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Bogdan Pasca 0001
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- affiliation: Intel Corporation, France
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2020 – today
- 2024
- [j9]Sergey Gribok, Bogdan Pasca, Martin Langhammer:
CSAIL2019 Crypto-Puzzle Solver Architecture. ACM Trans. Reconfigurable Technol. Syst. 17(3): 44:1-44:32 (2024) - [c42]Martin Langhammer, Bogdan Pasca, Igor Kucherenko:
Multiplier Architecture with a Carry-Based Partial Product Encoding. ARITH 2024: 104-107 - [c41]Sergey Gribok, Bogdan Pasca:
Efficient 8-bit Matrix Multiplication on Intel Agilex-5 FPGAs. FCCM 2024: 43-53 - [c40]Shahzad Ahmad Butt, Benjamin Reynolds, Veeraraghavan Ramamurthy, Xiao Xiao, Pohrong Chu, Setareh Sharifian, Sergey Gribok, Bogdan Pasca:
if-ZKP: Intel FPGA-Based Acceleration of Zero Knowledge Proofs. FCCM 2024: 212 - [c39]Sergey Gribok, Martin Langhammer, Bogdan Pasca:
FPGA Modular Multipliers using Hybrid Reduction Techniques. FPL 2024: 288-296 - 2023
- [c38]Bogdan Pasca, Martin Langhammer:
Extracting low-precision floating-point adders from embedded hard FP DSP Blocks on FPGAs. ARITH 2023: 139-142 - [c37]Sergey Gribok, Bogdan Pasca, Martin Langhammer:
CSAIL2019 Crypto-Puzzle Solver Architecture. FPGA 2023: 197-207 - 2022
- [j8]Stuart F. Oberman, Leonel Sousa, Bogdan Pasca, Alberto Nannarelli:
Guest Editorial: Special Section on Emerging and Impacting Trends on Computer Arithmetic. IEEE Trans. Emerg. Top. Comput. 10(3): 1239-1240 (2022) - [j7]Martin Langhammer, Eriko Nurvitadhi, Sergey Gribok, Bogdan Pasca:
Stratix 10 NX Architecture. ACM Trans. Reconfigurable Technol. Syst. 15(4): 45:1-45:32 (2022) - [c36]Martin Langhammer, Sergey Gribok, Bogdan Pasca:
Low-Latency Modular Exponentiation for FPGAs. FCCM 2022: 1-9 - 2021
- [j6]Mioara Joldes, Bogdan Pasca:
Efficient Floating-Point Implementation of the Probit Function on FPGAs. J. Signal Process. Syst. 93(12): 1387-1403 (2021) - [c35]Martin Langhammer, Eriko Nurvitadhi, Bogdan Pasca, Sergey Gribok:
Stratix 10 NX Architecture and Applications. FPGA 2021: 57-67 - [c34]Martin Langhammer, Bogdan Pasca:
Folded Integer Multiplication for FPGAs. FPGA 2021: 160-170 - [c33]Martin Langhammer, Bogdan Pasca:
Efficient FPGA Modular Multiplication Implementation. FPGA 2021: 217-223 - [c32]Martin Langhammer, Simon Finn, Sergey Gribok, Bogdan Pasca:
Dense FPGA Compute Using Signed Byte Tuples. FPL 2021: 130-138 - 2020
- [c31]Mioara Joldes, Bogdan Pasca:
Efficient Floating-Point Implementation of the Probit Function on FPGAs. ASAP 2020: 173-180
2010 – 2019
- 2019
- [c30]Bogdan Pasca:
Hybrid Dot-Product Design for FP-Enabled FPGAs. ARITH 2019: 194-196 - [c29]Eriko Nurvitadhi, Dongup Kwon, Ali Jafari, Andrew Boutros, Jaewoong Sim, Phillip Tomson, Huseyin Sumbul, Gregory K. Chen, Phil C. Knag, Raghavan Kumar, Ram Krishnamurthy, Sergey Gribok, Bogdan Pasca, Martin Langhammer, Debbie Marr, Aravind Dasu:
Why Compete When You Can Work Together: FPGA-ASIC Integration for Persistent RNNs. FCCM 2019: 199-207 - [c28]Martin Langhammer, Bogdan Pasca, Gregg Baeckler:
High Precision, High Performance FPGA Adders. FCCM 2019: 298-306 - [c27]Eriko Nurvitadhi, Dongup Kwon, Ali Jafari, Andrew Boutros, Jaewoong Sim, Phillip Tomson, Huseyin Sumbul, Gregory K. Chen, Phil C. Knag, Raghavan Kumar, Ram Krishnamurthy, Debbie Marr, Sergey Gribok, Bogdan Pasca, Martin Langhammer, Aravind Dasu:
Evaluating and Enhancing Intel® Stratix® 10 FPGAs for Persistent Real-Time AI. FPGA 2019: 119 - [c26]Martin Langhammer, Bogdan Pasca, Gregg Baeckler, Sergey Gribok:
Extracting INT8 Multipliers from INT18 Multipliers. FPL 2019: 114-120 - [c25]Andrei Hagiescu, Martin Langhammer, Bogdan Pasca, Philip Colangelo, Jason Thong, Niayesh Ilkhani:
BFLOAT MLP Training Accelerator for FPGAs. ReConFig 2019: 1-5 - 2018
- [c24]Martin Langhammer, Bogdan Pasca:
High-Performance QR Decomposition for FPGAs. FPGA 2018: 183-188 - [c23]Bogdan Pasca, Martin Langhammer:
Activation Function Architectures for FPGAs. FPL 2018: 43-50 - 2017
- [j5]Martin Langhammer, Bogdan Pasca:
Single Precision Logarithm and Exponential Architectures for Hard Floating-Point Enabled FPGAs. IEEE Trans. Computers 66(12): 2031-2043 (2017) - [c22]Martin Langhammer, Bogdan Pasca:
