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Mark G. Arnold
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2020 – today
- 2022
- [j16]Pradeeban Kathiravelu
, Mark G. Arnold
CONTROL-CORE: A Framework for Simulation and Design of Closed-Loop Peripheral Neuromodulation Control Systems. IEEE Access 10: 36268-36285 (2022) - [c49]Mark G. Arnold:
Towards Quantum Logarithm Number Systems. ARITH 2022: 76-83 - 2020
- [j15]Mark G. Arnold
Implementing the Residue Logarithmic Number System Using Interpolation and Cotransformation. IEEE Trans. Computers 69(12): 1719-1732 (2020) - [c48]Mark G. Arnold, Ed Chester, Corey Johnson:
Training Neural Nets using only an Approximate Tableless LNS ALU. ASAP 2020: 69-72
2010 – 2019
- 2019
- [c47]Mark G. Arnold, Ioannis Kouretas, Vassilis Paliouras
Under- and Overflow Detection in the Residue Logarithmic Number System. ARITH 2019: 112-115 - [c46]Mark G. Arnold, Ed Chester, John R. Cowles, Corey Johnson:
Optimizing Mitchell's Method for Approximate Logarithmic Addition via Base Selection with Application to Back-Propagation. NORCAS 2019: 1-6 - [c45]Mark G. Arnold, Ioannis Kouretas, Vassilis Paliouras
One-Hot Residue Logarithmic Number Systems. PATMOS 2019: 97-102 - 2016
- [c44]Mark G. Arnold, Ed Chester, John R. Cowles:
Guarding the guards: Enhancing LNS performance for common applications. ASAP 2016: 123-130 - 2014
- [j14]Mark G. Arnold, Caroline Collange:
Options for Denormal Representation in Logarithmic Arithmetic. J. Signal Process. Syst. 77(1-2): 207-220 (2014) - 2013
- [j13]Mark G. Arnold:
Improved DNA-sticker arithmetic: tube-encoded-carry, Logarithmic Number System and Monte-Carlo methods. Nat. Comput. 12(2): 235-246 (2013) - [c43]Mark G. Arnold, Caroline Collange:
The Denormal Logarithmic Number System. ASAP 2013: 117-124 - [c42]Mark G. Arnold:
Extending DNA-Sticker Arithmetic to Arbitrary Size Using Staples. DNA 2013: 1-15 - 2011
- [j12]Mark G. Arnold, Caroline Collange:
A Real/Complex Logarithmic Number System ALU. IEEE Trans. Computers 60(2): 202-213 (2011) - [c41]Mark G. Arnold, John R. Cowles, Vassilis Paliouras
Towards a Quaternion Complex Logarithmic Number System. IEEE Symposium on Computer Arithmetic 2011: 33-42 - [c40]Mark G. Arnold, Ioannis Kouretas
A Residue Logarithmic Number System ALU using interpolation and cotransformation. ASAP 2011: 255-258 - [c39]Mark G. Arnold:
An Improved DNA-Sticker Addition Algorithm and Its Application to Logarithmic Arithmetic. DNA 2011: 34-48 - [c38]Mark G. Arnold:
Configuring Field-Programmable Robot Arrays. ReConFig 2011: 67-73 - 2010
- [j11]Panagiotis D. Vouzis, Caroline Collange, Mark G. Arnold:
A Novel Cotransformation for LNS Subtraction. J. Signal Process. Syst. 58(1): 29-40 (2010) - [c37]Jung H. Cho, Mark G. Arnold:
Low-voltage Scratch-drive Micro-scalpels Controlled by a Binary-encoded Signal. BIODEVICES 2010: 219-223 - [c36]Mark G. Arnold, Caroline Collange, David Defour:
Implementing LNS using filtering units of GPUs. ICASSP 2010: 1542-1545 - [c35]Mark G. Arnold, Jung H. Cho:
Dual-stylus-arm scratch drive micro-robots controlled by an onboard parallax algorithm. ICRA 2010: 3147-3152 - [c34]Jung H. Cho, Mark G. Arnold:
Dual-stylus-arm scratch drive micro-robots controlled by a communication channel. ISCAS 2010: 789-792 - [c33]Mark G. Arnold, Panagiotis D. Vouzis, Jung H. Cho:
