输入处理器之后是四个十进制计数器。
因为人有10个手指,于是人们就发明了十进制计数体系。
Since human beings have ten fingers, they have developed a system of counting based on ten.
除了缺省的十进制计数制外w 3eval还支持二进制、八进制和十六进制。
In addition to the default decimal base, W3Eval also supports binary, octal, and hexadecimal bases.
随后这位作者的其他著作的翻译本给我们带来了直到今天还在使用的十进制计数法。
Later translations of his books also gave us the decimal positional number system we use today.
二-十进制计数法(BCD)指的是占据一个单元组的十进制系统的二进制等价物。
Binary Coded decimal (BCD) refers to a binary equivalent of the decimal system which also occupies a nibble.
计数器译码电路:计数译码集成在一块芯片上,计单位时间内脉冲个数,把十进制计数器计数结果译成BCD码;
The decipher circuit of the counter : Count deciphers and integrate on the chip together, count the pulse number in unit time, count the result of the decimal counter to translate into BCD yard;
通过对计数器和钟控传输门绝热逻辑电路工作原理及结构的研究,提出一种带复位功能的低功耗十进制计数器设计方案。
Based on the working principle, counter structure and Clocked Transmission Gate Adiabatic Logic circuits, a design scheme of decimal counter with reset is proposed.
接下来的方法将不同计数制的数转化为十进制的形式。
The next method converts Numbers from the various numeric bases into decimal Numbers.
其他文化就不那么迷上十进制了:古代巴比伦人以60的倍数计数,而在现代世界里我们可以看到他们这一数字系统的残留痕迹。
Other cultures were not so hooked on powers of 10: the ancient Babylonians collected things in powers of 60, and we see hangovers of their system of numbers in the modern world.
然而,他们几乎都是以十进制来计数的。
分析了一个异步十进制加法计数器实验电路的错误,介绍了异步十进制加法计数器典型电路。
This paper analysis the errors of experimental circuit on a asynchronous decimal carry counter, introduces a typical circuit on a asynchronous decimal carry counter.
介绍用通用阵列逻辑器件GAL设计十进制可逆计数器的方法。
The method of design of ten's carry reversible counter by use of common array logic element GAL is introduced.
然而,它们的计数方式都是一致的—十进制。
然而,它们的计数方式都是一致的—十进制。
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