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Phillip Stanley-Marbell
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2020 – today
- 2024
- [c28]Pei Mu
, Nikolaos Mavrogeorgis
CoSense: Compiler Optimizations using Sensor Technical Specifications. CC 2024: 73-85 - [i20]James Timothy Meech, Vasileios Tsoutsouras, Phillip Stanley-Marbell:
Electron-Tunnelling-Noise Programmable Random Variate Accelerator for Monte Carlo Sampling. CoRR abs/2403.16421 (2024) - 2023
- [i19]James Timothy Meech, Vasileios Tsoutsouras, Phillip Stanley-Marbell:
The Data Movement Bottleneck: Theoretical Shortcomings of Analog Optical Fourier Transform and Convolution Computing Accelerators. CoRR abs/2308.01719 (2023) - 2022
- [j21]Thomas Newton
Machine Learning for Sensor Transducer Conversion Routines. IEEE Embed. Syst. Lett. 14(2): 75-78 (2022) - [j20]Vasileios Tsoutsouras
The Laplace Microarchitecture for Tracking Data Uncertainty. IEEE Micro 42(4): 78-86 (2022) - [j19]Armin Alaghi, Eva Darulova, Andreas Gerstlauer, Phillip Stanley-Marbell:
Introduction to the Special Issue on Approximate Systems. ACM Trans. Design Autom. Electr. Syst. 27(2): 10:1-10:2 (2022) - 2021
- [j18]Vasileios Tsoutsouras, Sam Willis, Phillip Stanley-Marbell:
Deriving equations from sensor data using dimensional function synthesis. Commun. ACM 64(7): 91-99 (2021) - [j17]Phillip Stanley-Marbell
Exploiting Errors for Efficiency: A Survey from Circuits to Applications. ACM Comput. Surv. 53(3): 51:1-51:39 (2021) - [j16]James Timothy Meech
Efficient Programmable Random Variate Generation Accelerator From Sensor Noise. IEEE Embed. Syst. Lett. 13(3): 73-76 (2021) - [j15]Bilgesu Arif Bilgin
Probabilistic Value-Deviation-Bounded Source-Dependent Bit-Level Channel Adaptation for Approximate Communication. IEEE Trans. Computers 70(11): 1949-1961 (2021) - [c27]Vasileios Tsoutsouras, Orestis Kaparounakis
The Laplace Microarchitecture for Tracking Data Uncertainty and Its Implementation in a RISC-V Processor. MICRO 2021: 1254-1269 - [i18]Thomas Newton, James Timothy Meech, Phillip Stanley-Marbell:
Machine Learning for Sensor Transducer Conversion Routines. CoRR abs/2108.11374 (2021) - [i17]Nathaniel Joseph Tye, Stephan Hofmann, Phillip Stanley-Marbell:
Bridging the Band Gap: What Device Physicists Need to Know About Machine Learning. CoRR abs/2110.05910 (2021) - [i16]Eva Darulova, Babak Falsafi, Andreas Gerstlauer, Phillip Stanley-Marbell:
Approximate Systems (Dagstuhl Seminar 21302). Dagstuhl Reports 11(6): 147-163 (2021) - 2020
- [j14]Phillip Stanley-Marbell, Martin C. Rinard:
Warp: A Hardware Platform for Efficient Multimodal Sensing With Adaptive Approximation. IEEE Micro 40(1): 57-66 (2020) - [j13]Marcus Pirron
Automated Controller and Sensor Configuration Synthesis Using Dimensional Analysis. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 39(11): 3227-3238 (2020) - [c26]Nathaniel Joseph Tye, James Timothy Meech, Bilgesu Arif Bilgin, Phillip Stanley-Marbell:
A System for Generating Non-Uniform Random Variates using Graphene Field-Effect Transistors. ASAP 2020: 101-108 - [c25]Chatura Samarakoon, Gehan Amaratunga, Phillip Stanley-Marbell:
