J. N. Mitchell, "Computer Multiplication and Division using Binary Logarithms," IEEE Trans. Comput., vol. EC-11, pp. 512-517, Aug. 1962. Home/Search Document Not in Database Summary Related Articles Check |
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A Single-Multiplier Quadratic Interpolator for LNS Arithmetic - Mark Arnold Umist (2001) (Correct)
....is also two bits less accurate than (16) when the anti log ROM is small. If the anti log ROM is only good for m significant bits, 10) has m bits and (16) has m 2 bits more accuracy than (1) 10. Mitchell s Anti log Method The anti log ROM can be eliminated altogether by using Mitchell s method [11], which substitutes a shifter for ROM9 by noting that 2 2 bxc (1 (x Gamma bxc) This has the advantage that the propagation delay of the system will be similar to simple singlemultiplication linear interpolation. With Mitchell s method, m 4. Thus, 16) using Mitchell s method for 2 ....
J. N. Mitchell, "Computer Multiplication and Division using Binary Logarithms," IEEE Trans. Electron. Comput., vol. EC-11, pp. 512-517, Aug. 1962.
Asymmetric and Compressed Logarithmic Number Systems for a.. - Arnold (Correct)
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J. N. Mitchell, "Computer Multiplication and Division using Binary Logarithms," IEEE Trans. Comput., vol. EC-11, pp. 512-517, Aug. 1962.
The Interval Logarithmic Number System - Arnold, Garcia, Schulte (Correct)
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J. N. Mitchell, "Computer Multiplication and Division using Binary Logarithms," IEEE Transactions on Electronic Computers,vol.EC- 11, pp. 512-517, August 1962.
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