Bitstream Efficiency of Field Programmable One-Hot Arrays. ISVLSI 2010: 436-441
2000 – 2009
- 2009
- [j10]Panagiotis D. Vouzis, Mayuresh V. Kothare, Leonidas G. Bleris, Mark G. Arnold:
A System-on-a-Chip Implementation for Embedded Real-Time Model Predictive Control. IEEE Trans. Control. Syst. Technol. 17(5): 1006-1017 (2009) - [c32]Mark G. Arnold, Caroline Collange:
A Dual-Purpose Real/Complex Logarithmic Number System ALU. IEEE Symposium on Computer Arithmetic 2009: 15-24 - [c31]Jung H. Cho, Mark G. Arnold:
Powering embedded CMOS logic on MEMS-based micro-robots. BMAS 2009: 73-77 - [c30]Mark G. Arnold, Jung H. Cho:
Parallax-Docking and Reconfiguration of Field Programmable Robot Arrays Using an Intermittently-Powered One-Hot Controller. ReConFig 2009: 398-403 - 2007
- [c29]Panagiotis D. Vouzis, Caroline Collange, Mark G. Arnold:
LNS Subtraction Using Novel Cotransformation and/or Interpolation. ASAP 2007: 107-114 - [c28]Panagiotis D. Vouzis, Caroline Collange, Mark G. Arnold:
Cotransformation Provides Area and Accuracy Improvement in an HDL Library for LNS Subtraction. DSD 2007: 85-93 - [c27]Mark G. Arnold, Panagiotis D. Vouzis:
A Serial Logarithmic Number System ALU. DSD 2007: 151-156 - [c26]Panagiotis D. Vouzis, Caroline Collange, Mark G. Arnold, Mayuresh V. Kothare:
Monte Carlo Logarithmic Number System for Model Predictive Control. FPL 2007: 453-458 - 2006
- [j9]Mustafa Gök
Integer Multipliers with Overflow Detection. IEEE Trans. Computers 55(8): 1062-1066 (2006) - [c25]Leonidas G. Bleris, Panagiotis D. Vouzis, Mark G. Arnold, Mayuresh V. Kothare:
A co-processor FPGA platform for the implementation of real-time model predictive control. ACC 2006: 1-6 - [c24]Mark G. Arnold:
A RISC Processor with Redundant LNS Instructions. DSD 2006: 475-482 - [c23]Panagiotis D. Vouzis, Mark G. Arnold:
A parallel search algorithm for CLNS addition optimization. ISCAS 2006 - 2005
- [c22]Mark G. Arnold:
The Residue Logarithmic Number System: Theory and Implementation. IEEE Symposium on Computer Arithmetic 2005: 196-205 - [c21]Mark G. Arnold:
Approximating Trigonometric Functions with the Laws of Sines and Cosines using the Logarithmic Number System. DSD 2005: 48-55 - [c20]Panagiotis D. Vouzis, Mark G. Arnold, Vassilis Paliouras
Using CLNS for FFTs in OFDM demodulation of UWB receivers. ISCAS (4) 2005: 3954-3957 - [c19]Faisal M. Khan, Mark G. Arnold, William M. Pottenger:
Hardware-based support vector machine classification in logarithmic number systems. ISCAS (5) 2005: 5154-5157 - 2004
- [c18]Jesus Garcia, Mark G. Arnold, Leonidas G. Bleris, Mayuresh V. Kothare:
LNS architectures for embedded model predictive control processors. CASES 2004: 79-84 - [c17]Faisal M. Khan, Mark G. Arnold, William M. Pottenger:
Finite Precision Analysis of Support Vector Machine Classification in Logarithmic Number Systems. DSD 2004: 254-261 - [c16]Mark G. Arnold:
Geometric-mean interpolation for logarithmic number systems. ISCAS (2) 2004: 433-436 - [c15]Jie Ruan, Mark G. Arnold:
Threshold Mean Larger Ratio Motion Estimation in MPEG Encoding Using LNS. PATMOS 2004: 208-217 - [c14]Mark G. Arnold:
LPVIP: A Low-Power ROM-Less ALU for Low-Precision LNS. PATMOS 2004: 675-684 - 2003
