Results 231 to 240 of about 333,660 (280)
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The Arithmetic Teacher, 1976
Decimals— in particular, the decimal representation of rational numbers—can be one of the most interesting topics of arithmetic.
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Decimals— in particular, the decimal representation of rational numbers—can be one of the most interesting topics of arithmetic.
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A decimal-to-decimal antilogarithmic converter
2008 Canadian Conference on Electrical and Computer Engineering, 2008This paper presents a novel design and implementation of a 7-digit fixed-point decimal-to-decimal antilogarithmic converter. A linear approximation algorithm is proposed and simulated in MATLAB models. The maximum absolute error of the proposed decimal antilogarithmic converter is in the range of -0.000999 les Eabsolute les 0.000857 and the maximum ...
null Dongdong Chen +5 more
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A novel decimal-to-decimal logarithmic converter
2008 IEEE International Symposium on Circuits and Systems (ISCAS), 2008This paper presents a novel design and implementation of a 7-digit fixed-point decimal-to-decimal logarithmic converter. Two approaches, binary-based decimal approximation algorithm (algorithm 1) and decimal linear approximation algorithm (algorithm 2), are proposed and investigated. It shows that decimal linear approximation algorithm (algorithm 2) is
null Dongdong Chen +5 more
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Serial Binary-to-Decimal and Decimal-to-Binary Conversion
IEEE Transactions on Computers, 1970Over ten years ago, Couleur described a serial binary/ decimal conversion algorithm, the BIDEC method. This was a two-step process involving a shift followed by a parallel modification of the data being converted. With the integrated-circuit J-K flip-flop, the implementation of this two-step process requires an excessive amount of control logic.
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MXene Ti3C2 memristor for neuromorphic behavior and decimal arithmetic operation applications
Nano Energy, 2021Jingsheng Chen, Xiaobing Yan
exaly
Fast Decimal Counting with Binary-Decimal Logic
IEEE Transactions on Nuclear Science, 1964Speed limits of decimal counting schemes based on binary-to-decimal conversion are considered. A simple "1-2-4-8" decimal logic is described, which is inherently as fast as the basic bistable. A decade for counting in 100-200 Mc/sec range, based on this logic and the tunnel diode-transistor bistable, is presented.
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1979
In this chapter we examine the orders of elements of ℤ t , for any number t, and complete our study of repeating decimals. These subjects are closely related, for we showed in Chapter I-12 that the base a expansion of u/t, \({u\over t}=(.a_1a_2\ldots a_da_1a_2\ldots a_da_1\ldots)_a\ =(.a_1a_2\ldots a_d)_a, \) is repeating: $$ {u\over t}=(.a_1a_2 ...
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In this chapter we examine the orders of elements of ℤ t , for any number t, and complete our study of repeating decimals. These subjects are closely related, for we showed in Chapter I-12 that the base a expansion of u/t, \({u\over t}=(.a_1a_2\ldots a_da_1a_2\ldots a_da_1\ldots)_a\ =(.a_1a_2\ldots a_d)_a, \) is repeating: $$ {u\over t}=(.a_1a_2 ...
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