Floating Point Tangent Implementation for FPGAs. ARITH 2017: 64-65 - [c21]Matei Istoan, Bogdan Pasca:
Flexible Fixed-Point Function Generation for FPGAs. ARITH 2017: 123-130 - [c20]Patrick Sittel, Konrad Möller, Martin Kumm, Peter Zipf, Bogdan Pasca, Mark Jervis:
Model-based hardware design based on compatible sets of isomorphic subgraphs. FPT 2017: 199-202 - 2016
- [c19]Martin Langhammer, Bogdan Pasca:
Single Precision Natural Logarithm Architecture for Hard Floating-Point and DSP-Enabled FPGAs. ARITH 2016: 164-171 - 2015
- [c18]Martin Langhammer, Bogdan Pasca:
Design and Implementation of an Embedded FPGA Floating Point DSP Block. ARITH 2015: 26-33 - [c17]Deshanand P. Singh, Bogdan Pasca, Tomasz S. Czajkowski:
High-Level Design Tools for Floating Point FPGAs. FPGA 2015: 9-12 - [c16]Martin Langhammer, Bogdan Pasca:
Floating-Point DSP Block Architecture for FPGAs. FPGA 2015: 117-125 - 2014
- [c15]Bogdan Pasca:
Low-cost multiplier-based FPU for embedded processing on FPGA. FPL 2014: 1-4 - [i1]Adrian J. Chung, Kathryn Cobden, Mark Jervis, Martin Langhammer, Bogdan Pasca:
Tools and Techniques for Efficient High-Level System Design on FPGAs. CoRR abs/1408.4797 (2014) - 2013
- [j4]Florent de Dinechin, Pedro Echeverría, Marisa López-Vallejo, Bogdan Pasca:
Floating-Point Exponentiation Units for Reconfigurable Computing. ACM Trans. Reconfigurable Technol. Syst. 6(1): 4:1-4:15 (2013) - [c14]Martin Langhammer, Bogdan Pasca:
Elementary Function Implementation with Optimized Sub Range Polynomial Evaluation. FCCM 2013: 202-205 - [c13]Martin Langhammer, Bogdan Pasca:
Faithful single-precision floating-point tangent for FPGAs. FPGA 2013: 39-42 - [c12]Martin Langhammer, Bogdan Pasca:
Efficient floating-point polynomial evaluation on FPGAS. FPL 2013: 1-6 - 2012
- [j3]Christophe Alias, Bogdan Pasca, Alexandru Plesco:
FPGA-specific synthesis of loop-nests with pipelined computational cores. Microprocess. Microsystems 36(8): 606-619 (2012) - [c11]Bogdan Pasca:
Correctly rounded floating-point division for DSP-enabled FPGAs. FPL 2012: 249-254 - 2011
- [b1]Bogdan Mihai Pasca:
High-performance floating-point computing on reconfigurable circuits. (Calcul flottant haute performance sur circuits reconfigurables). École normale supérieure de Lyon, France, 2011 - [j2]Florent de Dinechin, Bogdan Pasca:
Designing Custom Arithmetic Data Paths with FloPoCo. IEEE Des. Test Comput. 28(4): 18-27 (2011) - [c10]Christophe Alias, Bogdan Pasca, Alexandru Plesco:
Automatic Generation of FPGA-Specific Pipelined Accelerators. ARC 2011: 53-66 - [c9]Florent de Dinechin, Jean-Michel Muller, Bogdan Pasca, Alexandru Plesco:
An FPGA architecture for solving the Table Maker's Dilemma. ASAP 2011: 187-194 - [c8]Hong Diep Nguyen, Bogdan Pasca, Thomas B. Preußer:
FPGA-Specific Arithmetic Optimizations of Short-Latency Adders. FPL 2011: 232-237 - 2010
- [j1]Sebastian Banescu, Florent de Dinechin, Bogdan Pasca, Radu Tudoran:
Multipliers for floating-point double precision and beyond on FPGAs. SIGARCH Comput. Archit. News 38(4): 73-79 (2010) - [c7]Florent de Dinechin, Mioara Joldes, Bogdan Pasca:
Automatic generation of polynomial-based hardware architectures for function evaluation. ASAP 2010: 216-222 - [c6]Florent de Dinechin, Hong Diep Nguyen, Bogdan Pasca:
Pipelined FPGA Adders. FPL 2010: 422-427 - [c5]Florent de Dinechin, Mioara Joldes, Bogdan Pasca, Guillaume Revy:
Multiplicative Square Root Algorithms for FPGAs. FPL 2010: 574-577 - [c4]Florent de Dinechin, Bogdan Pasca:
Floating-point exponential functions for DSP-enabled FPGAs. FPT 2010: 110-117
2000 – 2009
- 2009
- [c3]Florent de Dinechin, Cristian Klein, Bogdan Pasca:
Generating high-performance custom floating-point pipelines. FPL 2009: 59-64 - [c2]Florent de Dinechin, Bogdan Pasca:
Large multipliers with fewer DSP blocks. FPL 2009: 250-255 - 2008
- [c1]Florent de Dinechin, Bogdan Pasca, Octavian Cret, Radu Tudoran:
An FPGA-specific approach to floating-point accumulation and sum-of-products. FPT 2008: 33-40
Coauthor Index
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last updated on 2024-11-07 21:36 CET by the dblp team
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