- [j8]Mark G. Arnold, Thomas A. Bailey, John R. Cowles:
Error Analysis of the Kmetz/Maenner Algorithm. J. VLSI Signal Process. 33(1-2): 37-53 (2003) - [j7]Mark G. Arnold, Thomas A. Bailey, John R. Cowles, Colin D. Walter:
Fast Fourier Transforms Using the Complex Logarithmic Number System. J. VLSI Signal Process. 33(3): 325-335 (2003) - [c13]Mark G. Arnold, Jesus Garcia, Michael J. Schulte:
The Interval Logarithmic Number System. IEEE Symposium on Computer Arithmetic 2003: 253-261 - [c12]Mark G. Arnold:
Iterative Methods for Logarithmic Subtraction. ASAP 2003: 315-525 - [c11]Mark G. Arnold:
A VLIW Architecture for Logarithmic Arithmetic. DSD 2003: 294-303 - [c10]Jie Ruan, Mark G. Arnold:
Combined LNS Adder/Subtractors for DCT Hardware. ESTIMedia 2003: 118-123 - 2002
- [c9]Mark G. Arnold:
Avoiding oddification to simplify MPEG-1 decoding with LNS. IEEE Workshop on Multimedia Signal Processing 2002: 125-129 - [c8]Mark G. Arnold:
Reduced Power Consumption for MPEG Decoding with LNS. ASAP 2002: 65-75 - 2001
- [c7]Mark G. Arnold, Colin D. Walter:
Unrestricted Faithful Rounding is Good Enough for Some LNS Applications. IEEE Symposium on Computer Arithmetic 2001: 237-246 - [c6]Mark G. Arnold:
Design of a Faithful LNS Interpolator. DSD 2001: 336-345 - [c5]Mark G. Arnold, Mark D. Winkel:
A Single-Multiplier Quadratic Interpolator for LNS Arithmetic. ICCD 2001: 178-185
1990 – 1999
- 1998
- [j6]Mark G. Arnold, Thomas A. Bailey, John R. Cowles, Mark D. Winkel:
Arithmetic Co-Transformations in the Real and Complex Logarithmic Number Systems. IEEE Trans. Computers 47(7): 777-786 (1998) - 1997
- [c4]Mark G. Arnold, Thomas A. Bailey, John R. Cowles, Mark D. Winkel:
Arithmetic Co-transformations in the Real and Complex Logarithmic Number Systems. IEEE Symposium on Computer Arithmetic 1997: 190-199 - [c3]Mark G. Arnold, Thomas A. Bailey, Jerry J. Cupal, Mark D. Winkel:
On the cost effectiveness of logarithmic arithmetic for backpropagation training on SIMD processors. ICNN 1997: 933-936 - 1992
- [j5]Mark G. Arnold, Thomas A. Bailey, John R. Cowles:
Comments on "An Architecture for Addition and Subtraction of Long Word Length Numbers in the Logarithmic Number System''. IEEE Trans. Computers 41(6): 786-788 (1992) - [j4]Mark G. Arnold, Thomas A. Bailey, John R. Cowles, Mark D. Winkel:
Applying Features of IEEE 754 to Sign/Logarithm Arithmetic. IEEE Trans. Computers 41(8): 1040-1050 (1992) - [j3]Mark G. Arnold, Thomas A. Bailey, John R. Cowles, Jerry J. Cupal:
Initializing RAM-based logarithmic processors. J. VLSI Signal Process. 4(2-3): 243-252 (1992) - 1990
- [j2]Mark G. Arnold, Thomas A. Bailey, John R. Cowles, Jerry J. Cupal:
Redundant Logarithmic Arithmetic. IEEE Trans. Computers 39(8): 1077-1086 (1990)
1980 – 1989
- 1989
- [c2]Mark G. Arnold, Thomas A. Bailey, John R. Cowles, Jerry J. Cupal:
Redundant logarithmic number systems. IEEE Symposium on Computer Arithmetic 1989: 144-151 - 1988
- [c1]Mark G. Arnold, John R. Cowles, Thomas A. Bailey:
Improved accuracy for logarithmic addition in DSP applications. ICASSP 1988: 1714-1717 - 1981
- [j1]Michael L. Cook, Mark G. Arnold:
A structured APL preprocessor. ACM SIGPLAN Notices 16(5): 22-31 (1981)
Coauthor Index
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