Vincent Camus

Publication Activity (10 Years)

Years Active: 2015-2019
Publications (10 Years): 15

Top Topics

Continuous Query Processing

Discrete Cosine Transform

Top Venues

IEEE J. Emerg. Sel. Topics Circuits Syst.

Publications

Vincent Camus, Linyan Mei, Christian C. Enz, Marian Verhelst
Review and Benchmarking of Precision-Scalable Multiply-Accumulate Unit Architectures for Embedded Neural-Network Processing. IEEE J. Emerg. Sel. Topics Circuits Syst. 9 (4) (2019)
Vincent Camus, Christian C. Enz, Marian Verhelst
Survey of Precision-Scalable Multiply-Accumulate Units for Neural-Network Processing. AICAS (2019)
Justine Bonnot, Vincent Camus, Karol Desnos, Daniel Ménard
Cassis: Characterization with Adaptive Sample- Size Inferential Statistics Applied to Inexact Circuits. EUSIPCO (2018)
Vincent Camus, Mattia Cacciotti, Jeremy Schlachter, Christian C. Enz
Design of Approximate Circuits by Fabrication of False Timing Paths: The Carry Cut-Back Adder. IEEE J. Emerg. Sel. Topics Circuits Syst. 8 (4) (2018)
Mattia Cacciotti, Vincent Camus, Jeremy Schlachter, Alessandro Pezzotta, Christian C. Enz
Hardware Acceleration of HDR-Image Tone Mapping on an FPGA-CPU Platform Through High-Level Synthesis. SoCC (2018)
Jeremy Schlachter, Vincent Camus, Krishna V. Palem, Christian C. Enz
Design and Applications of Approximate Circuits by Gate-Level Pruning. IEEE Trans. Very Large Scale Integr. Syst. 25 (5) (2017)
Xun Jiao, Vincent Camus, Mattia Cacciotti, Yu Jiang, Christian C. Enz, Rajesh K. Gupta
Combining structural and timing errors in overclocked inexact speculative adders. DATE (2017)
Marta Franceschi, Vincent Camus, Ali Ibrahim, Christian C. Enz, Maurizio Valle
Approximate FPGA Implementation of CORDIC for Tactile Data Processing Using Speculative Adders. NGCAS (2017)
Jeremy Schlachter, Vincent Camus, Christian C. Enz
Design of energy-efficient discrete cosine transform using pruned arithmetic circuits. ISCAS (2016)
Vincent Camus, Jeremy Schlachter, Christian C. Enz
approximate adder with fixed-point implementation and floating-point precision. DAC (2016)
Vincent Camus, Jeremy Schlachter, Christian C. Enz, Michael Gautschi, Frank K. Gürkaynak
Approximate 32-bit floating-point unit design with 53% power-area product reduction. ESSCIRC (2016)
Jeremy Schlachter, Vincent Camus, Christian C. Enz
Near/Sub-Threshold Circuits and Approximate Computing: The Perfect Combination for Ultra-Low-Power Systems. ISVLSI (2015)
Vincent Camus, Jeremy Schlachter, Christian C. Enz
Energy-efficient inexact speculative adder with high performance and accuracy control. ISCAS (2015)
Jeremy Schlachter, Vincent Camus, Christian C. Enz, Krishna V. Palem
Automatic generation of inexact digital circuits by gate-level pruning. ISCAS (2015)
Vincent Camus, Jeremy Schlachter, Christian C. Enz
Energy-efficient digital design through inexact and approximate arithmetic circuits. NEWCAS (2015)