default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCID28th ARITH 2021: Lyngby, Denmark
- 28th IEEE Symposium on Computer Arithmetic, ARITH 2021, Lyngby, Denmark, June 14-16, 2021. IEEE 2021, ISBN 978-1-6654-2293-2
- Karim Bigou, Mojtaba Bisheh-Niasar, Luís Fiolhais, Rogerio Paludo, Hwajeong Seo:
External Reviewers ARITH 2021. xiv - Brett Saiki, Oliver Flatt, Chandrakana Nandi, Pavel Panchekha
, Zachary Tatlock:
Combining Precision Tuning and Rewriting. 1-8 - Nestor Demeure, Cédric Chevalier, Christophe Denis, Pierre Dossantos-Uzarralde:
Tagged error: tracing numerical error through computations. 9-16 - Jean-Michel Muller:
$a \cdot(x\cdot\ x)$ or $(a\cdot x)\cdot x?$. 17-24 - Guillaume Revy:
Analyzing the impact of floating-point precision adaptation in iterative programs. 25-32 - David Defour, Pablo de Oliveira Castro, Matei Istoan, Eric Petit:
Shadow computation with BFloat16 to estimate the numerical accuracy of summations. 33-36 - Rémi Parrot, Mikaël Briday, Olivier H. Roux:
Pipeline Optimization using a Cost Extension of Timed Petri Nets. 37-44 - Oscar Gustafsson, Noah Hellman:
Approximate Floating-Point Operations with Integer Units by Processing in the Logarithmic Domain. 45-52 - Angelo Garofalo, Giuseppe Tagliavini, Francesco Conti, Luca Benini, Davide Rossi:
XpulpNN: Enabling Energy Efficient and Flexible Inference of Quantized Neural Networks on RISC-V based IoT End Nodes. 53 - Tomonori Kouya:
Acceleration of LU decomposition supporting double-double, triple-double, and quadruple-double precision floating-point arithmetic with AVX2. 54-61 - Emeric Brun, David Defour, Pablo de Oliveira Castro, Matei Istoan, Davide Mancusi, Eric Petit, Alan Vaquet:
A Study of the Effects and Benefits of Custom-Precision Mathematical Libraries for HPC Codes. 62 - Nicolas Brunie:
Manifest for an Approximation Exchange Format. 63-68 - Massimiliano Fasi, Mantas Mikaitis:
Algorithms for Stochastically Rounded Elementary Arithmetic Operations in IEEE 754 Floating-Point Arithmetic. 69 - Chai Wah Wu:
Dither computing: a hybrid deterministic-stochastic computing framework. 70-77 - Titouan Coladon, Philippe Elbaz-Vincent, Cyril Hugounenq:
MPHELL: A fast and robust library with unified and versatile arithmetics for elliptic curves cryptography. 78-85 - Jean-Claude Bajard, Kazuhide Fukushima, Shinsaku Kiyomoto, Thomas Plantard, Arnaud Sipasseuth, Willy Susilo:
Generating Residue Number System Bases. 86-93 - Mojtaba Bisheh-Niasar, Reza Azarderakhsh, Mehran Mozaffari Kermani:
High-Speed NTT-based Polynomial Multiplication Accelerator for Post-Quantum Cryptography. 94-101 - Andreas Böttcher, Martin Kumm, Florent de Dinechin:
Resource Optimal Truncated Multipliers for FPGAs. 102-109 - Giorgos Dimitrakopoulos, Kleanthis Papachatzopoulos, Vassilis Paliouras:
Sum Propagate Adders. 110 - Sylvie Boldo, Guillaume Melquiond:
Some Formal Tools for Computer Arithmetic: Flocq and Gappa. 111-114 - Florent de Dinechin, Silviu-Ioan Filip, Martin Kumm, Anastasia Volkova:
Towards Arithmetic-Centered Filter Design. 115-118 - Javier Hormigo, Gabriel Caffarena:
FPGA acceleration of bit-true simulations for word-length optimization. 119-122 - Doaa Ashmawy, Arash Reyhani-Masoleh:
A Faster Hardware Implementation of the AES S-box. 123-130 - Rami Elkhatib, Reza Azarderakhsh, Mehran Mozaffari Kermani:
Accelerated RISC-V for SIKE. 131-138 - Thomas Plantard:
Efficient Word Size Modular Arithmetic. 139
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
last updated on 2025-02-15 00:26 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
