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ORCID11th IEEE Symposium on Computer Arithmetic 1993: Windsor, Canada
- Earl E. Swartzlander Jr., Mary Jane Irwin, Graham A. Jullien:
11th Symposium on Computer Arithmetic, 29 June - 2 July 1993, Windsor, Canada, Proceedings. IEEE Computer Society/ 1993, ISBN 0-8186-3862-1 - David M. Lewis:
An accurate LNS arithmetic unit using interleaved memory function interpolator. 2-9 - Daniel W. Lozier:
An underflow-induced graphics failure solved by SLI arithmetic. 10-17 - Peter R. Turner:
Complex SLI arithmetic: Representation, algorithms and analysis. 18-25 - W. Kenneth Jenkins, Bernard A. Schnaufer, Andrew J. Mansen:
Combined system-level redundancy and modular arithmetic for fault tolerant digital signal processing. 28-35 - B. J. Kirsch, Peter R. Turner:
Adaptive beamforming using RNS arithmetic. 36-43 - Sami S. Bizzan, Graham A. Jullien, Neil M. Wigley, William C. Miller:
Integer mapping architectures for the polynomial ring engine. 44-51 - Paolo Montuschi, Luigi Ciminiera:
n × n carry-save multipliers without final addition. 54-61 - Marc Daumas, David W. Matula:
Design of a fast validated dot product operation. 62-69 - Luigi Dadda, Vincenzo Piuri, Renato Stefanelli:
Multi-parallel convolvers. 70-77 - Stephen E. McQuillan, John V. McCanny, Robert Hamill:
New algorithms and VLSI architectures for SRT division and square root. 80-86 - Jordi Cortadella
, Tomás Lang:
Division with speculation of quotient digits. 87-94 - Debjit Das Sarma, David W. Matula:
Measuring the accuracy of ROM reciprocal tables. 95-102 - Eric M. Schwarz, Michael J. Flynn:
Hardware starting approximation for the square root operation. 103-111 - Milos D. Ercegovac, Tomás Lang, Paolo Montuschi:
Very high radix division with selection by rounding and prescaling. 112-119 - Nariankadu D. Hemkumar, Joseph R. Cavallaro:
Efficient complex matrix transformations with CORDIC. 122-129 - Gerben J. Hekstra, Ed F. Deprettere:
Floating point Cordic. 130-137 - Michael J. Schulte, Earl E. Swartzlander Jr.:
Exact rounding of certain elementary functions. 138-145 - Jean-Claude Bajard, Sylvanus Kla, Jean-Michel Muller:
BKM: A new hardware algorithm for complex elementary functions. 146-153 - Jonathon David Mellott, Jermy C. Smith, Fred J. Taylor:
The Gauss machine: A Galois-enhanced quadratic residue number system systolic array. 156-162 - W. S. Briggs, David W. Matula:
A 17 × 69 bit multiply and add unit with redundant binary feedback and single cycle latency. 163-170 - David Eisig, Josh Rotstain, Israel Koren:
The design of a 64-bit integer multiplier/divider unit. 171-178 - Tudor Jebelean:
Comparing several GCD algorithms. 180-185 - Xavier Merrheim, Jean-Michel Muller, Hong-Jin Yeh:
Fast evaluation of polynomials and inverses of polynomials. 186-192 - Daniel Etiemble, Keivan Navi:
Algorithms and multi-valued circuits for the multioperand addition in the binary stored-carry number system. 194-201 - Marianne E. Louie, Milos D. Ercegovac:
On digit-recurrence division implementations for field programmable gate arrays. 202-209 - Thomas K. Callaway, Earl E. Swartzlander Jr.:
Estimating the power consumption of CMOS adders. 210-216 - S. E. Richardson:
Exploiting trivial and redundant computation. 220-227 - Werner Krandick, Jeremy R. Johnson:
Efficient multiprecision floating point multiplication with optimal directional rounding. 228-233 - James Demmel, Xiaoye S. Li:
Faster numerical algorithms via exception handling. 234-241 - Mohand Ourabah Benouamer, P. Jaillon, Dominique Michelucci, Jean-Michel Moreau:
A lazy exact arithmetic. 242-249 - Mark Shand, Jean Vuillemin:
Fast implementations of RSA cryptography. 252-259 - Dan Zuras:
On squaring and multiplying large integers. 260-271 - Naofumi Takagi:
A modular multiplication algorithm with triangle additions. 272-276 - Peter Kornerup:
High-radix modular multiplication for cryptosystems. 277-283
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