along the end-to-end SONET path.
更重要的是,每一层都使用一个单一的,交错的校验字节提供一个特定的市场上的错误监测以及终端到终端的SONET路径。
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