Content-Aware Automated Parameter Tuning for Approximate Color Transforms. MobileHCI (Extended Abstracts) 2020: 14:1-14:6 - [i15]Vasileios Tsoutsouras, Joseph Story, Phillip Stanley-Marbell:
Payload-Mass-Aware Trajectory Planning on Multi-User Autonomous Unmanned Aerial Vehicles. CoRR abs/2001.02531 (2020) - [i14]James Timothy Meech, Phillip Stanley-Marbell:
Efficient Programmable Random Variate Generation Accelerator from Sensor Noise. CoRR abs/2001.05400 (2020) - [i13]Vasileios Tsoutsouras, Max Vigdorchik, Phillip Stanley-Marbell:
Synthesizing Compact Hardware for Accelerating Inference from Physical Signals in Sensors. CoRR abs/2002.01241 (2020) - [i12]Orestis Kaparounakis, Vasileios Tsoutsouras, Dimitrios Soudris, Phillip Stanley-Marbell:
Automated Physics-Derived Code Generation for Sensor Fusion and State Estimation. CoRR abs/2004.13873 (2020) - [i11]Nathaniel Joseph Tye, James Timothy Meech, Bilgesu Arif Bilgin, Phillip Stanley-Marbell:
A System for Generating Non-Uniform Random Variates using Graphene Field-Effect Transistors. CoRR abs/2004.14111 (2020) - [i10]Chatura Samarakoon
Inferring Human Observer Spectral Sensitivities from Video Game Data. CoRR abs/2007.00490 (2020) - [i9]Chatura Samarakoon, Gehan Amaratunga, Phillip Stanley-Marbell:
Content-Aware Automated Parameter Tuning for Approximate Color Transforms. CoRR abs/2007.00494 (2020) - [i8]Bilgesu Arif Bilgin, Phillip Stanley-Marbell:
Probabilistic Value-Deviation-Bounded Source-Dependent Bit-Level Channel Adaptation for Approximate Communication. CoRR abs/2009.07811 (2020)
2010 – 2019
- 2019
- [j12]Youchao Wang, Sam Willis, Vasileios Tsoutsouras, Phillip Stanley-Marbell:
Deriving Equations from Sensor Data Using Dimensional Function Synthesis. ACM Trans. Embed. Comput. Syst. 18(5s): 84:1-84:22 (2019) - 2018
- [j11]Phillip Stanley-Marbell, Martin C. Rinard:
Perceived-Color Approximation Transforms for Programs that Draw. IEEE Micro 38(4): 20-29 (2018) - [e1]Luis Ceze, Natalie D. Enright Jerger, Babak Falsafi, Grigori Fursin, Anton Lokhmotov, Thierry Moreau, Adrian Sampson, Phillip Stanley-Marbell:
Proceedings of the 1st on Reproducible Quality-Efficient Systems Tournament on Co-designing Pareto-efficient Deep Learning, ReQuEST@ASPLOS 2018, Williamsburg, VA, USA, March 24, 2018. ACM 2018 [contents] - [i7]José Pablo Cambronero, Phillip Stanley-Marbell, Martin C. Rinard:
Incremental Color Quantization for Color-Vision-Deficient Observers Using Mobile Gaming Data. CoRR abs/1803.08420 (2018) - [i6]Phillip Stanley-Marbell, Paul Hurley:
Probabilistic Value-Deviation-Bounded Integer Codes for Approximate Communication. CoRR abs/1804.02317 (2018) - [i5]Phillip Stanley-Marbell, Martin C. Rinard:
A Hardware Platform for Efficient Multi-Modal Sensing with Adaptive Approximation. CoRR abs/1804.09241 (2018) - [i4]Phillip Stanley-Marbell, Armin Alaghi, Michael Carbin, Eva Darulova, Lara Dolecek, Andreas Gerstlauer, Ghayoor Gillani, Djordje Jevdjic, Thierry Moreau, Mattia Cacciotti, Alexandros Daglis, Natalie D. Enright Jerger, Babak Falsafi, Sasa Misailovic, Adrian Sampson, Damien Zufferey:
Exploiting Errors for Efficiency: A Survey from Circuits to Algorithms. CoRR abs/1809.05859 (2018) - [i3]Jonathan Lim, Phillip Stanley-Marbell:
Newton: A Language for Describing Physics. CoRR abs/1811.04626 (2018) - 2017
- [j10]Phillip Stanley-Marbell, Martin C. Rinard:
Error-Efficient Computing Systems. Found. Trends Electron. Des. Autom. 11(4): 362-461 (2017) - 2016
- [c24]Phillip Stanley-Marbell
Reducing serial I/O power in error-tolerant applications by efficient lossy encoding. DAC 2016: 62:1-62:6 - [c23]Phillip Stanley-Marbell, Virginia Estellers, Martin C. Rinard:
Crayon: saving power through shape and color approximation on next-generation displays. EuroSys 2016: 11:1-11:17 - [c22]Phillip Stanley-Marbell, Pier Andrea Francese
Encoder logic for reducing serial I/O power in sensors and sensor hubs. Hot Chips Symposium 2016: 1-2 - [c21]Jürgen Cito, Julia Rubin, Phillip Stanley-Marbell
Battery-aware transformations in mobile applications. ASE 2016: 702-707 - 2015
- [j9]Phillip Stanley-Marbell
Efficiency Limits for Value-Deviation-Bounded Approximate Communication. IEEE Embed. Syst. Lett. 7(4): 109-112 (2015) - [c20]Phillip Stanley-Marbell, Martin C. Rinard:
Lax: Driver Interfaces for Approximate Sensor Device Access. HotOS 2015 - [c19]Phillip Stanley-Marbell
How device properties influence energy-delay metrics and the energy-efficiency of parallel computations. HotPower@SOSP 2015: 31-35 - 2013
- [j8]Phillip Stanley-Marbell
L24: Parallelism, performance, energy efficiency, and cost trade-offs in future sensor platforms. ACM Trans. Embed. Comput. Syst. 13(1): 7:1-7:27 (2013) - 2011
- [j7]Phillip Stanley-Marbell
Parallelism, Performance, and Energy-Efficiency Tradeoffs for In Situ Sensor Data Processing. IEEE Embed. Syst. Lett. 3(1): 16-19 (2011) - [j6]Anthony Schoofs, Phillip Stanley-Marbell
Portability in MAC protocol and transceiver software implementations for LR-WPAN platforms. Softw. Pract. Exp. 41(4): 339-361 (2011) - [c18]Victoria Caparrós Cabezas, Phillip Stanley-Marbell
Quantitative analysis of parallelism and data movement properties across the Berkeley computational motifs. Conf. Computing Frontiers 2011: 17 - [c17]Rik Jongerius, Phillip Stanley-Marbell
Quantifying the common computational problems in contemporary applications. IISWC 2011: 74 - [c16]Phillip Stanley-Marbell
Performance, Power, and Thermal Analysis of Low-Power Processors for Scale-Out Systems. IPDPS Workshops 2011: 863-870 - [c15]Phillip Stanley-Marbell, Victoria Caparrós Cabezas, Ronald P. Luijten:
Pinned to the walls: impact of packaging and application properties on the memory and power walls. ISLPED 2011: 51-56 - [c14]Victoria Caparrós Cabezas, Phillip Stanley-Marbell
Parallelism and data movement characterization of contemporary application classes. SPAA 2011: 95-104 - 2010
- [j5]Eric Van Hensbergen, Noah Paul Evans, Phillip Stanley-Marbell
A unified execution model for cloud computing. ACM SIGOPS Oper. Syst. Rev. 44(2): 12-17 (2010) - [c13]Phillip Stanley-Marbell
Sal/Svm: an assembly language and virtual machine for computing with non-enumerated sets. VMIL@SPLASH 2010: 1:1-1:10
2000 – 2009
- 2009
- [j4]Anthony Schoofs, Peter van der Stok, Phillip Stanley-Marbell
Portability Versus Efficiency Tradeoffs in MAC Implementations for Microsensor Platforms. IEEE Embed. Syst. Lett. 1(1): 24-27 (2009) - 2008
- [c12]Hamid Shojaei, Twan Basten
SPaC: a symbolic pareto calculator. CODES+ISSS 2008: 179-184 - 2007
- [c11]Phillip Stanley-Marbell
An 0.9 × 1.2", low power, energy-harvesting system with custom multi-channel communication interface. DATE 2007: 15-20 - [c10]Phillip Stanley-Marbell, Diana Marculescu
Sunflower : Full-System, Embedded Microarchitecture Evaluation. HiPEAC 2007: 168-182 - [i2]Chris J. Bleakley, Tom Clerckx, Harald Devos, Matthias Grumer, Alex Janek, Ulrich Kremer, Christian W. Probst, Phillip Stanley-Marbell, Christian Steger, Vasanth Venkatachalam, Manuel Wendt:
07041 Working Group - Towards Interfaces for Integrated Performance and Power Analysis and Simulation. Power-aware Computing Systems 2007 - [i1]Phillip Stanley-Marbell:
The Sunflower Tool Suite - Hardware and Software Research Platforms for Energy-Constrained and Failure-Prone Systems. Power-aware Computing Systems 2007 - 2006
- [c9]Phillip Stanley-Marbell, Kanishka Lahiri, Anand Raghunathan
Adaptive data placement in an embedded multiprocessor thread library. DATE 2006: 698-699 - 2005
- [c8]Phillip Stanley-Marbell
Full-system simulation for sensor networks. SenSys 2005: 317 - 2004
- [c7]Phillip Stanley-Marbell
Local Decisions and Triggering Mechanisms for Adaptive Fault-Tolerance. DATE 2004: 968-973 - 2003
- [b1]Phillip Stanley-Marbell:
Inferno programming with Limbo. Wiley 2003, pp. I-XVI, 1-353 - [j3]Diana Marculescu
Electronic textiles: a platform for pervasive computing. Proc. IEEE 91(12): 1993-1994 (2003) - [j2]Diana Marculescu
Electronic textiles: A platform for pervasive computing. Proc. IEEE 91(12): 1995-2018 (2003) - [j1]Phillip Stanley-Marbell
Modeling, Analysis, and Self-Management of Electronic Textiles. IEEE Trans. Computers 52(8): 996-1010 (2003) - [c6]Diana Marculescu, Nicholas H. Zamora, Phillip Stanley-Marbell, Radu Marculescu:
Fault-Tolerant Techniques for Ambient Intelligent Distributed Systems. ICCAD 2003: 348-355 - [c5]Phillip Stanley-Marbell, Diana Marculescu:
Dynamic Fault-Tolerance and Metrics for Battery Powered, Failure-Prone Systems. ICCAD 2003: 633-640 - 2002
- [c4]Phillip Stanley-Marbell
A Hardware Architecture for Dynamic Performance and Energy Adaptation. PACS 2002: 33-52 - 2001
- [c3]Phillip Stanley-Marbell, Cristian Borcea, Kiran Nagaraja, Liviu Iftode:
Smart Messages: A System Architecture for Large Networks of Embedded Systems. HotOS 2001: 181 - [c2]Phillip Stanley-Marbell, Michael S. Hsiao:
Fast, flexible, cycle-accurate energy estimation. ISLPED 2001: 141-146 - 2000
- [c1]Phillip Stanley-Marbell
Scylla: a smart virtual machine for mobile embedded systems. WMCSA 2000: 41-
Coauthor Index
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last updated on 2024-05-08 21:01 CEST by the dblp team
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